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|
/*
* arch/arm/mach-tegra/pcie.c
*
* PCIe host controller driver for TEGRA SOCs
*
* Copyright (c) 2010, CompuLab, Ltd.
* Author: Mike Rapoport <mike@compulab.co.il>
*
* Based on NVIDIA PCIe driver
* Copyright (c) 2008-2012, NVIDIA Corporation.
*
* Bits taken from arch/arm/mach-dove/pcie.c
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include <linux/kernel.h>
#include <linux/pci.h>
#include <linux/interrupt.h>
#include <linux/irq.h>
#include <linux/clk.h>
#include <linux/delay.h>
#include <linux/msi.h>
#include <linux/slab.h>
#include <linux/platform_device.h>
#include <linux/regulator/consumer.h>
#include <linux/workqueue.h>
#include <linux/gpio.h>
#include <asm/sizes.h>
#include <asm/mach/pci.h>
#include <mach/pinmux.h>
#include <mach/iomap.h>
#include <mach/clk.h>
#include <mach/powergate.h>
#include <mach/pci.h>
#define MSELECT_CONFIG_0_ENABLE_PCIE_APERTURE 5
/* register definitions */
#define AFI_OFFSET 0x3800
#define PADS_OFFSET 0x3000
#define RP_OFFSET 0x1000
#define AFI_AXI_BAR0_SZ 0x00
#define AFI_AXI_BAR1_SZ 0x04
#define AFI_AXI_BAR2_SZ 0x08
#define AFI_AXI_BAR3_SZ 0x0c
#define AFI_AXI_BAR4_SZ 0x10
#define AFI_AXI_BAR5_SZ 0x14
#define AFI_AXI_BAR0_START 0x18
#define AFI_AXI_BAR1_START 0x1c
#define AFI_AXI_BAR2_START 0x20
#define AFI_AXI_BAR3_START 0x24
#define AFI_AXI_BAR4_START 0x28
#define AFI_AXI_BAR5_START 0x2c
#define AFI_FPCI_BAR0 0x30
#define AFI_FPCI_BAR1 0x34
#define AFI_FPCI_BAR2 0x38
#define AFI_FPCI_BAR3 0x3c
#define AFI_FPCI_BAR4 0x40
#define AFI_FPCI_BAR5 0x44
#define AFI_CACHE_BAR0_SZ 0x48
#define AFI_CACHE_BAR0_ST 0x4c
#define AFI_CACHE_BAR1_SZ 0x50
#define AFI_CACHE_BAR1_ST 0x54
#define AFI_MSI_BAR_SZ 0x60
#define AFI_MSI_FPCI_BAR_ST 0x64
#define AFI_MSI_AXI_BAR_ST 0x68
#define AFI_MSI_VEC0_0 0x6c
#define AFI_MSI_VEC1_0 0x70
#define AFI_MSI_VEC2_0 0x74
#define AFI_MSI_VEC3_0 0x78
#define AFI_MSI_VEC4_0 0x7c
#define AFI_MSI_VEC5_0 0x80
#define AFI_MSI_VEC6_0 0x84
#define AFI_MSI_VEC7_0 0x88
#define AFI_MSI_EN_VEC0_0 0x8c
#define AFI_MSI_EN_VEC1_0 0x90
#define AFI_MSI_EN_VEC2_0 0x94
#define AFI_MSI_EN_VEC3_0 0x98
#define AFI_MSI_EN_VEC4_0 0x9c
#define AFI_MSI_EN_VEC5_0 0xa0
#define AFI_MSI_EN_VEC6_0 0xa4
#define AFI_MSI_EN_VEC7_0 0xa8
#define AFI_CONFIGURATION 0xac
#define AFI_CONFIGURATION_EN_FPCI (1 << 0)
#define AFI_CONFIGURATION_DFPCI_RSPPASSPW (1 << 2)
#define AFI_FPCI_ERROR_MASKS 0xb0
#define AFI_INTR_MASK 0xb4
#define AFI_INTR_MASK_INT_MASK (1 << 0)
#define AFI_INTR_MASK_MSI_MASK (1 << 8)
#define AFI_INTR_CODE 0xb8
#define AFI_INTR_CODE_MASK 0xf
#define AFI_INTR_MASTER_ABORT 4
#define AFI_INTR_LEGACY 6
#define AFI_INTR_SIGNATURE 0xbc
#define AFI_SM_INTR_ENABLE 0xc4
#define AFI_AFI_INTR_ENABLE 0xc8
#define AFI_INTR_EN_INI_SLVERR (1 << 0)
#define AFI_INTR_EN_INI_DECERR (1 << 1)
#define AFI_INTR_EN_TGT_SLVERR (1 << 2)
#define AFI_INTR_EN_TGT_DECERR (1 << 3)
#define AFI_INTR_EN_TGT_WRERR (1 << 4)
#define AFI_INTR_EN_DFPCI_DECERR (1 << 5)
#define AFI_INTR_EN_AXI_DECERR (1 << 6)
#define AFI_INTR_EN_FPCI_TIMEOUT (1 << 7)
#define AFI_INTR_EN_PRSNT_SENSE (1 << 8)
#define AFI_PCIE_CONFIG 0x0f8
#define AFI_PCIE_CONFIG_PCIEC0_DISABLE_DEVICE (1 << 1)
#define AFI_PCIE_CONFIG_PCIEC1_DISABLE_DEVICE (1 << 2)
#define AFI_PCIE_CONFIG_PCIEC2_DISABLE_DEVICE (1 << 3)
#define AFI_PCIE_CONFIG_SM2TMS0_XBAR_CONFIG_MASK (0xf << 20)
#define AFI_PCIE_CONFIG_SM2TMS0_XBAR_CONFIG_SINGLE (0x0 << 20)
#define AFI_PCIE_CONFIG_SM2TMS0_XBAR_CONFIG_DUAL (0x1 << 20)
#define AFI_PCIE_CONFIG_SM2TMS0_XBAR_CONFIG_411 (0x2 << 20)
#define AFI_FUSE 0x104
#define AFI_FUSE_PCIE_T0_GEN2_DIS (1 << 2)
#define AFI_PEX0_CTRL 0x110
#define AFI_PEX1_CTRL 0x118
#define AFI_PEX2_CTRL 0x128
#define AFI_PEX_CTRL_RST (1 << 0)
#define AFI_PEX_CTRL_CLKREQ_EN (1 << 1)
#define AFI_PEX_CTRL_REFCLK_EN (1 << 3)
#define AFI_PEXBIAS_CTRL_0 0x168
#define RP_VEND_XP 0x00000F00
#define RP_VEND_XP_DL_UP (1 << 30)
#define RP_TXBA1 0x00000E1C
#define RP_TXBA1_CM_OVER_PW_BURST_MASK (0xF << 4)
#define RP_TXBA1_CM_OVER_PW_BURST_INIT_VAL (0x4 << 4)
#define RP_TXBA1_PW_OVER_CM_BURST_MASK (0xF)
#define RP_TXBA1_PW_OVER_CM_BURST_INIT_VAL (0x4)
#define RP_LINK_CONTROL_STATUS 0x00000090
#define RP_LINK_CONTROL_STATUS_LINKSTAT_MASK 0x3fff0000
#define PADS_CTL_SEL 0x0000009C
#define PADS_CTL 0x000000A0
#define PADS_CTL_IDDQ_1L (1 << 0)
#define PADS_CTL_TX_DATA_EN_1L (1 << 6)
#define PADS_CTL_RX_DATA_EN_1L (1 << 10)
#ifdef CONFIG_ARCH_TEGRA_2x_SOC
#define PADS_PLL_CTL 0x000000B8
#else
#define PADS_PLL_CTL 0x000000B4
#endif
#define PADS_PLL_CTL_RST_B4SM (1 << 1)
#define PADS_PLL_CTL_LOCKDET (1 << 8)
#define PADS_PLL_CTL_REFCLK_MASK (0x3 << 16)
#define PADS_PLL_CTL_REFCLK_INTERNAL_CML (0 << 16)
#define PADS_PLL_CTL_REFCLK_INTERNAL_CMOS (1 << 16)
#define PADS_PLL_CTL_REFCLK_EXTERNAL (2 << 16)
#define PADS_PLL_CTL_TXCLKREF_MASK (0x1 << 20)
#define PADS_PLL_CTL_TXCLKREF_BUF_EN (1 << 22)
#define PADS_PLL_CTL_TXCLKREF_DIV10 (0 << 20)
#define PADS_PLL_CTL_TXCLKREF_DIV5 (1 << 20)
#define PADS_REFCLK_CFG1 0x000000CC
/* PMC access is required for PCIE xclk (un)clamping */
#define PMC_SCRATCH42 0x144
#define PMC_SCRATCH42_PCX_CLAMP (1 << 0)
#define NV_PCIE2_RP_PRIV_MISC 0x00000FE0
#define PCIE2_RP_PRIV_MISC_CTLR_CLK_CLAMP_ENABLE 1 << 23
#define PCIE2_RP_PRIV_MISC_TMS_CLK_CLAMP_ENABLE 1 << 31
#define NV_PCIE2_RP_VEND_XP1 0x00000F04
#define NV_PCIE2_RP_VEND_XP1_LINK_PVT_CTL_L1_ASPM_SUPPORT_ENABLE 1 << 21
#ifdef CONFIG_ARCH_TEGRA_2x_SOC
/*
* Tegra2 defines 1GB in the AXI address map for PCIe.
*
* That address space is split into different regions, with sizes and
* offsets as follows:
*
* 0x80000000 - 0x80003fff - PCI controller registers
* 0x80004000 - 0x80103fff - PCI configuration space
* 0x80104000 - 0x80203fff - PCI extended configuration space
* 0x80203fff - 0x803fffff - unused
* 0x80400000 - 0x8040ffff - downstream IO
* 0x80410000 - 0x8fffffff - unused
* 0x90000000 - 0x9fffffff - non-prefetchable memory
* 0xa0000000 - 0xbfffffff - prefetchable memory
*/
#define TEGRA_PCIE_BASE 0x80000000
#define PCIE_REGS_SZ SZ_16K
#define PCIE_CFG_OFF PCIE_REGS_SZ
#define PCIE_CFG_SZ SZ_1M
#define PCIE_EXT_CFG_OFF (PCIE_CFG_SZ + PCIE_CFG_OFF)
#define PCIE_EXT_CFG_SZ SZ_1M
#define PCIE_IOMAP_SZ (PCIE_REGS_SZ + PCIE_CFG_SZ + PCIE_EXT_CFG_SZ)
#define MMIO_BASE (TEGRA_PCIE_BASE + SZ_4M)
#define MMIO_SIZE SZ_64K
#define MEM_BASE_0 (TEGRA_PCIE_BASE + SZ_256M)
#define MEM_SIZE SZ_256M
#define PREFETCH_MEM_BASE_0 (MEM_BASE_0 + MEM_SIZE)
#define PREFETCH_MEM_SIZE SZ_512M
#else
/*
* AXI address map for the PCIe aperture , defines 1GB in the AXI
* address map for PCIe.
*
* That address space is split into different regions, with sizes and
* offsets as follows. Exepct for the Register space, SW is free to slice the
* regions as it chooces.
*
* The split below seems to work fine for now.
*
* 0x0000_0000 to 0x00ff_ffff - Register space 16MB.
* 0x0100_0000 to 0x01ff_ffff - Config space 16MB.
* 0x0200_0000 to 0x02ff_ffff - Extended config space 16MB.
* 0x0300_0000 to 0x03ff_ffff - Downstream IO space
* ... Will be filled with other BARS like MSI/upstream IO etc.
* 0x1000_0000 to 0x1fff_ffff - non-prefetchable memory aperture
* 0x2000_0000 to 0x3fff_ffff - Prefetchable memory aperture
*
* Config and Extended config sizes are choosen to support
* maximum of 256 devices,
* which is good enough for all the current use cases.
*
*/
#define TEGRA_PCIE_BASE 0x00000000
#define PCIE_REGS_SZ SZ_16M
#define PCIE_CFG_OFF PCIE_REGS_SZ
#define PCIE_CFG_SZ SZ_16M
#define PCIE_EXT_CFG_OFF (PCIE_CFG_SZ + PCIE_CFG_OFF)
#define PCIE_EXT_CFG_SZ SZ_16M
/* During the boot only registers/config and extended config apertures are
* mapped. Rest are mapped on demand by the PCI device drivers.
*/
#define PCIE_IOMAP_SZ (PCIE_REGS_SZ + PCIE_CFG_SZ + PCIE_EXT_CFG_SZ)
#define MMIO_BASE (TEGRA_PCIE_BASE + PCIE_IOMAP_SZ)
#define MMIO_SIZE SZ_1M
#define MEM_BASE_0 (TEGRA_PCIE_BASE + SZ_256M)
#define MEM_SIZE SZ_256M
#define PREFETCH_MEM_BASE_0 (MEM_BASE_0 + MEM_SIZE)
#define PREFETCH_MEM_SIZE SZ_512M
#endif
#define PCIE_CONF_BUS(b) ((b) << 16)
#define PCIE_CONF_DEV(d) ((d) << 11)
#define PCIE_CONF_FUNC(f) ((f) << 8)
#define PCIE_CONF_REG(r) \
(((r) & ~0x3) | (((r) < 256) ? PCIE_CFG_OFF : PCIE_EXT_CFG_OFF))
#define PCIE_CTRL_REGS 7
#define COMBINE_PCIE_PCIX_SPACE 2
struct tegra_pcie_port {
int index;
u8 root_bus_nr;
void __iomem *base;
bool link_up;
char io_space_name[16];
char mem_space_name[16];
char prefetch_space_name[20];
struct resource res[3];
struct pci_bus* bus;
};
struct tegra_pcie_info {
struct tegra_pcie_port port[MAX_PCIE_SUPPORTED_PORTS];
int num_ports;
void __iomem *reg_clk_base;
void __iomem *regs;
struct resource *res_mmio;
int power_rails_enabled;
int pcie_power_enabled;
struct work_struct hotplug_detect;
struct regulator *regulator_hvdd;
struct regulator *regulator_pexio;
struct regulator *regulator_avdd_plle;
struct clk *pcie_xclk;
struct clk *pll_e;
struct tegra_pci_platform_data *plat_data;
}tegra_pcie;
struct resource tegra_pcie_res_mmio = {
.name = "PCI IO",
.start = MMIO_BASE,
.end = MMIO_BASE + MMIO_SIZE - 1,
.flags = IORESOURCE_MEM,
};
static struct resource pcie_io_space;
static struct resource pcie_mem_space;
static struct resource pcie_prefetch_mem_space;
/* disable read write while noirq operation
* is performed since pcie is powered off */
static bool is_pcie_noirq_op = false;
/* enable and init msi once during boot or resume */
static bool msi_enable;
/* this flag is used for enumeration by hotplug */
/* when dock is not connected while system boot */
static bool is_dock_conn_at_boot = true;
void __iomem *tegra_pcie_io_base;
EXPORT_SYMBOL(tegra_pcie_io_base);
/* Array of PCIe Controller Register offsets */
static u32 pex_controller_registers[] = {
AFI_PEX0_CTRL,
AFI_PEX1_CTRL,
#if MAX_PCIE_SUPPORTED_PORTS == 3
AFI_PEX2_CTRL,
#endif
};
static inline void afi_writel(u32 value, unsigned long offset)
{
writel(value, offset + AFI_OFFSET + tegra_pcie.regs);
}
static inline u32 afi_readl(unsigned long offset)
{
return readl(offset + AFI_OFFSET + tegra_pcie.regs);
}
static inline void pads_writel(u32 value, unsigned long offset)
{
writel(value, offset + PADS_OFFSET + tegra_pcie.regs);
}
static inline u32 pads_readl(unsigned long offset)
{
return readl(offset + PADS_OFFSET + tegra_pcie.regs);
}
static inline void rp_writel(u32 value, unsigned long offset, int rp)
{
BUG_ON(rp != 0 && rp != 1 && rp != 2);
offset += rp * (0x1UL << (rp - 1)) * RP_OFFSET;
writel(value, offset + tegra_pcie.regs);
}
static inline unsigned int rp_readl(unsigned long offset, int rp)
{
BUG_ON(rp != 0 && rp != 1 && rp != 2);
offset += rp * (0x1UL << (rp - 1)) * RP_OFFSET;
return readl(offset + tegra_pcie.regs);
}
static struct tegra_pcie_port *bus_to_port(int bus)
{
int i;
for (i = tegra_pcie.num_ports - 1; i >= 0; i--) {
int rbus = tegra_pcie.port[i].root_bus_nr;
if (rbus != -1 && rbus == bus)
break;
}
return i >= 0 ? tegra_pcie.port + i : NULL;
}
static int tegra_pcie_read_conf(struct pci_bus *bus, unsigned int devfn,
int where, int size, u32 *val)
{
struct tegra_pcie_port *pp = bus_to_port(bus->number);
void __iomem *addr;
/* read reg is disabled without intr to avoid hang in suspend noirq */
if (is_pcie_noirq_op)
return 0;
if (pp) {
if (devfn != 0) {
*val = 0xffffffff;
return PCIBIOS_DEVICE_NOT_FOUND;
}
addr = pp->base + (where & ~0x3);
} else {
addr = tegra_pcie.regs + (PCIE_CONF_BUS(bus->number) +
PCIE_CONF_DEV(PCI_SLOT(devfn)) +
PCIE_CONF_FUNC(PCI_FUNC(devfn)) +
PCIE_CONF_REG(where));
}
*val = readl(addr);
if (size == 1)
*val = (*val >> (8 * (where & 3))) & 0xff;
else if (size == 2)
*val = (*val >> (8 * (where & 3))) & 0xffff;
return PCIBIOS_SUCCESSFUL;
}
static int tegra_pcie_write_conf(struct pci_bus *bus, unsigned int devfn,
int where, int size, u32 val)
{
struct tegra_pcie_port *pp = bus_to_port(bus->number);
void __iomem *addr;
u32 mask;
u32 tmp;
/* write reg is disabled without intr to avoid hang in resume noirq */
if (is_pcie_noirq_op)
return 0;
/* pcie core is supposed to enable bus mastering and io/mem responses
* if its not setting then enable corresponding bits in pci_command
*/
if (where == PCI_COMMAND) {
if (!(val & PCI_COMMAND_IO))
val |= PCI_COMMAND_IO;
if (!(val & PCI_COMMAND_MEMORY))
val |= PCI_COMMAND_MEMORY;
if (!(val & PCI_COMMAND_MASTER))
val |= PCI_COMMAND_MASTER;
if (!(val & PCI_COMMAND_SERR))
val |= PCI_COMMAND_SERR;
}
if (pp) {
if (devfn != 0)
return PCIBIOS_DEVICE_NOT_FOUND;
addr = pp->base + (where & ~0x3);
} else {
addr = tegra_pcie.regs + (PCIE_CONF_BUS(bus->number) +
PCIE_CONF_DEV(PCI_SLOT(devfn)) +
PCIE_CONF_FUNC(PCI_FUNC(devfn)) +
PCIE_CONF_REG(where));
}
if (size == 4) {
writel(val, addr);
return PCIBIOS_SUCCESSFUL;
}
if (size == 2)
mask = ~(0xffff << ((where & 0x3) * 8));
else if (size == 1)
mask = ~(0xff << ((where & 0x3) * 8));
else
return PCIBIOS_BAD_REGISTER_NUMBER;
tmp = readl(addr) & mask;
tmp |= val << ((where & 0x3) * 8);
writel(tmp, addr);
return PCIBIOS_SUCCESSFUL;
}
static struct pci_ops tegra_pcie_ops = {
.read = tegra_pcie_read_conf,
.write = tegra_pcie_write_conf,
};
static void __devinit tegra_pcie_fixup_bridge(struct pci_dev *dev)
{
u16 reg;
if ((dev->class >> 16) == PCI_BASE_CLASS_BRIDGE) {
pci_read_config_word(dev, PCI_COMMAND, ®);
reg |= (PCI_COMMAND_IO | PCI_COMMAND_MEMORY |
PCI_COMMAND_MASTER | PCI_COMMAND_SERR);
pci_write_config_word(dev, PCI_COMMAND, reg);
}
}
DECLARE_PCI_FIXUP_FINAL(PCI_ANY_ID, PCI_ANY_ID, tegra_pcie_fixup_bridge);
/* Tegra PCIE root complex wrongly reports device class */
static void __devinit tegra_pcie_fixup_class(struct pci_dev *dev)
{
dev->class = PCI_CLASS_BRIDGE_PCI << 8;
}
#ifdef CONFIG_ARCH_TEGRA_2x_SOC
DECLARE_PCI_FIXUP_EARLY(PCI_VENDOR_ID_NVIDIA, 0x0bf0, tegra_pcie_fixup_class);
DECLARE_PCI_FIXUP_EARLY(PCI_VENDOR_ID_NVIDIA, 0x0bf1, tegra_pcie_fixup_class);
#else
DECLARE_PCI_FIXUP_EARLY(PCI_VENDOR_ID_NVIDIA, 0x0e1c, tegra_pcie_fixup_class);
DECLARE_PCI_FIXUP_EARLY(PCI_VENDOR_ID_NVIDIA, 0x0e1d, tegra_pcie_fixup_class);
#endif
/* Tegra PCIE requires relaxed ordering */
static void __devinit tegra_pcie_relax_enable(struct pci_dev *dev)
{
u16 val16;
int pos = pci_find_capability(dev, PCI_CAP_ID_EXP);
if (pos <= 0) {
dev_err(&dev->dev, "skipping relaxed ordering fixup\n");
return;
}
pci_read_config_word(dev, pos + PCI_EXP_DEVCTL, &val16);
val16 |= PCI_EXP_DEVCTL_RELAX_EN;
pci_write_config_word(dev, pos + PCI_EXP_DEVCTL, val16);
}
DECLARE_PCI_FIXUP_FINAL(PCI_ANY_ID, PCI_ANY_ID, tegra_pcie_relax_enable);
static void tegra_pcie_preinit(void)
{
pcie_io_space.name = "PCIe I/O Space";
pcie_io_space.start = PCIBIOS_MIN_IO;
pcie_io_space.end = IO_SPACE_LIMIT;
pcie_io_space.flags = IORESOURCE_IO;
if (request_resource(&ioport_resource, &pcie_io_space))
panic("can't allocate PCIe I/O space");
pcie_mem_space.name = "PCIe MEM Space";
pcie_mem_space.start = MEM_BASE_0;
pcie_mem_space.end = MEM_BASE_0 + MEM_SIZE - 1;
pcie_mem_space.flags = IORESOURCE_MEM;
if (request_resource(&iomem_resource, &pcie_mem_space))
panic("can't allocate PCIe MEM space");
pcie_prefetch_mem_space.name = "PCIe PREFETCH MEM Space";
pcie_prefetch_mem_space.start = PREFETCH_MEM_BASE_0;
pcie_prefetch_mem_space.end = PREFETCH_MEM_BASE_0 + PREFETCH_MEM_SIZE
- 1;
pcie_prefetch_mem_space.flags = IORESOURCE_MEM | IORESOURCE_PREFETCH;
if (request_resource(&iomem_resource, &pcie_prefetch_mem_space))
panic("can't allocate PCIe PREFETCH MEM space");
}
static int tegra_pcie_setup(int nr, struct pci_sys_data *sys)
{
struct tegra_pcie_port *pp;
if (nr >= tegra_pcie.num_ports)
return 0;
pp = tegra_pcie.port + nr;
pp->root_bus_nr = sys->busnr;
sys->resource[0] = &pcie_io_space;
sys->resource[1] = &pcie_mem_space;
sys->resource[2] = &pcie_prefetch_mem_space;
return 1;
}
static int tegra_pcie_map_irq(const struct pci_dev *dev, u8 slot, u8 pin)
{
return INT_PCIE_INTR;
}
static struct pci_bus *tegra_pcie_scan_bus(int nr,
struct pci_sys_data *sys)
{
struct tegra_pcie_port *pp;
if (nr >= tegra_pcie.num_ports)
return 0;
pp = tegra_pcie.port + nr;
pp->root_bus_nr = sys->busnr;
return pci_scan_bus(sys->busnr, &tegra_pcie_ops, sys);
}
static struct hw_pci tegra_pcie_hw = {
.nr_controllers = MAX_PCIE_SUPPORTED_PORTS,
.preinit = tegra_pcie_preinit,
.setup = tegra_pcie_setup,
.scan = tegra_pcie_scan_bus,
.swizzle = pci_std_swizzle,
.map_irq = tegra_pcie_map_irq,
};
#ifdef CONFIG_PM
static int tegra_pcie_suspend(struct device *dev);
static int tegra_pcie_resume(struct device *dev);
/* It enumerates the devices when dock is connected after system boot */
/* this is similar to pcibios_init_hw in bios32.c */
static void tegra_pcie_hotplug_init(void)
{
struct pci_sys_data *sys = NULL;
int ret, nr;
if (is_dock_conn_at_boot)
return;
tegra_pcie_preinit();
for (nr = 0; nr < tegra_pcie_hw.nr_controllers; nr++) {
sys = kzalloc(sizeof(struct pci_sys_data), GFP_KERNEL);
if (!sys)
panic("PCI: unable to allocate sys data!");
#ifdef CONFIG_PCI_DOMAINS
sys->domain = tegra_pcie_hw.domain;
#endif
sys->hw = &tegra_pcie_hw;
sys->busnr = nr;
sys->swizzle = tegra_pcie_hw.swizzle;
sys->map_irq = tegra_pcie_hw.map_irq;
sys->resource[0] = &ioport_resource;
sys->resource[1] = &iomem_resource;
ret = tegra_pcie_setup(nr, sys);
if (ret > 0)
pci_create_bus(NULL, nr, &tegra_pcie_ops, sys);
}
is_dock_conn_at_boot = true;
}
#endif
static void tegra_pcie_attach(void)
{
#ifdef CONFIG_PM
tegra_pcie_resume(NULL);
#endif
}
static void tegra_pcie_detach(void)
{
#ifdef CONFIG_PM
tegra_pcie_suspend(NULL);
#endif
}
static void work_hotplug_handler(struct work_struct *work)
{
struct tegra_pcie_info *pcie_driver =
container_of(work, struct tegra_pcie_info, hotplug_detect);
int val;
if (pcie_driver->plat_data->gpio == -1)
return;
val = gpio_get_value(pcie_driver->plat_data->gpio);
if (val == 0) {
pr_info("Pcie Dock Connected\n");
tegra_pcie_attach();
} else {
pr_info("Pcie Dock DisConnected\n");
tegra_pcie_detach();
}
}
static irqreturn_t gpio_pcie_detect_isr(int irq, void *arg)
{
schedule_work(&tegra_pcie.hotplug_detect);
return IRQ_HANDLED;
}
static irqreturn_t tegra_pcie_isr(int irq, void *arg)
{
const char *err_msg[] = {
"Unknown",
"AXI slave error",
"AXI decode error",
"Target abort",
"Master abort",
"Invalid write",
""
"Response decoding error",
"AXI response decoding error",
"Transcation timeout",
};
u32 code, signature;
code = afi_readl(AFI_INTR_CODE) & AFI_INTR_CODE_MASK;
signature = afi_readl(AFI_INTR_SIGNATURE);
afi_writel(0, AFI_INTR_CODE);
if (code == AFI_INTR_LEGACY)
return IRQ_NONE;
if (code >= ARRAY_SIZE(err_msg))
code = 0;
/*
* do not pollute kernel log with master abort reports since they
* happen a lot during enumeration
*/
if (code == AFI_INTR_MASTER_ABORT)
pr_debug("PCIE: %s, signature: %08x\n",
err_msg[code], signature);
else
pr_err("PCIE: %s, signature: %08x\n", err_msg[code], signature);
return IRQ_HANDLED;
}
/*
* PCIe support functions
*/
static void tegra_pcie_setup_translations(void)
{
u32 fpci_bar;
u32 size;
u32 axi_address;
/* Bar 0: config Bar */
fpci_bar = ((u32)0xfdff << 16);
size = PCIE_CFG_SZ;
axi_address = TEGRA_PCIE_BASE + PCIE_CFG_OFF;
afi_writel(axi_address, AFI_AXI_BAR0_START);
afi_writel(size >> 12, AFI_AXI_BAR0_SZ);
afi_writel(fpci_bar, AFI_FPCI_BAR0);
/* Bar 1: extended config Bar */
fpci_bar = ((u32)0xfe1 << 20);
size = PCIE_EXT_CFG_SZ;
axi_address = TEGRA_PCIE_BASE + PCIE_EXT_CFG_OFF;
afi_writel(axi_address, AFI_AXI_BAR1_START);
afi_writel(size >> 12, AFI_AXI_BAR1_SZ);
afi_writel(fpci_bar, AFI_FPCI_BAR1);
/* Bar 2: downstream IO bar */
fpci_bar = ((__u32)0xfdfc << 16);
size = MMIO_SIZE;
axi_address = MMIO_BASE;
afi_writel(axi_address, AFI_AXI_BAR2_START);
afi_writel(size >> 12, AFI_AXI_BAR2_SZ);
afi_writel(fpci_bar, AFI_FPCI_BAR2);
/* Bar 3: prefetchable memory BAR */
fpci_bar = (((PREFETCH_MEM_BASE_0 >> 12) & 0x0fffffff) << 4) | 0x1;
size = PREFETCH_MEM_SIZE;
axi_address = PREFETCH_MEM_BASE_0;
afi_writel(axi_address, AFI_AXI_BAR3_START);
afi_writel(size >> 12, AFI_AXI_BAR3_SZ);
afi_writel(fpci_bar, AFI_FPCI_BAR3);
/* Bar 4: non prefetchable memory BAR */
fpci_bar = (((MEM_BASE_0 >> 12) & 0x0FFFFFFF) << 4) | 0x1;
size = MEM_SIZE;
axi_address = MEM_BASE_0;
afi_writel(axi_address, AFI_AXI_BAR4_START);
afi_writel(size >> 12, AFI_AXI_BAR4_SZ);
afi_writel(fpci_bar, AFI_FPCI_BAR4);
/* Bar 5: NULL out the remaining BAR as it is not used */
fpci_bar = 0;
size = 0;
axi_address = 0;
afi_writel(axi_address, AFI_AXI_BAR5_START);
afi_writel(size >> 12, AFI_AXI_BAR5_SZ);
afi_writel(fpci_bar, AFI_FPCI_BAR5);
/* map all upstream transactions as uncached */
afi_writel(PHYS_OFFSET, AFI_CACHE_BAR0_ST);
afi_writel(0, AFI_CACHE_BAR0_SZ);
afi_writel(0, AFI_CACHE_BAR1_ST);
afi_writel(0, AFI_CACHE_BAR1_SZ);
/* No MSI */
afi_writel(0, AFI_MSI_FPCI_BAR_ST);
afi_writel(0, AFI_MSI_BAR_SZ);
afi_writel(0, AFI_MSI_AXI_BAR_ST);
afi_writel(0, AFI_MSI_BAR_SZ);
}
static void tegra_pcie_enable_controller(void)
{
u32 val, reg;
int i;
void __iomem *reg_mselect_base;
reg_mselect_base = IO_ADDRESS(TEGRA_MSELECT_BASE);
/* select the PCIE APERTURE in MSELECT config */
reg = readl(reg_mselect_base);
reg |= 1 << MSELECT_CONFIG_0_ENABLE_PCIE_APERTURE;
writel(reg, reg_mselect_base);
/* Enable slot clock and ensure reset signals is assert */
for (i = 0; i < ARRAY_SIZE(pex_controller_registers); i++) {
reg = pex_controller_registers[i];
val = afi_readl(reg) | AFI_PEX_CTRL_REFCLK_EN |
AFI_PEX_CTRL_CLKREQ_EN;
val &= ~AFI_PEX_CTRL_RST;
afi_writel(val, reg);
}
afi_writel(0, AFI_PEXBIAS_CTRL_0);
/* Enable all PCIE controller and */
/* system management configuration of PCIE crossbar */
val = afi_readl(AFI_PCIE_CONFIG);
val &= ~(AFI_PCIE_CONFIG_PCIEC0_DISABLE_DEVICE |
AFI_PCIE_CONFIG_PCIEC1_DISABLE_DEVICE |
AFI_PCIE_CONFIG_PCIEC2_DISABLE_DEVICE |
AFI_PCIE_CONFIG_SM2TMS0_XBAR_CONFIG_MASK);
#ifdef CONFIG_ARCH_TEGRA_2x_SOC
val |= AFI_PCIE_CONFIG_SM2TMS0_XBAR_CONFIG_DUAL;
#else
val |= AFI_PCIE_CONFIG_SM2TMS0_XBAR_CONFIG_411;
#endif
afi_writel(val, AFI_PCIE_CONFIG);
/* Disable Gen 2 capability of PCIE */
val = afi_readl(AFI_FUSE) | AFI_FUSE_PCIE_T0_GEN2_DIS;
afi_writel(val, AFI_FUSE);
/* Initialze internal PHY, enable up to 16 PCIE lanes */
pads_writel(0x0, PADS_CTL_SEL);
/* override IDDQ to 1 on all 4 lanes */
val = pads_readl(PADS_CTL) | PADS_CTL_IDDQ_1L;
pads_writel(val, PADS_CTL);
/*
* set up PHY PLL inputs select PLLE output as refclock,
* set pll TX clock ref to div10 (not div5)
* set pll ref clock buf to enable.
*/
val = pads_readl(PADS_PLL_CTL);
val &= ~(PADS_PLL_CTL_REFCLK_MASK | PADS_PLL_CTL_TXCLKREF_MASK);
#ifdef CONFIG_ARCH_TEGRA_2x_SOC
val |= (PADS_PLL_CTL_REFCLK_INTERNAL_CML | PADS_PLL_CTL_TXCLKREF_DIV10);
#else
val |= (PADS_PLL_CTL_REFCLK_INTERNAL_CML | PADS_PLL_CTL_TXCLKREF_BUF_EN);
#endif
pads_writel(val, PADS_PLL_CTL);
/* take PLL out of reset */
val = pads_readl(PADS_PLL_CTL) | PADS_PLL_CTL_RST_B4SM;
pads_writel(val, PADS_PLL_CTL);
/*
* Hack, set the clock voltage to the DEFAULT provided by hw folks.
* This doesn't exist in the documentation
*/
pads_writel(0xfa5cfa5c, 0xc8);
pads_writel(0x0000FA5C, PADS_REFCLK_CFG1);
/* Wait for the PLL to lock */
do {
val = pads_readl(PADS_PLL_CTL);
} while (!(val & PADS_PLL_CTL_LOCKDET));
/* Wait for clock to latch (min of 100us) */
udelay(100);
/* deassert PEX reset signal */
for (i = 0; i < ARRAY_SIZE(pex_controller_registers); i++) {
reg = pex_controller_registers[i];
val = afi_readl(reg);
val |= AFI_PEX_CTRL_RST;
afi_writel(val, reg);
}
/* turn off IDDQ override */
val = pads_readl(PADS_CTL) & ~PADS_CTL_IDDQ_1L;
pads_writel(val, PADS_CTL);
/* enable TX/RX data */
val = pads_readl(PADS_CTL);
val |= (PADS_CTL_TX_DATA_EN_1L | PADS_CTL_RX_DATA_EN_1L);
pads_writel(val, PADS_CTL);
/* Take the PCIe interface module out of reset */
tegra_periph_reset_deassert(tegra_pcie.pcie_xclk);
/* WAR avoid hang on CPU read/write while gpu transfers in progress */
val = afi_readl(AFI_CONFIGURATION) | AFI_CONFIGURATION_DFPCI_RSPPASSPW;
/* Finally enable PCIe */
val |= AFI_CONFIGURATION_EN_FPCI;
afi_writel(val, AFI_CONFIGURATION);
val = (AFI_INTR_EN_INI_SLVERR | AFI_INTR_EN_INI_DECERR |
AFI_INTR_EN_TGT_SLVERR | AFI_INTR_EN_TGT_DECERR |
AFI_INTR_EN_TGT_WRERR | AFI_INTR_EN_DFPCI_DECERR |
AFI_INTR_EN_PRSNT_SENSE);
afi_writel(val, AFI_AFI_INTR_ENABLE);
afi_writel(0xffffffff, AFI_SM_INTR_ENABLE);
/* FIXME: No MSI for now, only INT */
afi_writel(AFI_INTR_MASK_INT_MASK, AFI_INTR_MASK);
/* Disable all execptions */
afi_writel(0, AFI_FPCI_ERROR_MASKS);
return;
}
static int tegra_pcie_enable_regulators(void)
{
if (tegra_pcie.power_rails_enabled) {
pr_debug("PCIE: Already power rails enabled");
return 0;
}
tegra_pcie.power_rails_enabled = 1;
if (tegra_pcie.regulator_hvdd == NULL) {
printk(KERN_INFO "PCIE.C: %s : regulator hvdd_pex\n",
__func__);
tegra_pcie.regulator_hvdd =
regulator_get(NULL, "hvdd_pex");
if (IS_ERR_OR_NULL(tegra_pcie.regulator_hvdd)) {
pr_err("%s: unable to get hvdd_pex regulator\n",
__func__);
tegra_pcie.regulator_hvdd = 0;
}
}
if (tegra_pcie.regulator_pexio == NULL) {
printk(KERN_INFO "PCIE.C: %s : regulator pexio\n", __func__);
tegra_pcie.regulator_pexio =
regulator_get(NULL, "vdd_pexb");
if (IS_ERR_OR_NULL(tegra_pcie.regulator_pexio)) {
pr_err("%s: unable to get pexio regulator\n", __func__);
tegra_pcie.regulator_pexio = 0;
}
}
/*SATA and PCIE use same PLLE, In default configuration,
* and we set default AVDD_PLLE with SATA.
* So if use default board, you have to turn on (LDO2) AVDD_PLLE.
*/
if (tegra_pcie.regulator_avdd_plle == NULL) {
printk(KERN_INFO "PCIE.C: %s : regulator avdd_plle\n",
__func__);
tegra_pcie.regulator_avdd_plle = regulator_get(NULL,
"avdd_plle");
if (IS_ERR_OR_NULL(tegra_pcie.regulator_avdd_plle)) {
pr_err("%s: unable to get avdd_plle regulator\n",
__func__);
tegra_pcie.regulator_avdd_plle = 0;
}
}
if (tegra_pcie.regulator_hvdd)
regulator_enable(tegra_pcie.regulator_hvdd);
if (tegra_pcie.regulator_pexio)
regulator_enable(tegra_pcie.regulator_pexio);
if (tegra_pcie.regulator_avdd_plle)
regulator_enable(tegra_pcie.regulator_avdd_plle);
return 0;
}
static int tegra_pcie_disable_regulators(void)
{
int err = 0;
if (tegra_pcie.power_rails_enabled == 0) {
pr_debug("PCIE: Already power rails disabled");
goto err_exit;
}
if (tegra_pcie.regulator_hvdd)
err = regulator_disable(tegra_pcie.regulator_hvdd);
if (err)
goto err_exit;
if (tegra_pcie.regulator_pexio)
err = regulator_disable(tegra_pcie.regulator_pexio);
if (err)
goto err_exit;
if (tegra_pcie.regulator_avdd_plle)
err = regulator_disable(tegra_pcie.regulator_avdd_plle);
tegra_pcie.power_rails_enabled = 0;
err_exit:
return err;
}
static int tegra_pcie_power_regate(void)
{
int err;
err = tegra_unpowergate_partition_with_clk_on(TEGRA_POWERGATE_PCIE);
if (err) {
pr_err("PCIE: powerup sequence failed: %d\n", err);
return err;
}
tegra_periph_reset_assert(tegra_pcie.pcie_xclk);
return clk_enable(tegra_pcie.pll_e);
}
static int tegra_pcie_map_resources(void)
{
int err;
/* Allocate config space virtual memory */
tegra_pcie.regs = ioremap_nocache(TEGRA_PCIE_BASE, PCIE_IOMAP_SZ);
if (tegra_pcie.regs == NULL) {
pr_err("PCIE: Failed to map PCI/AFI registers\n");
return -ENOMEM;
}
err = request_resource(&iomem_resource, &tegra_pcie_res_mmio);
if (err) {
pr_err("PCIE: Failed to request resources: %d\n", err);
return err;
}
tegra_pcie.res_mmio = &tegra_pcie_res_mmio;
/* Allocate downstream IO virtual memory */
tegra_pcie_io_base = ioremap_nocache(tegra_pcie_res_mmio.start,
resource_size(&tegra_pcie_res_mmio));
if (tegra_pcie_io_base == NULL) {
pr_err("PCIE: Failed to map IO\n");
return -ENOMEM;
}
return err;
}
void tegra_pcie_unmap_resources(void)
{
if (tegra_pcie_io_base) {
iounmap(tegra_pcie_io_base);
tegra_pcie_io_base = 0;
}
if (tegra_pcie.res_mmio) {
release_resource(tegra_pcie.res_mmio);
tegra_pcie.res_mmio = 0;
}
if (tegra_pcie.regs) {
iounmap(tegra_pcie.regs);
tegra_pcie.regs = 0;
}
}
static int tegra_pcie_power_off(void);
static int tegra_pcie_power_on(void)
{
int err = 0;
if (tegra_pcie.pcie_power_enabled) {
pr_debug("PCIE: Already powered on");
goto err_exit;
}
tegra_pcie.pcie_power_enabled = 1;
err = tegra_pcie_enable_regulators();
if (err) {
pr_err("PCIE: Failed to enable regulators\n");
goto err_exit;
}
err = tegra_pcie_power_regate();
if (err) {
pr_err("PCIE: Failed to power regate\n");
goto err_exit;
}
err = tegra_pcie_map_resources();
if (err) {
pr_err("PCIE: Failed to map resources\n");
goto err_exit;
}
err_exit:
if (err)
tegra_pcie_power_off();
return err;
}
static int tegra_pcie_power_off(void)
{
int err = 0;
if (tegra_pcie.pcie_power_enabled == 0) {
pr_debug("PCIE: Already powered off");
goto err_exit;
}
tegra_pcie_unmap_resources();
if (tegra_pcie.pll_e)
clk_disable(tegra_pcie.pll_e);
err = tegra_powergate_partition_with_clk_off(TEGRA_POWERGATE_PCIE);
if (err)
goto err_exit;
err = tegra_pcie_disable_regulators();
tegra_pcie.pcie_power_enabled = 0;
err_exit:
return err;
}
static int tegra_pcie_clocks_get(void)
{
/* reset the PCIEXCLK */
tegra_pcie.pcie_xclk = clk_get_sys("tegra_pcie", "pciex");
if (IS_ERR_OR_NULL(tegra_pcie.pcie_xclk)) {
pr_err("%s: unable to get PCIE Xclock\n", __func__);
goto error_exit;
}
tegra_pcie.pll_e = clk_get_sys(NULL, "pll_e");
if (IS_ERR_OR_NULL(tegra_pcie.pll_e)) {
pr_err("%s: unable to get PLLE\n", __func__);
goto error_exit;
}
return 0;
error_exit:
if (tegra_pcie.pcie_xclk)
clk_put(tegra_pcie.pcie_xclk);
if (tegra_pcie.pll_e)
clk_put(tegra_pcie.pll_e);
return -EINVAL;
}
static void tegra_pcie_clocks_put(void)
{
if (tegra_pcie.pll_e)
clk_put(tegra_pcie.pll_e);
if (tegra_pcie.pcie_xclk)
clk_put(tegra_pcie.pcie_xclk);
}
static int tegra_pcie_get_resources(void)
{
int err;
tegra_pcie.power_rails_enabled = 0;
tegra_pcie.pcie_power_enabled = 0;
err = tegra_pcie_clocks_get();
if (err) {
pr_err("PCIE: failed to get clocks: %d\n", err);
goto err_clk_get;
}
err = tegra_pcie_power_on();
if (err) {
pr_err("PCIE: Failed to power on: %d\n", err);
goto err_pwr_on;
}
err = request_irq(INT_PCIE_INTR, tegra_pcie_isr,
IRQF_SHARED, "PCIE", &tegra_pcie);
if (err) {
pr_err("PCIE: Failed to register IRQ: %d\n", err);
goto err_pwr_on;
}
set_irq_flags(INT_PCIE_INTR, IRQF_VALID);
return 0;
err_pwr_on:
tegra_pcie_power_off();
err_clk_get:
tegra_pcie_clocks_put();
return err;
}
/*
* FIXME: If there are no PCIe cards attached, then calling this function
* can result in the increase of the bootup time as there are big timeout
* loops.
*/
#define TEGRA_PCIE_LINKUP_TIMEOUT 200 /* up to 1.2 seconds */
static bool tegra_pcie_check_link(struct tegra_pcie_port *pp, int idx,
u32 reset_reg)
{
u32 reg;
int retries = 3;
int timeout;
do {
timeout = TEGRA_PCIE_LINKUP_TIMEOUT;
while (timeout) {
reg = readl(pp->base + RP_VEND_XP);
if (reg & RP_VEND_XP_DL_UP)
break;
mdelay(1);
timeout--;
}
if (!timeout) {
pr_err("PCIE: port %d: link down, retrying\n", idx);
goto retry;
}
timeout = TEGRA_PCIE_LINKUP_TIMEOUT;
while (timeout) {
reg = readl(pp->base + RP_LINK_CONTROL_STATUS);
if (reg & 0x20000000)
return true;
mdelay(1);
timeout--;
}
retry:
if (--retries) {
/* Pulse the PEX reset */
reg = afi_readl(reset_reg) & ~AFI_PEX_CTRL_RST;
afi_writel(reg, reset_reg);
reg = afi_readl(reset_reg) | AFI_PEX_CTRL_RST;
afi_writel(reg, reset_reg);
}
} while (retries);
return false;
}
static void tegra_pcie_enable_clock_clamp(int index)
{
unsigned int data;
/* Power mangagement settings */
/* Enable clock clamping by default */
data = rp_readl(NV_PCIE2_RP_PRIV_MISC, index);
data |= (PCIE2_RP_PRIV_MISC_CTLR_CLK_CLAMP_ENABLE) |
(PCIE2_RP_PRIV_MISC_TMS_CLK_CLAMP_ENABLE);
rp_writel(data, NV_PCIE2_RP_PRIV_MISC, index);
}
static void tegra_pcie_enable_aspm_l1_support(int index)
{
unsigned int data;
/* Enable ASPM - L1 state support by default */
data = rp_readl(NV_PCIE2_RP_VEND_XP1, index);
data |= (NV_PCIE2_RP_VEND_XP1_LINK_PVT_CTL_L1_ASPM_SUPPORT_ENABLE);
rp_writel(data, NV_PCIE2_RP_VEND_XP1, index);
}
static void tegra_pcie_add_port(int index, u32 offset, u32 reset_reg)
{
struct tegra_pcie_port *pp;
unsigned int data;
pp = tegra_pcie.port + tegra_pcie.num_ports;
pp->index = -1;
pp->base = tegra_pcie.regs + offset;
pp->link_up = tegra_pcie_check_link(pp, index, reset_reg);
if (!pp->link_up) {
pp->base = NULL;
printk(KERN_INFO "PCIE: port %d: link down, ignoring\n", index);
return;
}
tegra_pcie_enable_clock_clamp(index);
tegra_pcie_enable_aspm_l1_support(index);
/*
* Initialize TXBA1 register to fix the unfair arbitration
* between downstream reads and completions to upstream reads
*/
data = rp_readl(RP_TXBA1, index);
data &= ~(RP_TXBA1_PW_OVER_CM_BURST_MASK);
data |= RP_TXBA1_PW_OVER_CM_BURST_INIT_VAL;
data &= ~(RP_TXBA1_CM_OVER_PW_BURST_MASK);
data |= RP_TXBA1_CM_OVER_PW_BURST_INIT_VAL;
rp_writel(data, RP_TXBA1, index);
tegra_pcie.num_ports++;
pp->index = index;
memset(pp->res, 0, sizeof(pp->res));
}
static int tegra_pcie_init(void)
{
int err = 0;
int port;
int rp_offset = 0;
int ctrl_offset = AFI_PEX0_CTRL;
#ifdef CONFIG_ARCH_TEGRA_2x_SOC
pcibios_min_mem = 0x1000;
pcibios_min_io = 0;
#else
pcibios_min_mem = 0x03000000ul;
pcibios_min_io = 0x10000000ul;
#endif
INIT_WORK(&tegra_pcie.hotplug_detect, work_hotplug_handler);
err = tegra_pcie_get_resources();
if (err)
return err;
tegra_pcie_enable_controller();
/* setup the AFI address translations */
tegra_pcie_setup_translations();
for (port = 0; port < MAX_PCIE_SUPPORTED_PORTS; port++) {
ctrl_offset += (port * 8);
rp_offset = (rp_offset + RP_OFFSET) * port;
if (tegra_pcie.plat_data->port_status[port])
tegra_pcie_add_port(port, rp_offset, ctrl_offset);
}
if (tegra_pcie.plat_data->use_dock_detect) {
unsigned int irq;
pr_info("acquiring dock_detect = %d\n",
tegra_pcie.plat_data->gpio);
gpio_request(tegra_pcie.plat_data->gpio, "pcie_dock_detect");
gpio_direction_input(tegra_pcie.plat_data->gpio);
irq = gpio_to_irq(tegra_pcie.plat_data->gpio);
if (irq < 0) {
pr_err("Unable to get irq number for dock_detect\n");
goto err_irq;
}
err = request_irq(irq,
gpio_pcie_detect_isr,
IRQF_TRIGGER_RISING | IRQF_TRIGGER_FALLING,
"pcie_dock_detect",
(void *)tegra_pcie.plat_data);
if (err < 0) {
pr_err("Unable to claim irq number for dock_detect\n");
goto err_irq;
}
}
if (tegra_pcie.num_ports)
pci_common_init(&tegra_pcie_hw);
else {
/* no dock is connected, hotplug will occur after boot */
err = tegra_pcie_power_off();
is_dock_conn_at_boot = false;
}
err_irq:
return err;
}
static int tegra_pcie_probe(struct platform_device *pdev)
{
int ret;
tegra_pcie.plat_data = pdev->dev.platform_data;
dev_dbg(&pdev->dev, "PCIE.C: %s : _port_status[0] %d\n",
__func__, tegra_pcie.plat_data->port_status[0]);
dev_dbg(&pdev->dev, "PCIE.C: %s : _port_status[1] %d\n",
__func__, tegra_pcie.plat_data->port_status[1]);
dev_dbg(&pdev->dev, "PCIE.C: %s : _port_status[2] %d\n",
__func__, tegra_pcie.plat_data->port_status[2]);
ret = tegra_pcie_init();
return ret;
}
#ifdef CONFIG_PM
static int tegra_pcie_suspend(struct device *dev)
{
struct pci_dev *pdev = NULL;
for_each_pci_dev(pdev) {
pci_remove_bus_device(pdev);
break;
}
/* disable read/write registers before powering off */
is_pcie_noirq_op = true;
/* reset number of ports since fresh initialization occurs in resume */
tegra_pcie.num_ports = 0;
return tegra_pcie_power_off();
}
static void tegra_pcie_set_irq(struct pci_bus *bus)
{
struct pci_bus *b;
struct pci_dev *pdev;
list_for_each_entry(pdev, &bus->devices, bus_list) {
b = pdev->subordinate;
if (!b) {
pdev->irq = tegra_pcie_map_irq(pdev,0,0);
pci_write_config_byte(pdev, PCI_INTERRUPT_LINE, pdev->irq);
continue;
}
tegra_pcie_set_irq(b);
pdev->irq = tegra_pcie_map_irq(pdev,0,0);
pci_write_config_byte(pdev, PCI_INTERRUPT_LINE, pdev->irq);
}
}
static int tegra_pcie_resume(struct device *dev)
{
int ret = 0;
struct pci_bus *bus = NULL;
int port, rp_offset = 0;
int ctrl_offset = AFI_PEX0_CTRL;
/* return w/o resume if cardhu dock is not connected */
if (gpio_get_value(tegra_pcie.plat_data->gpio))
goto exit;
ret = tegra_pcie_power_on();
if (ret) {
pr_err("PCIE: Failed to power on: %d\n", ret);
return ret;
}
/* enable read/write registers after powering on */
is_pcie_noirq_op = false;
tegra_pcie_enable_controller();
tegra_pcie_setup_translations();
msi_enable = false;
for (port = 0; port < MAX_PCIE_SUPPORTED_PORTS; port++) {
ctrl_offset += (port * 8);
rp_offset = (rp_offset + 0x1000) * port;
if (tegra_pcie.plat_data->port_status[port])
tegra_pcie_add_port(port, rp_offset, ctrl_offset);
}
if (!tegra_pcie.num_ports) {
tegra_pcie_power_off();
goto exit;
}
tegra_pcie_hotplug_init();
while ((bus = pci_find_next_bus(bus)) != NULL) {
struct pci_dev *dev;
pci_scan_child_bus(bus);
list_for_each_entry(dev, &bus->devices, bus_list)
if (dev->hdr_type == PCI_HEADER_TYPE_BRIDGE ||
dev->hdr_type == PCI_HEADER_TYPE_CARDBUS)
if (dev->subordinate)
pci_bus_size_bridges(dev->subordinate);
/* set irq for all devices */
tegra_pcie_set_irq(bus);
pci_bus_assign_resources(bus);
pci_enable_bridges(bus);
pci_bus_add_devices(bus);
}
exit:
return 0;
}
#endif
static int tegra_pcie_remove(struct platform_device *pdev)
{
return 0;
}
#ifdef CONFIG_PM
static const struct dev_pm_ops tegra_pcie_pm_ops = {
.suspend = tegra_pcie_suspend,
.resume = tegra_pcie_resume,
};
#endif
static struct platform_driver tegra_pcie_driver = {
.probe = tegra_pcie_probe,
.remove = tegra_pcie_remove,
.driver = {
.name = "tegra-pcie",
.owner = THIS_MODULE,
#ifdef CONFIG_PM
.pm = &tegra_pcie_pm_ops,
#endif
},
};
static int __init tegra_pcie_init_driver(void)
{
return platform_driver_register(&tegra_pcie_driver);
}
static void __exit tegra_pcie_exit_driver(void)
{
platform_driver_unregister(&tegra_pcie_driver);
}
module_init(tegra_pcie_init_driver);
module_exit(tegra_pcie_exit_driver);
static struct irq_chip tegra_irq_chip_msi_pcie = {
.name = "PCIe-MSI",
.irq_mask = mask_msi_irq,
.irq_unmask = unmask_msi_irq,
.irq_enable = unmask_msi_irq,
.irq_disable = mask_msi_irq,
};
/* 1:1 matching of these to the MSI vectors, 1 per bit */
/* and each mapping matches one of the available interrupts */
/* irq should equal INT_PCI_MSI_BASE + index */
struct msi_map_entry {
bool used;
u8 index;
int irq;
};
/* hardware supports 256 max*/
#if (INT_PCI_MSI_NR > 256)
#error "INT_PCI_MSI_NR too big"
#endif
#define MSI_MAP_SIZE (INT_PCI_MSI_NR)
static struct msi_map_entry msi_map[MSI_MAP_SIZE];
static void msi_map_init(void)
{
int i;
for (i = 0; i < MSI_MAP_SIZE; i++) {
msi_map[i].used = false;
msi_map[i].index = i;
msi_map[i].irq = 0;
}
}
/* returns an index into the map*/
static struct msi_map_entry *msi_map_get(void)
{
struct msi_map_entry *retval = NULL;
int i;
for (i = 0; i < MSI_MAP_SIZE; i++) {
if (!msi_map[i].used) {
retval = msi_map + i;
retval->irq = INT_PCI_MSI_BASE + i;
retval->used = true;
break;
}
}
return retval;
}
void msi_map_release(struct msi_map_entry *entry)
{
if (entry) {
entry->used = false;
entry->irq = 0;
}
}
static irqreturn_t tegra_pcie_msi_isr(int irq, void *arg)
{
int i;
int offset;
int index;
u32 reg;
for (i = 0; i < 8; i++) {
reg = afi_readl(AFI_MSI_VEC0_0 + i * 4);
while (reg != 0x00000000) {
offset = find_first_bit((unsigned long int *)®, 32);
index = i * 32 + offset;
/* clear the interrupt */
afi_writel(1ul << index, AFI_MSI_VEC0_0 + i * 4);
if (index < MSI_MAP_SIZE) {
if (msi_map[index].used)
generic_handle_irq(msi_map[index].irq);
else
printk(KERN_INFO "unexpected MSI (1)\n");
} else {
/* that's weird who triggered this?*/
/* just clear it*/
printk(KERN_INFO "unexpected MSI (2)\n");
}
/* see if there's any more pending in this vector */
reg = afi_readl(AFI_MSI_VEC0_0 + i * 4);
}
}
return IRQ_HANDLED;
}
static bool tegra_pcie_enable_msi(void)
{
bool retval = false;
u32 reg;
u32 msi_base = 0;
u32 msi_aligned = 0;
/* this only happens once. */
if (msi_enable) {
retval = true;
goto exit;
}
msi_map_init();
/* enables MSI interrupts. */
if (request_irq(INT_PCIE_MSI, tegra_pcie_msi_isr,
IRQF_SHARED, "PCIe-MSI",
tegra_pcie_msi_isr)) {
pr_err("%s: Cannot register IRQ %u\n",
__func__, INT_PCIE_MSI);
goto exit;
}
/* setup AFI/FPCI range */
/* FIXME do this better! should be based on PAGE_SIZE */
msi_base = __get_free_pages(GFP_KERNEL, 3);
msi_aligned = ((msi_base + ((1<<12) - 1)) & ~((1<<12) - 1));
msi_aligned = virt_to_phys((void *)msi_aligned);
#ifdef CONFIG_ARCH_TEGRA_2x_SOC
afi_writel(msi_aligned, AFI_MSI_FPCI_BAR_ST);
#else
/* different from T20!*/
afi_writel(msi_aligned>>8, AFI_MSI_FPCI_BAR_ST);
#endif
afi_writel(msi_aligned, AFI_MSI_AXI_BAR_ST);
/* this register is in 4K increments */
afi_writel(1, AFI_MSI_BAR_SZ);
/* enable all MSI vectors */
afi_writel(0xffffffff, AFI_MSI_EN_VEC0_0);
afi_writel(0xffffffff, AFI_MSI_EN_VEC1_0);
afi_writel(0xffffffff, AFI_MSI_EN_VEC2_0);
afi_writel(0xffffffff, AFI_MSI_EN_VEC3_0);
afi_writel(0xffffffff, AFI_MSI_EN_VEC4_0);
afi_writel(0xffffffff, AFI_MSI_EN_VEC5_0);
afi_writel(0xffffffff, AFI_MSI_EN_VEC6_0);
afi_writel(0xffffffff, AFI_MSI_EN_VEC7_0);
/* and unmask the MSI interrupt */
reg = 0;
reg |= (AFI_INTR_MASK_INT_MASK | AFI_INTR_MASK_MSI_MASK);
afi_writel(reg, AFI_INTR_MASK);
set_irq_flags(INT_PCIE_MSI, IRQF_VALID);
msi_enable = true;
retval = true;
exit:
if (!retval) {
if (msi_base)
free_pages(msi_base, 3);
}
return retval;
}
/* called by arch_setup_msi_irqs in drivers/pci/msi.c */
int arch_setup_msi_irq(struct pci_dev *pdev, struct msi_desc *desc)
{
int retval = -EINVAL;
struct msi_msg msg;
struct msi_map_entry *map_entry = NULL;
if (!tegra_pcie_enable_msi())
goto exit;
map_entry = msi_map_get();
if (map_entry == NULL)
goto exit;
irq_alloc_desc(map_entry->irq);
irq_set_chip_and_handler(map_entry->irq,
&tegra_irq_chip_msi_pcie,
handle_simple_irq);
irq_set_msi_desc(map_entry->irq, desc);
set_irq_flags(map_entry->irq, IRQF_VALID);
msg.address_lo = afi_readl(AFI_MSI_AXI_BAR_ST);
/* 32 bit address only */
msg.address_hi = 0;
msg.data = map_entry->index;
write_msi_msg(map_entry->irq, &msg);
retval = 0;
exit:
if (retval != 0) {
if (map_entry)
msi_map_release(map_entry);
}
return retval;
}
void arch_teardown_msi_irq(unsigned int irq)
{
int i;
for (i = 0; i < MSI_MAP_SIZE; i++) {
if ((msi_map[i].used) && (msi_map[i].irq == irq)) {
irq_free_desc(msi_map[i].irq);
msi_map_release(msi_map + i);
break;
}
}
}
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