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/*
* arch/arm/mach-tegra/include/mach/pci.h
*
* Header file containing constants for the tegra PCIe driver.
*
* Copyright (c) 2008-2009, NVIDIA Corporation.
*
* 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.
*/
#ifndef __MACH_TEGRA_PCI_H
#include <linux/pci.h>
#include <mach/platform.h>
#include "nvrm_drf.h"
#include "ap20/dev_ap_pcie2_root_port.h"
#include "ap20/dev_ap_pcie2_pads.h"
#include "ap20/arafi.h"
extern void __iomem * volatile pci_tegra_regs;
/*
* AXI address map for the PCIe aperture. AP20, 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.
*
* 0x8000_0000 to 0x80ff_ffff - Register space 16MB.
* 0x8100_0000 to 0x81ff_ffff - Config space 16MB.
* 0x8200_0000 to 0x82ff_ffff - Extended config space 16MB.
* 0x8300_0000 to 0x83ff_ffff - Downstream IO space
* ... Will be filled with other BARS like MSI/upstream IO etc.
* 0x9000_0000 to 0x9fff_ffff - non-prefetchable memory aperture
* 0xa000_0000 to 0xbfff_ffff - Prefetchable memory aperture
*
* Config and Extended config sizes are choosen to support
* maximum of 256 devices,
* which is good enough for all the AP20 use cases.
* */
#define PCIE_REGS_SIZE 0x01000000UL
#define PCIE_CONFIG_OFFSET PCIE_REGS_SIZE
#define PCIE_CONFIG_SIZE 0x01000000UL
#define PCIE_EXTENDED_CONFIG_OFFSET (PCIE_CONFIG_SIZE + PCIE_CONFIG_OFFSET)
#define PCIE_EXTENDED_CONFIG_SIZE 0x01000000UL
#define PCIE_DOWNSTREAM_IO_OFFSET (PCIE_EXTENDED_CONFIG_SIZE + \
PCIE_EXTENDED_CONFIG_OFFSET)
#define PCIE_DOWNSTREAM_IO_SIZE 0x00100000UL
#define PCIE_NON_PREFETCH_MEMORY_OFFSET 0x10000000UL
#define PCIE_NON_PREFETCH_MEMORY_SIZE 0x10000000UL
#define PCIE_PREFETCH_MEMORY_OFFSET (PCIE_NON_PREFETCH_MEMORY_OFFSET + \
PCIE_NON_PREFETCH_MEMORY_SIZE)
#define PCIE_PREFETCH_MEMORY_SIZE 0x20000000UL
/* PCIe registers can be classified into 4 regions.
*
* 1. AFI registers - AFI is a wrapper between PCIE and ARM AXI bus. These
* registers define the address translation registers, interrupt registers and
* some configuration (a.k.a CYA) registers.
* 2. PAD registers - PAD control registers which are inside the PCIE CORE.
* 3. Configuration 0 and Configuration 1 registers - These registers are PCIe
* configuration registers of Root port 0 and root port 1.
*
* Check the PcieRegType enumeration for the list of Registers banks inside the
* PCIE aperture.
*
* */
#define NV_PCIE_AXI_AFI_REGS_OFSET 0x3800UL
#define NV_PCIE_AXI_PADS_OFSET 0x3000UL
#define NV_PCIE_AXI_RP_T0C0_OFFSET 0x0000UL
#define NV_PCIE_AXI_RP_T0C1_OFFSET 0x1000UL
/* During the boot only registers/config and extended config apertures are
* mapped. Rest are mapped on demand by the PCI device drivers.
*/
#define PCI_TEGRA_IOMAPPED_REG_APERTURE_SIZE \
(PCIE_REGS_SIZE + PCIE_CONFIG_SIZE + PCIE_EXTENDED_CONFIG_SIZE)
/*
* PCI address map for memory mapped devices. Still using 32-bit aperture.
*
* 1GB for the system memory.
* Everything mapped as cpu physical = pci
*
*/
#define FPCI_SYSTEM_MEMORY_OFFSET 0x0UL
#define FPCI_SYSTEM_MEMORY_SIZE 0x40000000UL
#define FPCI_NON_PREFETCH_MEMORY_OFFSET 0x90000000UL
#define FPCI_NON_PREFETCH_MEMORY_SIZE PCIE_NON_PREFETCH_MEMORY_SIZE
#define FPCI_PREFETCH_MEMORY_OFFSET (FPCI_NON_PREFETCH_MEMORY_OFFSET+ \
FPCI_NON_PREFETCH_MEMORY_SIZE)
#define FPCI_PREFETCH_MEMORY_SIZE 0x40000000UL
/* PCIE DRF macros to read and write PRI registers */
/** NVPCIE_DRF_DEF - define a new register value.
@param d register domain (hardware block)
@param r register name
@param f register field
@param c defined value for the field
*/
#define NVPCIE_DRF_DEF(d,r,f,c) \
((NV_PROJ__PCIE2_##d##_##r##_##f##_##c) \
<< NV_FIELD_SHIFT(NV_PROJ__PCIE2_##d##_##r##_##f))
/** NVPCIE_DRF_NUM - define a new register value.
@param d register domain (hardware block)
@param r register name
@param f register field
@param n numeric value for the field
*/
#define NVPCIE_DRF_NUM(d,r,f,n) \
(((n)& NV_FIELD_MASK(NV_PROJ__PCIE2_##d##_##r##_##f)) << \
NV_FIELD_SHIFT(NV_PROJ__PCIE2_##d##_##r##_##f))
/** NVPCIE_DRF_VAL - read a field from a register.
@param d register domain (hardware block)
@param r register name
@param f register field
@param v register value
*/
#define NVPCIE_DRF_VAL(d,r,f,v) \
(((v)>> NV_FIELD_SHIFT(NV_PROJ__PCIE2_##d##_##r##_##f)) & \
NV_FIELD_MASK(NV_PROJ__PCIE2_##d##_##r##_##f))
/** NVPCIE_FLD_SET_DRF_NUM - modify a register field.
@param d register domain (hardware block)
@param r register name
@param f register field
@param n numeric field value
@param v register value
*/
#define NVPCIE_FLD_SET_DRF_NUM(d,r,f,n,v) \
((v & ~NV_FIELD_SHIFTMASK(NV_PROJ__PCIE2_##d##_##r##_##f)) | \
NVPCIE_DRF_NUM(d,r,f,n))
/** NVPCIE_FLD_SET_DRF_DEF - modify a register field.
@param d register domain (hardware block)
@param r register name
@param f register field
@param c defined field value
@param v register value
*/
#define NVPCIE_FLD_SET_DRF_DEF(d,r,f,c,v) \
(((v) & ~NV_FIELD_SHIFTMASK(NV_PROJ__PCIE2_##d##_##r##_##f)) | \
NVPCIE_DRF_DEF(d,r,f,c))
/** NVPCIE_RESETVAL - get the reset value for a register.
@param d register domain (hardware block)
@param r register name
*/
#define NVPCIE_RESETVAL(d,r) (d##_##r##_0_RESET_VAL)
/* Register access inline functions */
static inline void pci_tegra_afi_writel(u32 value,unsigned long offset)
{
writel(value, offset + NV_PCIE_AXI_AFI_REGS_OFSET + pci_tegra_regs);
}
static inline void pci_tegra_rp_writel(u32 value, unsigned long offset, int rp)
{
BUG_ON(rp != 0 && rp != 1);
if (rp == 0) offset += NV_PCIE_AXI_RP_T0C0_OFFSET;
if (rp == 1) offset += NV_PCIE_AXI_RP_T0C1_OFFSET;
writel(value, offset + pci_tegra_regs);
}
static inline void pci_tegra_rp_writew(u16 value, unsigned long offset, int rp)
{
u32 reg;
BUG_ON(rp != 0 && rp != 1);
if (rp == 0) offset += NV_PCIE_AXI_RP_T0C0_OFFSET;
if (rp == 1) offset += NV_PCIE_AXI_RP_T0C1_OFFSET;
reg = readl((offset & ~0x3) + pci_tegra_regs);
reg &= ~(0xffff << ((offset & 0x3) * 8));
reg |= (u32)value << ((offset & 0x3) * 8);
writel(reg, (offset & ~0x3) + pci_tegra_regs);
}
static inline void pci_tegra_rp_writeb(u8 value, unsigned long offset, int rp)
{
u32 reg;
BUG_ON(rp != 0 && rp != 1);
if (rp == 0) offset += NV_PCIE_AXI_RP_T0C0_OFFSET;
if (rp == 1) offset += NV_PCIE_AXI_RP_T0C1_OFFSET;
reg = readl((offset & ~0x3) + pci_tegra_regs);
reg &= ~(0xff << ((offset & 0x3) * 8));
reg |= (u32)value << ((offset & 0x3) * 8);
writel(reg, (offset & ~0x3) + pci_tegra_regs);
}
static inline void pci_tegra_pads_writel(u32 value, unsigned long offset)
{
writel(value, offset + NV_PCIE_AXI_PADS_OFSET + pci_tegra_regs);
}
static inline u32 pci_tegra_afi_readl(unsigned long offset)
{
return readl(offset + NV_PCIE_AXI_AFI_REGS_OFSET + pci_tegra_regs);
}
static inline u32 pci_tegra_rp_readl(unsigned long offset, int rp)
{
BUG_ON(rp != 0 && rp != 1);
if (rp == 0) offset += NV_PCIE_AXI_RP_T0C0_OFFSET;
if (rp == 1) offset += NV_PCIE_AXI_RP_T0C1_OFFSET;
return readl(offset + pci_tegra_regs);
}
static inline u16 pci_tegra_rp_readw(unsigned long offset, int rp)
{
u32 val;
BUG_ON(rp != 0 && rp != 1);
if (rp == 0) offset += NV_PCIE_AXI_RP_T0C0_OFFSET;
if (rp == 1) offset += NV_PCIE_AXI_RP_T0C1_OFFSET;
val = readl((offset & ~0x3) + pci_tegra_regs);
val >>= 8 * (offset & 3);
val &= 0xffff;
return (u16)val;
}
static inline u8 pci_tegra_rp_readb(unsigned long offset, int rp)
{
u32 val;
BUG_ON(rp != 0 && rp != 1);
if (rp == 0) offset += NV_PCIE_AXI_RP_T0C0_OFFSET;
if (rp == 1) offset += NV_PCIE_AXI_RP_T0C1_OFFSET;
val = readl((offset & ~0x3) + pci_tegra_regs);
val >>= 8 * (offset & 3);
val &= 0xff;
return (u8)val;
}
static inline u32 pci_tegra_pads_reedl(unsigned long offset)
{
return readl(offset + NV_PCIE_AXI_PADS_OFSET + pci_tegra_regs);
}
static inline bool pci_tegra_is_rp(u32 bus_number, int *rp)
{
if (bus_number == pci_tegra_rp_readb(PCI_PRIMARY_BUS, 0)) {
*rp = 0;
return true;
} else if (bus_number == pci_tegra_rp_readb(PCI_PRIMARY_BUS, 1)) {
*rp = 1;
return true;
} else
return false;
}
/*
* Given the bus number, devfn and the offset this API returns the mapped
* address of the config space.
*/
static inline void __iomem *pci_tegra_config_addr(u8 bus_number,
u32 devfn, u32 where)
{
void *addr;
u32 function;
u32 device;
function = PCI_FUNC(devfn);
device = PCI_SLOT(devfn);
addr = pci_tegra_regs;
addr += (where < 256) ? PCIE_CONFIG_OFFSET
: PCIE_EXTENDED_CONFIG_OFFSET;
addr += bus_number << 16;
addr += device << 11;
addr += function << 8;
addr += where;
return addr;
}
void pci_tegra_enumerate(void);
#endif
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