/* Routines to access PCI memory/configuration space and other PCI related
* functions the PCI Library provides.
*
* COPYRIGHT (c) 2010 Cobham Gaisler AB.
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.org/license/LICENSE.
*/
#ifndef __PCI_ACCESS_H__
#define __PCI_ACCESS_H__
#include <stdint.h>
#include <libcpu/byteorder.h>
#include <rtems/score/basedefs.h>
#include <pci.h>
#ifdef __cplusplus
extern "C" {
#endif
/* Identification of a PCI configuration space device (16-bit) */
typedef uint16_t pci_dev_t;
/* Create a PCI Configuration Space ID */
#define PCI_DEV(bus, slot, func) (((bus)<<8) | ((slot)<<3) | (func))
/* Get Bus of a PCI Configuration Space ID */
#define PCI_DEV_BUS(dev) (((dev) >> 8) & 0xff)
/* Get Slot/Device of a PCI Configuration Space ID */
#define PCI_DEV_SLOT(dev) (((dev) >> 3) & 0x1f)
/* Get Function of a PCI Configuration Space ID */
#define PCI_DEV_FUNC(dev) ((dev) & 0x7)
/* Get Device and Function of a PCI Configuration Space ID */
#define PCI_DEV_DEVFUNC(dev) ((dev) & 0xff)
/* Expand Device into argument lists */
#define PCI_DEV_EXPAND(dev) PCI_DEV_BUS((dev)), PCI_DEV_SLOT((dev)), PCI_DEV_FUNC((dev))
/* Configuration Space Read/Write Operations */
struct pci_cfg_ops {
/* Configuration Space Access and Setup Routines */
int (*read8)(pci_dev_t dev, int ofs, uint8_t *data);
int (*read16)(pci_dev_t dev, int ofs, uint16_t *data);
int (*read32)(pci_dev_t dev, int ofs, uint32_t *data);
int (*write8)(pci_dev_t dev, int ofs, uint8_t data);
int (*write16)(pci_dev_t dev, int ofs, uint16_t data);
int (*write32)(pci_dev_t dev, int ofs, uint32_t data);
};
/* Read a register over PCI I/O Space, and swap it if necessary (due to
* PCI endianness)
*/
struct pci_io_ops {
uint8_t (*read8)(uint8_t *adr);
uint16_t(*read16)(uint16_t *adr);
uint32_t (*read32)(uint32_t *adr);
void (*write8)(uint8_t *adr, uint8_t data);
void (*write16)(uint16_t *adr, uint16_t data);
void (*write32)(uint32_t *adr, uint32_t data);
};
/* Read a register over PCI Memory Space (non-prefetchable memory), and
* swap it if necessary (due to PCI endianness)
*/
struct pci_memreg_ops {
uint8_t (*ld8)(uint8_t *adr);
void (*st8)(uint8_t *adr, uint8_t data);
uint16_t(*ld_le16)(uint16_t *adr);
void (*st_le16)(uint16_t *adr, uint16_t data);
uint16_t(*ld_be16)(uint16_t *adr);
void (*st_be16)(uint16_t *adr, uint16_t data);
uint32_t (*ld_le32)(uint32_t *adr);
void (*st_le32)(uint32_t *adr, uint32_t data);
uint32_t (*ld_be32)(uint32_t *adr);
void (*st_be32)(uint32_t *adr, uint32_t data);
};
typedef uint8_t (*pci_ld8_t)(uint8_t *adr);
typedef void (*pci_st8_t)(uint8_t *adr, uint8_t data);
typedef uint16_t(pci_ld16_t)(uint16_t *adr);
typedef void (*pci_st16_t)(uint16_t *adr, uint16_t data);
typedef uint32_t (*pci_ld32_t)(uint32_t *adr);
typedef void (*pci_st32_t)(uint32_t *adr, uint32_t data);
struct pci_access_drv {
/* Configuration */
struct pci_cfg_ops cfg;
/* I/O Access operations */
struct pci_io_ops io;
/* Registers over Memory Access operations. Note that these funcs
* are only for code that need to be compatible with both Big-Endian
* and Little-Endian PCI bus or for some other reason need function
* pointers to access functions. Normally drivers use the inline
* functions for Registers-over-Memory access to avoid extra function
* call.
*/
struct pci_memreg_ops *memreg;
/* Translate from PCI address to CPU address (dir=0). Translate
* CPU address to PCI address (dir!=0). The address will can be
* used to perform I/O access or memory access by CPU or PCI DMA
* peripheral.
*
* address In/Out. CPU address or PCI address.
* type Access type. 1=I/O, 2=MEMIO, 3=MEM
* dir Translate direction. 0=PCI-to-CPU, 0!=CPU-to-PCI,
*
* Return Value
* 0 = Success
* -1 = Requested Address not mapped into other address space
* i.e. not accessible
*/
int (*translate)(uint32_t *address, int type, int dir);
};
/* Access Routines valid after a PCI-Access-Driver has registered */
extern struct pci_access_drv pci_access_ops;
/* Register PCI Access Driver */
extern int pci_access_drv_register(struct pci_access_drv *drv);
/* Set/unset bits in command and status register of a PCI device */
extern void pci_modify_cmdsts(pci_dev_t dev, uint32_t mask, uint32_t val);
/* Enable Memory in command register */
RTEMS_INLINE_ROUTINE void pci_mem_enable(pci_dev_t dev)
{
pci_modify_cmdsts(dev, PCIM_CMD_MEMEN, PCIM_CMD_MEMEN);
}
RTEMS_INLINE_ROUTINE void pci_mem_disable(pci_dev_t dev)
{
pci_modify_cmdsts(dev, PCIM_CMD_MEMEN, 0);
}
RTEMS_INLINE_ROUTINE void pci_io_enable(pci_dev_t dev)
{
pci_modify_cmdsts(dev, PCIM_CMD_PORTEN, PCIM_CMD_PORTEN);
}
RTEMS_INLINE_ROUTINE void pci_io_disable(pci_dev_t dev)
{
pci_modify_cmdsts(dev, PCIM_CMD_PORTEN, 0);
}
RTEMS_INLINE_ROUTINE void pci_master_enable(pci_dev_t dev)
{
pci_modify_cmdsts(dev, PCIM_CMD_BUSMASTEREN, PCIM_CMD_BUSMASTEREN);
}
RTEMS_INLINE_ROUTINE void pci_master_disable(pci_dev_t dev)
{
pci_modify_cmdsts(dev, PCIM_CMD_BUSMASTEREN, 0);
}
/* Configuration Space Access Read Routines */
extern int pci_cfg_r8(pci_dev_t dev, int ofs, uint8_t *data);
extern int pci_cfg_r16(pci_dev_t dev, int ofs, uint16_t *data);
extern int pci_cfg_r32(pci_dev_t dev, int ofs, uint32_t *data);
/* Configuration Space Access Write Routines */
extern int pci_cfg_w8(pci_dev_t dev, int ofs, uint8_t data);
extern int pci_cfg_w16(pci_dev_t dev, int ofs, uint16_t data);
extern int pci_cfg_w32(pci_dev_t dev, int ofs, uint32_t data);
/* Read a register over PCI I/O Space */
extern uint8_t pci_io_r8(uint32_t adr);
extern uint16_t pci_io_r16(uint32_t adr);
extern uint32_t pci_io_r32(uint32_t adr);
/* Write a register over PCI I/O Space */
extern void pci_io_w8(uint32_t adr, uint8_t data);
extern void pci_io_w16(uint32_t adr, uint16_t data);
extern void pci_io_w32(uint32_t adr, uint32_t data);
/* Translate PCI address into CPU accessible address */
RTEMS_INLINE_ROUTINE int pci_pci2cpu(uint32_t *address, int type)
{
return pci_access_ops.translate(address, type, 0);
}
/* Translate CPU accessible address into PCI address (for DMA) */
RTEMS_INLINE_ROUTINE int pci_cpu2pci(uint32_t *address, int type)
{
return pci_access_ops.translate(address, type, 1);
}
/*** Read/Write a register over PCI Memory Space ***/
RTEMS_INLINE_ROUTINE uint8_t pci_ld8(volatile uint8_t *addr)
{
return *addr;
}
RTEMS_INLINE_ROUTINE void pci_st8(volatile uint8_t *addr, uint8_t val)
{
*addr = val;
}
/* Registers-over-Memory Space access routines. The routines are not inlined
* so it is possible during run-time to select which function implemention
* to use. The use of these functions are not recommended since it will have a
* performance penalty.
*
* 8-bit accesses are the same for Little and Big endian PCI buses.
*/
uint8_t pci_mem_ld8(uint8_t *adr);
void pci_mem_st8(uint8_t *adr, uint8_t data);
/* Registers-over-Memory Space - Generic Big endian PCI bus definitions */
uint16_t pci_mem_be_ld_le16(uint16_t *adr);
uint16_t pci_mem_be_ld_be16(uint16_t *adr);
uint32_t pci_mem_be_ld_le32(uint32_t *adr);
uint32_t pci_mem_be_ld_be32(uint32_t *adr);
void pci_mem_be_st_le16(uint16_t *adr, uint16_t data);
void pci_mem_be_st_be16(uint16_t *adr, uint16_t data);
void pci_mem_be_st_le32(uint32_t *adr, uint32_t data);
void pci_mem_be_st_be32(uint32_t *adr, uint32_t data);
/* Registers-over-Memory Space - Generic Little endian PCI bus definitions */
uint16_t pci_mem_le_ld_le16(uint16_t *adr);
uint16_t pci_mem_le_ld_be16(uint16_t *adr);
uint32_t pci_mem_le_ld_le32(uint32_t *adr);
uint32_t pci_mem_le_ld_be32(uint32_t *adr);
void pci_mem_le_st_le16(uint16_t *adr, uint16_t data);
void pci_mem_le_st_be16(uint16_t *adr, uint16_t data);
void pci_mem_le_st_le32(uint32_t *adr, uint32_t data);
void pci_mem_le_st_be32(uint32_t *adr, uint32_t data);
/* Get Read/Write function for accessing a register over PCI Memory Space
* (non-inline functions).
*
* Arguments
* wr 0(Read), 1(Write)
* size 1(Byte), 2(Word), 4(Double Word)
* func Where function pointer will be stored
* endian PCI_LITTLE_ENDIAN or PCI_BIG_ENDIAN
* type 1(I/O), 3(REG over MEM), 4(CFG)
*
* Return
* 0 Found function
* others No such function defined by host driver or BSP
*/
extern int pci_access_func(int wr, int size, void **func, int endian, int type);
/* Predefined functions for Host drivers or BSPs that define the
* register-over-memory space functions operations.
*/
extern struct pci_memreg_ops pci_mem_le_ops; /* For Little-Endian PCI bus */
extern struct pci_memreg_ops pci_mem_be_ops; /* For Big-Endian PCI bus */
#ifdef __cplusplus
}
#endif
#endif /* !__PCI_ACCESS_H__ */