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#ifndef _DEVICETREE_H_
#define _DEVICETREE_H_
/*
* devicetree builds on libfdt to implement abstractions and accessors
* for Linux required device tree content. The accessors provided are
* common across architectures. See section III of the kernel doc
* Documentation/devicetree/booting-without-of.txt
*
* Copyright (C) 2014, Red Hat Inc, Andrew Jones <drjones@redhat.com>
*
* This work is licensed under the terms of the GNU LGPL, version 2.
*/
#include "libcflat.h"
#include "libfdt/libfdt.h"
/**********************************************************************
* devicetree init and libfdt helpers
**********************************************************************/
/* dt_init initializes devicetree with a pointer to an fdt, @fdt_ptr */
extern int dt_init(const void *fdt_ptr);
/* get the fdt pointer that devicetree is using */
extern const void *dt_fdt(void);
/* check for an initialized, valid devicetree */
extern bool dt_available(void);
/* traverse child nodes */
#define dt_for_each_subnode(n, s) \
for (s = fdt_first_subnode(dt_fdt(), n); \
s != -FDT_ERR_NOTFOUND; \
s = fdt_next_subnode(dt_fdt(), s))
/**********************************************************************
* Abstractions for required node types and properties
**********************************************************************/
struct dt_device {
int fdtnode;
const struct dt_bus *bus;
/*
* info is a pointer to device specific data, which may be
* used by the bus match() and translate() functions
*/
void *info;
};
struct dt_bus {
/*
* match a device @dev to an fdt node @fdtnode
* returns
* - a positive value on match
* - zero on no match
* - a negative FDT_ERR_* value on failure
*/
int (*match)(const struct dt_device *dev, int fdtnode);
/*
* translate the @regidx'th "address size" tuple of
* @dev's fdt node's "reg" property, and store the result
* in @reg, a bus specific structure
* returns
* - zero on success
* - a negative FDT_ERR_* value on failure
*/
int (*translate)(const struct dt_device *dev, int regidx, void *reg);
};
/* dt_bus_match_any matches any fdt node, i.e. it always returns true */
extern int dt_bus_match_any(const struct dt_device *dev, int fdtnode);
/* the processor bus (pbus) address type and register tuple */
typedef u64 dt_pbus_addr_t;
struct dt_pbus_reg {
dt_pbus_addr_t addr;
dt_pbus_addr_t size;
};
static inline dt_pbus_addr_t dt_pbus_read_cells(u32 nr_cells, u32 *cells)
{
switch (nr_cells) {
case 1: return cells[0];
case 2: return ((u64)cells[0] << 32) | cells[1];
}
return (~0ULL);
}
/*
* dt_pbus_translate translates device node regs for the
* processor bus using the parent node's #address-cells
* and #size-cells and dt_pbus_read_cells()
* returns
* - zero on success
* - a negative FDT_ERR_* value on failure
*/
extern int dt_pbus_translate(const struct dt_device *dev, int regidx,
void *reg);
/*
* dt_pbus_translate_node is the same as dt_pbus_translate but
* operates on an fdt node instead of a dt_device
*/
extern int dt_pbus_translate_node(int fdtnode, int regidx,
struct dt_pbus_reg *reg);
/*
* dt_pbus_get_base is an alias for
* dt_pbus_translate(dev, 0, base)
* returns
* - zero on success
* - a negative FDT_ERR_* value on failure
*/
static inline int dt_pbus_get_base(const struct dt_device *dev,
struct dt_pbus_reg *base)
{
return dt_pbus_translate(dev, 0, base);
}
/*
* dt_bus_init_defaults initializes @bus with
* match <- dt_bus_match_any
* translate <- dt_pbus_translate
*/
extern void dt_bus_init_defaults(struct dt_bus *bus);
/*
* dt_device_init initializes a dt_device with the given parameters
*/
extern void dt_device_init(struct dt_device *dev, const struct dt_bus *bus,
void *info);
static inline void dt_device_bind_node(struct dt_device *dev, int fdtnode)
{
dev->fdtnode = fdtnode;
}
/*
* dt_device_find_compatible finds a @compatible node
* returns
* - node (>= 0) on success
* - a negative FDT_ERR_* value on failure
*/
extern int dt_device_find_compatible(const struct dt_device *dev,
const char *compatible);
/*
* dt_pbus_get_base_compatible simply bundles many functions into one.
* It finds the first @compatible fdt node, then translates the 0th reg
* tuple (the base) using the processor bus translation, and finally it
* stores that result in @base.
* returns
* - zero on success
* - a negative FDT_ERR_* value on failure
*/
extern int dt_pbus_get_base_compatible(const char *compatible,
struct dt_pbus_reg *base);
/**********************************************************************
* Low-level accessors for required node types and properties
**********************************************************************/
/*
* dt_get_nr_cells sets @nr_address_cells and @nr_size_cells to the
* #address-cells and #size-cells properties of @fdtnode
* returns
* - zero on success
* - a negative FDT_ERR_* value on failure
*/
extern int dt_get_nr_cells(int fdtnode, u32 *nr_address_cells,
u32 *nr_size_cells);
/* dt_reg is a structure for "raw" reg tuples */
#define MAX_ADDRESS_CELLS 4
#define MAX_SIZE_CELLS 4
struct dt_reg {
u32 nr_address_cells, nr_size_cells;
u32 address_cells[MAX_ADDRESS_CELLS];
u32 size_cells[MAX_SIZE_CELLS];
};
/*
* dt_reg_init initialize a dt_reg struct to zero and sets
* nr_address_cells and nr_size_cells to @nr_address_cells and
* @nr_size_cells respectively.
*/
extern void dt_reg_init(struct dt_reg *reg, u32 nr_address_cells,
u32 nr_size_cells);
/*
* dt_get_reg gets the @regidx'th reg tuple of @fdtnode's reg property
* and stores it in @reg. @reg must be initialized.
* returns
* - zero on success
* - a negative FDT_ERR_* value on failure
*/
extern int dt_get_reg(int fdtnode, int regidx, struct dt_reg *reg);
/**********************************************************************
* High-level accessors for required node types and properties
**********************************************************************/
/*
* dt_get_bootargs gets the string pointer from /chosen/bootargs
* returns
* - zero on success
* - a negative FDT_ERR_* value on failure, and @bootargs
* will be set to NULL
*/
extern int dt_get_bootargs(const char **bootargs);
/*
* dt_get_default_console_node gets the node of the path stored in
* /chosen/stdout-path (or the deprecated /chosen/linux,stdout-path)
* returns
* - the node (>= 0) on success
* - a negative FDT_ERR_* value on failure
*/
extern int dt_get_default_console_node(void);
/*
* dt_get_initrd gets the physical address of the initrd and its
* size from /chosen
* returns
* - zero on success
* - a negative FDT_ERR_* value on failure, and @initrd will be
* set to NULL and @size set to zero
*/
extern int dt_get_initrd(const char **initrd, u32 *size);
/*
* dt_get_memory_params gets the memory parameters from the /memory node(s)
* storing each memory region ("address size" tuple) in consecutive entries
* of @regs, up to @nr_regs
* returns
* - number of memory regions found on success
* - a negative FDT_ERR_* value on failure
*/
extern int dt_get_memory_params(struct dt_pbus_reg *regs, int nr_regs);
/*
* dt_for_each_cpu_node runs @func on each cpu node in the /cpus node
* passing it its fdt node, its reg property value, and @info
* - zero on success
* - a negative FDT_ERR_* value on failure
*/
extern int dt_for_each_cpu_node(void (*func)(int fdtnode, u64 regval,
void *info), void *info);
#endif /* _DEVICETREE_H_ */