u-boot-imx/arch/arm/include/asm/arch-s3c24x0/memory.h - nest-learning-thermostat/5.6.2/u-boot - Git at Google

 /*
  * linux/include/asm-arm/arch-s3c2400/memory.h by garyj@denx.de
  * based on
  * linux/include/asm-arm/arch-sa1100/memory.h
  *
  * Copyright (c) 1999 Nicolas Pitre <nico@visuaide.com>
  */

 #ifndef __ASM_ARCH_MEMORY_H
 #define __ASM_ARCH_MEMORY_H


 /*
  * Task size: 3GB
  */
 #define TASK_SIZE       (0xc0000000UL)
 #define TASK_SIZE_26	(0x04000000UL)

 /*
  * This decides where the kernel will search for a free chunk of vm
  * space during mmap's.
  */
 #define TASK_UNMAPPED_BASE (TASK_SIZE / 3)

 /*
  * Page offset: 3GB
  */
 #define PAGE_OFFSET     (0xc0000000UL)

 /*
  * Physical DRAM offset is 0x0c000000 on the S3C2400
  */
 #define PHYS_OFFSET	(0x0c000000UL)

 /* Modified for S3C2400, by chc, 20010509 */
 #define RAM_IN_BANK_0  32*1024*1024
 #define RAM_IN_BANK_1  0
 #define RAM_IN_BANK_2  0
 #define RAM_IN_BANK_3  0

 #define MEM_SIZE  (RAM_IN_BANK_0+RAM_IN_BANK_1+RAM_IN_BANK_2+RAM_IN_BANK_3)


 /* translation macros */
 #define __virt_to_phys__is_a_macro
 #define __phys_to_virt__is_a_macro

 #if (RAM_IN_BANK_1 + RAM_IN_BANK_2 + RAM_IN_BANK_3 == 0)

 #define __virt_to_phys(x) ( (x) - PAGE_OFFSET + 0x0c000000 )
 #define __phys_to_virt(x) ( (x) - 0x0c000000 + PAGE_OFFSET )

 #elif (RAM_IN_BANK_0 == RAM_IN_BANK_1) && \
       (RAM_IN_BANK_2 + RAM_IN_BANK_3 == 0)

 /* Two identical banks */
 #define __virt_to_phys(x) \
 	  ( ((x) < PAGE_OFFSET+RAM_IN_BANK_0) ? \
 	    ((x) - PAGE_OFFSET + _DRAMBnk0) : \
 	    ((x) - PAGE_OFFSET - RAM_IN_BANK_0 + _DRAMBnk1) )
 #define __phys_to_virt(x) \
 	  ( ((x)&0x07ffffff) + \
 	    (((x)&0x08000000) ? PAGE_OFFSET+RAM_IN_BANK_0 : PAGE_OFFSET) )
 #else

 /* It's more efficient for all other cases to use the function call */
 #undef __virt_to_phys__is_a_macro
 #undef __phys_to_virt__is_a_macro
 extern unsigned long __virt_to_phys(unsigned long vpage);
 extern unsigned long __phys_to_virt(unsigned long ppage);

 #endif

 /*
  * Virtual view <-> DMA view memory address translations
  * virt_to_bus: Used to translate the virtual address to an
  *              address suitable to be passed to set_dma_addr
  * bus_to_virt: Used to convert an address for DMA operations
  *              to an address that the kernel can use.
  *
  * On the SA1100, bus addresses are equivalent to physical addresses.
  */
 #define __virt_to_bus__is_a_macro
 #define __virt_to_bus(x)        __virt_to_phys(x)
 #define __bus_to_virt__is_a_macro
 #define __bus_to_virt(x)        __phys_to_virt(x)


 #ifdef CONFIG_DISCONTIGMEM
 #error "CONFIG_DISCONTIGMEM will not work on S3C2400"
 /*
  * Because of the wide memory address space between physical RAM banks on the
  * SA1100, it's much more convenient to use Linux's NUMA support to implement
  * our memory map representation.  Assuming all memory nodes have equal access
  * characteristics, we then have generic discontiguous memory support.
  *
  * Of course, all this isn't mandatory for SA1100 implementations with only
  * one used memory bank.  For those, simply undefine CONFIG_DISCONTIGMEM.
  *
  * The nodes are matched with the physical memory bank addresses which are
  * incidentally the same as virtual addresses.
  *
  *	node 0:  0xc0000000 - 0xc7ffffff
  *	node 1:  0xc8000000 - 0xcfffffff
  *	node 2:  0xd0000000 - 0xd7ffffff
  *	node 3:  0xd8000000 - 0xdfffffff
  */

 #define NR_NODES	4

 /*
  * Given a kernel address, find the home node of the underlying memory.
  */
 #define KVADDR_TO_NID(addr) \
 		(((unsigned long)(addr) - 0xc0000000) >> 27)

 /*
  * Given a physical address, convert it to a node id.
  */
 #define PHYS_TO_NID(addr) KVADDR_TO_NID(__phys_to_virt(addr))

 /*
  * Given a kaddr, ADDR_TO_MAPBASE finds the owning node of the memory
  * and returns the mem_map of that node.
  */
 #define ADDR_TO_MAPBASE(kaddr) \
 			NODE_MEM_MAP(KVADDR_TO_NID((unsigned long)(kaddr)))

 /*
  * Given a kaddr, LOCAL_MEM_MAP finds the owning node of the memory
  * and returns the index corresponding to the appropriate page in the
  * node's mem_map.
  */
 #define LOCAL_MAP_NR(kvaddr) \
 	(((unsigned long)(kvaddr) & 0x07ffffff) >> PAGE_SHIFT)

 /*
  * Given a kaddr, virt_to_page returns a pointer to the corresponding
  * mem_map entry.
  */
 #define virt_to_page(kaddr) \
 	(ADDR_TO_MAPBASE(kaddr) + LOCAL_MAP_NR(kaddr))

 /*
  * VALID_PAGE returns a non-zero value if given page pointer is valid.
  * This assumes all node's mem_maps are stored within the node they refer to.
  */
 #define VALID_PAGE(page) \
 ({ unsigned int node = KVADDR_TO_NID(page); \
    ( (node < NR_NODES) && \
      ((unsigned)((page) - NODE_MEM_MAP(node)) < NODE_DATA(node)->node_size) ); \
 })

 #else

 #define PHYS_TO_NID(addr)	(0)

 #endif
 #endif /* __ASM_ARCH_MEMORY_H */
	/*
	* linux/include/asm-arm/arch-s3c2400/memory.h by garyj@denx.de
	* based on
	* linux/include/asm-arm/arch-sa1100/memory.h
	*
	* Copyright (c) 1999 Nicolas Pitre <nico@visuaide.com>
	*/

	#ifndef __ASM_ARCH_MEMORY_H
	#define __ASM_ARCH_MEMORY_H


	/*
	* Task size: 3GB
	*/
	#define TASK_SIZE (0xc0000000UL)
	#define TASK_SIZE_26 (0x04000000UL)

	/*
	* This decides where the kernel will search for a free chunk of vm
	* space during mmap's.
	*/
	#define TASK_UNMAPPED_BASE (TASK_SIZE / 3)

	/*
	* Page offset: 3GB
	*/
	#define PAGE_OFFSET (0xc0000000UL)

	/*
	* Physical DRAM offset is 0x0c000000 on the S3C2400
	*/
	#define PHYS_OFFSET (0x0c000000UL)

	/* Modified for S3C2400, by chc, 20010509 */
	#define RAM_IN_BANK_0 3210241024
	#define RAM_IN_BANK_1 0
	#define RAM_IN_BANK_2 0
	#define RAM_IN_BANK_3 0

	#define MEM_SIZE (RAM_IN_BANK_0+RAM_IN_BANK_1+RAM_IN_BANK_2+RAM_IN_BANK_3)


	/* translation macros */
	#define __virt_to_phys__is_a_macro
	#define __phys_to_virt__is_a_macro

	#if (RAM_IN_BANK_1 + RAM_IN_BANK_2 + RAM_IN_BANK_3 == 0)

	#define __virt_to_phys(x) ( (x) - PAGE_OFFSET + 0x0c000000 )
	#define __phys_to_virt(x) ( (x) - 0x0c000000 + PAGE_OFFSET )

	#elif (RAM_IN_BANK_0 == RAM_IN_BANK_1) && \
	(RAM_IN_BANK_2 + RAM_IN_BANK_3 == 0)

	/* Two identical banks */
	#define __virt_to_phys(x) \
	( ((x) < PAGE_OFFSET+RAM_IN_BANK_0) ? \
	((x) - PAGE_OFFSET + _DRAMBnk0) : \
	((x) - PAGE_OFFSET - RAM_IN_BANK_0 + _DRAMBnk1) )
	#define __phys_to_virt(x) \
	( ((x)&0x07ffffff) + \
	(((x)&0x08000000) ? PAGE_OFFSET+RAM_IN_BANK_0 : PAGE_OFFSET) )
	#else

	/* It's more efficient for all other cases to use the function call */
	#undef __virt_to_phys__is_a_macro
	#undef __phys_to_virt__is_a_macro
	extern unsigned long __virt_to_phys(unsigned long vpage);
	extern unsigned long __phys_to_virt(unsigned long ppage);

	#endif

	/*
	* Virtual view <-> DMA view memory address translations
	* virt_to_bus: Used to translate the virtual address to an
	* address suitable to be passed to set_dma_addr
	* bus_to_virt: Used to convert an address for DMA operations
	* to an address that the kernel can use.
	*
	* On the SA1100, bus addresses are equivalent to physical addresses.
	*/
	#define __virt_to_bus__is_a_macro
	#define __virt_to_bus(x) __virt_to_phys(x)
	#define __bus_to_virt__is_a_macro
	#define __bus_to_virt(x) __phys_to_virt(x)


	#ifdef CONFIG_DISCONTIGMEM
	#error "CONFIG_DISCONTIGMEM will not work on S3C2400"
	/*
	* Because of the wide memory address space between physical RAM banks on the
	* SA1100, it's much more convenient to use Linux's NUMA support to implement
	* our memory map representation. Assuming all memory nodes have equal access
	* characteristics, we then have generic discontiguous memory support.
	*
	* Of course, all this isn't mandatory for SA1100 implementations with only
	* one used memory bank. For those, simply undefine CONFIG_DISCONTIGMEM.
	*
	* The nodes are matched with the physical memory bank addresses which are
	* incidentally the same as virtual addresses.
	*
	* node 0: 0xc0000000 - 0xc7ffffff
	* node 1: 0xc8000000 - 0xcfffffff
	* node 2: 0xd0000000 - 0xd7ffffff
	* node 3: 0xd8000000 - 0xdfffffff
	*/

	#define NR_NODES 4

	/*
	* Given a kernel address, find the home node of the underlying memory.
	*/
	#define KVADDR_TO_NID(addr) \
	(((unsigned long)(addr) - 0xc0000000) >> 27)

	/*
	* Given a physical address, convert it to a node id.
	*/
	#define PHYS_TO_NID(addr) KVADDR_TO_NID(__phys_to_virt(addr))

	/*
	* Given a kaddr, ADDR_TO_MAPBASE finds the owning node of the memory
	* and returns the mem_map of that node.
	*/
	#define ADDR_TO_MAPBASE(kaddr) \
	NODE_MEM_MAP(KVADDR_TO_NID((unsigned long)(kaddr)))

	/*
	* Given a kaddr, LOCAL_MEM_MAP finds the owning node of the memory
	* and returns the index corresponding to the appropriate page in the
	* node's mem_map.
	*/
	#define LOCAL_MAP_NR(kvaddr) \
	(((unsigned long)(kvaddr) & 0x07ffffff) >> PAGE_SHIFT)

	/*
	* Given a kaddr, virt_to_page returns a pointer to the corresponding
	* mem_map entry.
	*/
	#define virt_to_page(kaddr) \
	(ADDR_TO_MAPBASE(kaddr) + LOCAL_MAP_NR(kaddr))

	/*
	* VALID_PAGE returns a non-zero value if given page pointer is valid.
	* This assumes all node's mem_maps are stored within the node they refer to.
	*/
	#define VALID_PAGE(page) \
	({ unsigned int node = KVADDR_TO_NID(page); \
	( (node < NR_NODES) && \
	((unsigned)((page) - NODE_MEM_MAP(node)) < NODE_DATA(node)->node_size) ); \
	})

	#else

	#define PHYS_TO_NID(addr) (0)

	#endif
	#endif /* __ASM_ARCH_MEMORY_H */