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[/] [or1k/] [trunk/] [rc203soc/] [sw/] [uClinux/] [arch/] [sparc/] [prom/] [memory.c] - Rev 1777

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/* $Id: memory.c,v 1.1 2005-12-20 09:49:32 jcastillo Exp $
 * memory.c: Prom routine for acquiring various bits of information
 *           about RAM on the machine, both virtual and physical.
 *
 * Copyright (C) 1995 David S. Miller (davem@caip.rutgers.edu)
 */
 
#include <linux/kernel.h>
 
#include <asm/openprom.h>
#include <asm/oplib.h>
 
/* This routine, for consistency, returns the ram parameters in the
 * V0 prom memory descriptor format.  I choose this format because I
 * think it was the easiest to work with.  I feel the religious
 * arguments now... ;)  Also, I return the linked lists sorted to
 * prevent paging_init() upset stomach as I have not yet written
 * the pepto-bismol kernel module yet.
 */
 
struct linux_prom_registers prom_reg_memlist[64];
struct linux_prom_registers prom_reg_tmp[64];
 
struct linux_mlist_v0 prom_phys_total[64];
struct linux_mlist_v0 prom_prom_taken[64];
struct linux_mlist_v0 prom_phys_avail[64];
 
struct linux_mlist_v0 *prom_ptot_ptr = prom_phys_total;
struct linux_mlist_v0 *prom_ptak_ptr = prom_prom_taken;
struct linux_mlist_v0 *prom_pavl_ptr = prom_phys_avail;
 
struct linux_mem_v0 prom_memlist;
 
 
/* Internal Prom library routine to sort a linux_mlist_v0 memory
 * list.  Used below in initialization.
 */
void
prom_sortmemlist(struct linux_mlist_v0 *thislist)
{
	int swapi = 0;
	int i, mitr, tmpsize;
	char *tmpaddr;
	char *lowest;
 
	for(i=0; thislist[i].theres_more != 0; i++) {
		lowest = thislist[i].start_adr;
		for(mitr = i+1; thislist[mitr-1].theres_more != 0; mitr++)
			if(thislist[mitr].start_adr < lowest) {
				lowest = thislist[mitr].start_adr;
				swapi = mitr;
			}
		if(lowest == thislist[i].start_adr) continue;
		tmpaddr = thislist[swapi].start_adr;
		tmpsize = thislist[swapi].num_bytes;
		for(mitr = swapi; mitr > i; mitr--) {
			thislist[mitr].start_adr = thislist[mitr-1].start_adr;
			thislist[mitr].num_bytes = thislist[mitr-1].num_bytes;
		}
		thislist[i].start_adr = tmpaddr;
		thislist[i].num_bytes = tmpsize;
	}
 
	return;
}
 
/* Initialize the memory lists based upon the prom version. */
void
prom_meminit(void)
{
	int node = 0;
	unsigned int iter, num_regs;
	struct linux_mlist_v0 *mptr;  /* ptr for traversal */
 
	switch(prom_vers) {
	case PROM_V0:
		/* Nice, kind of easier to do in this case. */
		/* First, the total physical descriptors. */
		for(mptr = (*(romvec->pv_v0mem.v0_totphys)), iter=0;
		    mptr; mptr=mptr->theres_more, iter++) {
			prom_phys_total[iter].start_adr = mptr->start_adr;
			prom_phys_total[iter].num_bytes = mptr->num_bytes;
			prom_phys_total[iter].theres_more = &prom_phys_total[iter+1];
		}
		prom_phys_total[iter-1].theres_more = 0x0;
		/* Second, the total prom taken descriptors. */
		for(mptr = (*(romvec->pv_v0mem.v0_prommap)), iter=0;
		    mptr; mptr=mptr->theres_more, iter++) {
			prom_prom_taken[iter].start_adr = mptr->start_adr;
			prom_prom_taken[iter].num_bytes = mptr->num_bytes;
			prom_prom_taken[iter].theres_more = &prom_prom_taken[iter+1];
		}
		prom_prom_taken[iter-1].theres_more = 0x0;
		/* Last, the available physical descriptors. */
		for(mptr = (*(romvec->pv_v0mem.v0_available)), iter=0;
		    mptr; mptr=mptr->theres_more, iter++) {
			prom_phys_avail[iter].start_adr = mptr->start_adr;
			prom_phys_avail[iter].num_bytes = mptr->num_bytes;
			prom_phys_avail[iter].theres_more = &prom_phys_avail[iter+1];
		}
		prom_phys_avail[iter-1].theres_more = 0x0;
		/* Sort all the lists. */
		prom_sortmemlist(prom_phys_total);
		prom_sortmemlist(prom_prom_taken);
		prom_sortmemlist(prom_phys_avail);
		break;
	case PROM_V2:
	case PROM_V3:
	case PROM_P1275:
		/* Grrr, have to traverse the prom device tree ;( */
		node = prom_getchild(prom_root_node);
		node = prom_searchsiblings(node, "memory");
		num_regs = prom_getproperty(node, "available",
					    (char *) prom_reg_memlist,
					    sizeof(prom_reg_memlist));
		num_regs = (num_regs/sizeof(struct linux_prom_registers));
		for(iter=0; iter<num_regs; iter++) {
			prom_phys_avail[iter].start_adr =
				prom_reg_memlist[iter].phys_addr;
			prom_phys_avail[iter].num_bytes =
				(unsigned long) prom_reg_memlist[iter].reg_size;
			prom_phys_avail[iter].theres_more =
				&prom_phys_avail[iter+1];
		}
		prom_phys_avail[iter-1].theres_more = 0x0;
 
		num_regs = prom_getproperty(node, "reg",
					    (char *) prom_reg_memlist,
					    sizeof(prom_reg_memlist));
		num_regs = (num_regs/sizeof(struct linux_prom_registers));
		for(iter=0; iter<num_regs; iter++) {
			prom_phys_total[iter].start_adr =
				prom_reg_memlist[iter].phys_addr;
			prom_phys_total[iter].num_bytes =
				(unsigned long) prom_reg_memlist[iter].reg_size;
			prom_phys_total[iter].theres_more =
				&prom_phys_total[iter+1];
		}
		prom_phys_total[iter-1].theres_more = 0x0;
 
		node = prom_getchild(prom_root_node);
		node = prom_searchsiblings(node, "virtual-memory");
		num_regs = prom_getproperty(node, "available",
					    (char *) prom_reg_memlist,
					    sizeof(prom_reg_memlist));
		num_regs = (num_regs/sizeof(struct linux_prom_registers));
 
		/* Convert available virtual areas to taken virtual
		 * areas.  First sort, then convert.
		 */
		for(iter=0; iter<num_regs; iter++) {
			prom_prom_taken[iter].start_adr =
				prom_reg_memlist[iter].phys_addr;
			prom_prom_taken[iter].num_bytes =
				(unsigned long) prom_reg_memlist[iter].reg_size;
			prom_prom_taken[iter].theres_more =
				&prom_phys_total[iter+1];
		}
		prom_prom_taken[iter-1].theres_more = 0x0;
 
		prom_sortmemlist(prom_prom_taken);
 
		/* Finally, convert. */
		for(iter=0; iter<num_regs; iter++) {
			prom_prom_taken[iter].start_adr =
				prom_prom_taken[iter].start_adr +
					prom_prom_taken[iter].num_bytes;
			prom_prom_taken[iter].num_bytes =
				prom_prom_taken[iter+1].start_adr -
					prom_prom_taken[iter].start_adr;
		}
		prom_prom_taken[iter-1].num_bytes =
			0xffffffff - (unsigned long) prom_prom_taken[iter-1].start_adr;
 
		/* Sort the other two lists. */
		prom_sortmemlist(prom_phys_total);
		prom_sortmemlist(prom_phys_avail);
		break;
 
        case PROM_AP1000:
          /* really simple memory map */
          prom_phys_total[0].start_adr = 0x00000000;
          prom_phys_total[0].num_bytes = 0x01000000; /* 16MB */
          prom_phys_total[0].theres_more = 0x0;
          prom_prom_taken[0].start_adr = 0x00000000; 
          prom_prom_taken[0].num_bytes = 0x00000000;
          prom_prom_taken[0].theres_more = 0x0;
          prom_phys_avail[0].start_adr = 0x00000000;
          prom_phys_avail[0].num_bytes = 0x01000000; /* 16MB */
          prom_phys_avail[0].theres_more = 0x0;
          prom_sortmemlist(prom_phys_total);
          prom_sortmemlist(prom_prom_taken);
          prom_sortmemlist(prom_phys_avail);
          printk("Initialised AP1000 memory lists (forced 16MB)\n");
          break;
	};
 
	/* Link all the lists into the top-level descriptor. */
	prom_memlist.v0_totphys=&prom_ptot_ptr;
	prom_memlist.v0_prommap=&prom_ptak_ptr;
	prom_memlist.v0_available=&prom_pavl_ptr;
 
	return;
}
 
/* This returns a pointer to our libraries internal v0 format
 * memory descriptor.
 */
struct linux_mem_v0 *
prom_meminfo(void)
{
	return &prom_memlist;
}
 

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