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riscv-pke/kernel/pmm.c

89 lines
2.9 KiB

#include "pmm.h"
#include "util/functions.h"
#include "riscv.h"
#include "config.h"
#include "util/string.h"
#include "memlayout.h"
#include "spike_interface/spike_utils.h"
// _end is defined in kernel/kernel.lds, it marks the ending (virtual) address of PKE kernel
extern char _end[];
// g_mem_size is defined in spike_interface/spike_memory.c, it indicates the size of our
// (emulated) spike machine. g_mem_size's value is obtained when initializing HTIF.
extern uint64 g_mem_size;
static uint64 free_mem_start_addr; //beginning address of free memory
static uint64 free_mem_end_addr; //end address of free memory (not included)
typedef struct node {
struct node *next;
} list_node;
// g_free_mem_list is the head of the list of free physical memory pages
static list_node g_free_mem_list;
//
// actually creates the freepage list. each page occupies 4KB (PGSIZE), i.e., small page.
// PGSIZE is defined in kernel/riscv.h, ROUNDUP is defined in util/functions.h.
//
static void create_freepage_list(uint64 start, uint64 end) {
g_free_mem_list.next = 0;
for (uint64 p = ROUNDUP(start, PGSIZE); p + PGSIZE < end; p += PGSIZE)
free_page( (void *)p );
}
//
// place a physical page at *pa to the free list of g_free_mem_list (to reclaim the page)
//
void free_page(void *pa) {
if (((uint64)pa % PGSIZE) != 0 || (uint64)pa < free_mem_start_addr || (uint64)pa >= free_mem_end_addr)
panic("free_page 0x%lx \n", pa);
// insert a physical page to g_free_mem_list
list_node *n = (list_node *)pa;
n->next = g_free_mem_list.next;
g_free_mem_list.next = n;
}
//
// takes the first free page from g_free_mem_list, and returns (allocates) it.
// Allocates only ONE page!
//
void *alloc_page(void) {
list_node *n = g_free_mem_list.next;
if (n) g_free_mem_list.next = n->next;
return (void *)n;
}
//
// pmm_init() establishes the list of free physical pages according to available
// physical memory space.
//
void pmm_init() {
// start of kernel program segment
uint64 g_kernel_start = KERN_BASE;
uint64 g_kernel_end = (uint64)&_end;
uint64 pke_kernel_size = g_kernel_end - g_kernel_start;
sprint("PKE kernel start 0x%lx, PKE kernel end: 0x%lx, PKE kernel size: 0x%lx .\n",
g_kernel_start, g_kernel_end, pke_kernel_size);
// free memory starts from the end of PKE kernel and must be page-aligined
free_mem_start_addr = ROUNDUP(g_kernel_end , PGSIZE);
// recompute g_mem_size to limit the physical memory space that our riscv-pke kernel
// needs to manage
g_mem_size = MIN(PKE_MAX_ALLOWABLE_RAM, g_mem_size);
if( g_mem_size < pke_kernel_size )
panic( "Error when recomputing physical memory size (g_mem_size).\n" );
free_mem_end_addr = g_mem_size + DRAM_BASE;
sprint("free physical memory address: [0x%lx, 0x%lx] \n", free_mem_start_addr,
free_mem_end_addr - 1);
sprint("kernel memory manager is initializing ...\n");
// create the list of free pages
create_freepage_list(free_mem_start_addr, free_mem_end_addr);
}