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/*
* ppc64.c
*
* Created by: Sachin Sant (sachinp@in.ibm.com)
* Copyright (C) IBM Corporation, 2006. All rights reserved
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation (version 2 of the License).
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#ifdef __powerpc64__
#include "../print_info.h"
#include "../elf_info.h"
#include "../makedumpfile.h"
/*
* This function traverses vmemmap list to get the count of vmemmap regions
* and populates the regions' info in info->vmemmap_list[]
*/
static int
get_vmemmap_list_info(ulong head)
{
int i, cnt;
long backing_size, virt_addr_offset, phys_offset, list_offset;
ulong curr, next;
char *vmemmap_buf = NULL;
backing_size = SIZE(vmemmap_backing);
virt_addr_offset = OFFSET(vmemmap_backing.virt_addr);
phys_offset = OFFSET(vmemmap_backing.phys);
list_offset = OFFSET(vmemmap_backing.list);
info->vmemmap_list = NULL;
/*
* Get list count by traversing the vmemmap list
*/
cnt = 0;
curr = head;
next = 0;
do {
if (!readmem(VADDR, (curr + list_offset), &next,
sizeof(next))) {
ERRMSG("Can't get vmemmap region addresses\n");
goto err;
}
curr = next;
cnt++;
} while ((next != 0) && (next != head));
/*
* Using temporary buffer to save vmemmap region information
*/
vmemmap_buf = calloc(1, backing_size);
if (vmemmap_buf == NULL) {
ERRMSG("Can't allocate memory for vmemmap_buf. %s\n",
strerror(errno));
goto err;
}
info->vmemmap_list = calloc(1, cnt * sizeof(struct ppc64_vmemmap));
if (info->vmemmap_list == NULL) {
ERRMSG("Can't allocate memory for vmemmap_list. %s\n",
strerror(errno));
goto err;
}
curr = head;
for (i = 0; i < cnt; i++) {
if (!readmem(VADDR, curr, vmemmap_buf, backing_size)) {
ERRMSG("Can't get vmemmap region info\n");
goto err;
}
info->vmemmap_list[i].phys = ULONG(vmemmap_buf + phys_offset);
info->vmemmap_list[i].virt = ULONG(vmemmap_buf +
virt_addr_offset);
curr = ULONG(vmemmap_buf + list_offset);
if (info->vmemmap_list[i].virt < info->vmemmap_start)
info->vmemmap_start = info->vmemmap_list[i].virt;
if ((info->vmemmap_list[i].virt + info->vmemmap_psize) >
info->vmemmap_end)
info->vmemmap_end = (info->vmemmap_list[i].virt +
info->vmemmap_psize);
}
free(vmemmap_buf);
return cnt;
err:
free(vmemmap_buf);
free(info->vmemmap_list);
return 0;
}
/*
* Verify that the kernel has made the vmemmap list available,
* and if so, stash the relevant data required to make vtop
* translations.
*/
static int
ppc64_vmemmap_init(void)
{
int psize, shift;
ulong head;
if ((SYMBOL(vmemmap_list) == NOT_FOUND_SYMBOL)
|| (SYMBOL(mmu_psize_defs) == NOT_FOUND_SYMBOL)
|| (SYMBOL(mmu_vmemmap_psize) == NOT_FOUND_SYMBOL)
|| (SIZE(vmemmap_backing) == NOT_FOUND_STRUCTURE)
|| (SIZE(mmu_psize_def) == NOT_FOUND_STRUCTURE)
|| (OFFSET(mmu_psize_def.shift) == NOT_FOUND_STRUCTURE)
|| (OFFSET(vmemmap_backing.phys) == NOT_FOUND_STRUCTURE)
|| (OFFSET(vmemmap_backing.virt_addr) == NOT_FOUND_STRUCTURE)
|| (OFFSET(vmemmap_backing.list) == NOT_FOUND_STRUCTURE))
return FALSE;
if (!readmem(VADDR, SYMBOL(mmu_vmemmap_psize), &psize, sizeof(int)))
return FALSE;
if (!readmem(VADDR, SYMBOL(mmu_psize_defs) +
(SIZE(mmu_psize_def) * psize) +
OFFSET(mmu_psize_def.shift), &shift, sizeof(int)))
return FALSE;
info->vmemmap_psize = 1 << shift;
if (!readmem(VADDR, SYMBOL(vmemmap_list), &head, sizeof(unsigned long)))
return FALSE;
/*
* Get vmemmap list count and populate vmemmap regions info
*/
info->vmemmap_cnt = get_vmemmap_list_info(head);
if (info->vmemmap_cnt == 0)
return FALSE;
info->flag_vmemmap = TRUE;
return TRUE;
}
static int
ppc64_vmalloc_init(void)
{
if (info->page_size == 65536) {
/*
* 64K pagesize
*/
if (info->kernel_version >= KERNEL_VERSION(3, 10, 0)) {
info->l1_index_size = PTE_INDEX_SIZE_L4_64K_3_10;
info->l2_index_size = PMD_INDEX_SIZE_L4_64K_3_10;
info->l3_index_size = PUD_INDEX_SIZE_L4_64K;
info->l4_index_size = PGD_INDEX_SIZE_L4_64K_3_10;
} else {
info->l1_index_size = PTE_INDEX_SIZE_L4_64K;
info->l2_index_size = PMD_INDEX_SIZE_L4_64K;
info->l3_index_size = PUD_INDEX_SIZE_L4_64K;
info->l4_index_size = PGD_INDEX_SIZE_L4_64K;
}
info->pte_shift = SYMBOL(demote_segment_4k) ?
PTE_SHIFT_L4_64K_V2 : PTE_SHIFT_L4_64K_V1;
info->l2_masked_bits = PMD_MASKED_BITS_64K;
} else {
/*
* 4K pagesize
*/
info->l1_index_size = PTE_INDEX_SIZE_L4_4K;
info->l2_index_size = PMD_INDEX_SIZE_L4_4K;
info->l3_index_size = (info->kernel_version >= KERNEL_VERSION(3, 7, 0) ?
PUD_INDEX_SIZE_L4_4K_3_7 : PUD_INDEX_SIZE_L4_4K);
info->l4_index_size = PGD_INDEX_SIZE_L4_4K;
info->pte_shift = PTE_SHIFT_L4_4K;
info->l2_masked_bits = PMD_MASKED_BITS_4K;
}
/*
* Compute ptrs per each level
*/
info->l1_shift = info->page_shift;
info->ptrs_per_l1 = (1 << info->l1_index_size);
info->ptrs_per_l2 = (1 << info->l2_index_size);
info->ptrs_per_l3 = (1 << info->l3_index_size);
info->ptrs_per_l4 = (1 << info->l4_index_size);
info->ptrs_per_pgd = info->ptrs_per_l4;
/*
* Compute shifts
*/
info->l2_shift = info->l1_shift + info->l1_index_size;
info->l3_shift = info->l2_shift + info->l2_index_size;
info->l4_shift = info->l3_shift + info->l3_index_size;
return TRUE;
}
/*
* If the vmemmap address translation information is stored in the kernel,
* make the translation.
*/
static unsigned long long
ppc64_vmemmap_to_phys(unsigned long vaddr)
{
int i;
ulong offset;
unsigned long long paddr = NOT_PADDR;
for (i = 0; i < info->vmemmap_cnt; i++) {
if ((vaddr >= info->vmemmap_list[i].virt) && (vaddr <
(info->vmemmap_list[i].virt + info->vmemmap_psize))) {
offset = vaddr - info->vmemmap_list[i].virt;
paddr = info->vmemmap_list[i].phys + offset;
break;
}
}
return paddr;
}
static unsigned long long
ppc64_vtop_level4(unsigned long vaddr)
{
ulong *level4, *level4_dir;
ulong *page_dir, *page_middle;
ulong *page_table;
unsigned long long level4_pte, pgd_pte;
unsigned long long pmd_pte, pte;
unsigned long long paddr = NOT_PADDR;
if (info->page_buf == NULL) {
/*
* This is the first vmalloc address translation request
*/
info->page_buf = (char *)calloc(1, PAGESIZE());
if (info->page_buf == NULL) {
ERRMSG("Can't allocate memory to read page tables. %s\n",
strerror(errno));
return NOT_PADDR;
}
}
level4 = (ulong *)info->kernel_pgd;
level4_dir = (ulong *)((ulong *)level4 + L4_OFFSET(vaddr));
if (!readmem(VADDR, PAGEBASE(level4), info->page_buf, PAGESIZE())) {
ERRMSG("Can't read level4 page: 0x%llx\n", PAGEBASE(level4));
return NOT_PADDR;
}
level4_pte = ULONG((info->page_buf + PAGEOFFSET(level4_dir)));
if (!level4_pte)
return NOT_PADDR;
/*
* Sometimes we don't have level3 pagetable entries
*/
if (info->l3_index_size != 0) {
page_dir = (ulong *)((ulong *)level4_pte + PGD_OFFSET_L4(vaddr));
if (!readmem(VADDR, PAGEBASE(level4_pte), info->page_buf, PAGESIZE())) {
ERRMSG("Can't read PGD page: 0x%llx\n", PAGEBASE(level4_pte));
return NOT_PADDR;
}
pgd_pte = ULONG((info->page_buf + PAGEOFFSET(page_dir)));
if (!pgd_pte)
return NOT_PADDR;
} else {
pgd_pte = level4_pte;
}
page_middle = (ulong *)((ulong *)pgd_pte + PMD_OFFSET_L4(vaddr));
if (!readmem(VADDR, PAGEBASE(pgd_pte), info->page_buf, PAGESIZE())) {
ERRMSG("Can't read PMD page: 0x%llx\n", PAGEBASE(pgd_pte));
return NOT_PADDR;
}
pmd_pte = ULONG((info->page_buf + PAGEOFFSET(page_middle)));
if (!(pmd_pte))
return NOT_PADDR;
page_table = (ulong *)(pmd_pte & ~(info->l2_masked_bits))
+ (BTOP(vaddr) & (info->ptrs_per_l1 - 1));
if (!readmem(VADDR, PAGEBASE(pmd_pte), info->page_buf, PAGESIZE())) {
ERRMSG("Can't read page table: 0x%llx\n", PAGEBASE(pmd_pte));
return NOT_PADDR;
}
pte = ULONG((info->page_buf + PAGEOFFSET(page_table)));
if (!(pte & _PAGE_PRESENT)) {
ERRMSG("Page not present!\n");
return NOT_PADDR;
}
if (!pte)
return NOT_PADDR;
paddr = PAGEBASE(PTOB(pte >> info->pte_shift)) + PAGEOFFSET(vaddr);
return paddr;
}
int
set_ppc64_max_physmem_bits(void)
{
long array_len = ARRAY_LENGTH(mem_section);
/*
* The older ppc64 kernels uses _MAX_PHYSMEM_BITS as 42 and the
* newer kernels 3.7 onwards uses 46 bits.
*/
info->max_physmem_bits = _MAX_PHYSMEM_BITS_ORIG ;
if ((array_len == (NR_MEM_SECTIONS() / _SECTIONS_PER_ROOT_EXTREME()))
|| (array_len == (NR_MEM_SECTIONS() / _SECTIONS_PER_ROOT())))
return TRUE;
info->max_physmem_bits = _MAX_PHYSMEM_BITS_3_7;
if ((array_len == (NR_MEM_SECTIONS() / _SECTIONS_PER_ROOT_EXTREME()))
|| (array_len == (NR_MEM_SECTIONS() / _SECTIONS_PER_ROOT())))
return TRUE;
return FALSE;
}
int
get_machdep_info_ppc64(void)
{
unsigned long vmlist, vmap_area_list, vmalloc_start;
info->section_size_bits = _SECTION_SIZE_BITS;
if (!set_ppc64_max_physmem_bits()) {
ERRMSG("Can't detect max_physmem_bits.\n");
return FALSE;
}
info->page_offset = __PAGE_OFFSET;
if (SYMBOL(_stext) == NOT_FOUND_SYMBOL) {
ERRMSG("Can't get the symbol of _stext.\n");
return FALSE;
}
info->kernel_start = SYMBOL(_stext);
DEBUG_MSG("kernel_start : %lx\n", info->kernel_start);
/*
* Get vmalloc_start value from either vmap_area_list or vmlist.
*/
if ((SYMBOL(vmap_area_list) != NOT_FOUND_SYMBOL)
&& (OFFSET(vmap_area.va_start) != NOT_FOUND_STRUCTURE)
&& (OFFSET(vmap_area.list) != NOT_FOUND_STRUCTURE)) {
if (!readmem(VADDR, SYMBOL(vmap_area_list) + OFFSET(list_head.next),
&vmap_area_list, sizeof(vmap_area_list))) {
ERRMSG("Can't get vmap_area_list.\n");
return FALSE;
}
if (!readmem(VADDR, vmap_area_list - OFFSET(vmap_area.list) +
OFFSET(vmap_area.va_start), &vmalloc_start,
sizeof(vmalloc_start))) {
ERRMSG("Can't get vmalloc_start.\n");
return FALSE;
}
} else if ((SYMBOL(vmlist) != NOT_FOUND_SYMBOL)
&& (OFFSET(vm_struct.addr) != NOT_FOUND_STRUCTURE)) {
if (!readmem(VADDR, SYMBOL(vmlist), &vmlist, sizeof(vmlist))) {
ERRMSG("Can't get vmlist.\n");
return FALSE;
}
if (!readmem(VADDR, vmlist + OFFSET(vm_struct.addr), &vmalloc_start,
sizeof(vmalloc_start))) {
ERRMSG("Can't get vmalloc_start.\n");
return FALSE;
}
} else {
/*
* For the compatibility, makedumpfile should run without the symbol
* vmlist and the offset of vm_struct.addr if they are not necessary.
*/
return TRUE;
}
info->vmalloc_start = vmalloc_start;
DEBUG_MSG("vmalloc_start: %lx\n", vmalloc_start);
if (SYMBOL(swapper_pg_dir) != NOT_FOUND_SYMBOL) {
info->kernel_pgd = SYMBOL(swapper_pg_dir);
} else if (SYMBOL(cpu_pgd) != NOT_FOUND_SYMBOL) {
info->kernel_pgd = SYMBOL(cpu_pgd);
} else {
ERRMSG("No swapper_pg_dir or cpu_pgd symbols exist\n");
return FALSE;
}
if (SYMBOL(vmemmap_list) != NOT_FOUND_SYMBOL) {
info->vmemmap_start = VMEMMAP_REGION_ID << REGION_SHIFT;
info->vmemmap_end = info->vmemmap_start;
if (ppc64_vmemmap_init() == FALSE) {
ERRMSG("Can't get vmemmap list info.\n");
return FALSE;
}
DEBUG_MSG("vmemmap_start: %lx\n", info->vmemmap_start);
}
return TRUE;
}
int
get_versiondep_info_ppc64()
{
if (ppc64_vmalloc_init() == FALSE) {
ERRMSG("Can't initialize for vmalloc translation\n");
return FALSE;
}
return TRUE;
}
int
is_vmalloc_addr_ppc64(unsigned long vaddr)
{
return (info->vmalloc_start && vaddr >= info->vmalloc_start);
}
unsigned long long
vaddr_to_paddr_ppc64(unsigned long vaddr)
{
unsigned long long paddr;
if ((info->flag_vmemmap)
&& (vaddr >= info->vmemmap_start)) {
return ppc64_vmemmap_to_phys(vaddr);
}
paddr = vaddr_to_paddr_general(vaddr);
if (paddr != NOT_PADDR)
return paddr;
if (!is_vmalloc_addr_ppc64(vaddr))
return (vaddr - info->kernel_start);
if ((SYMBOL(vmap_area_list) == NOT_FOUND_SYMBOL)
|| (OFFSET(vmap_area.va_start) == NOT_FOUND_STRUCTURE)
|| (OFFSET(vmap_area.list) == NOT_FOUND_STRUCTURE)) {
if ((SYMBOL(vmlist) == NOT_FOUND_SYMBOL)
|| (OFFSET(vm_struct.addr) == NOT_FOUND_STRUCTURE)) {
ERRMSG("Can't get info for vmalloc translation.\n");
return NOT_PADDR;
}
}
return ppc64_vtop_level4(vaddr);
}
#endif /* powerpc64 */
|
