void
pmm_mark_page_occupied(pid_t owner, uintptr_t ppn, pp_attr_t attr)
{
- pm_table[ppn] = (struct pp_struct) {
- .owner = owner,
- .ref_counts = 1,
- .attr = attr
- };
+ pm_table[ppn] =
+ (struct pp_struct){ .owner = owner, .ref_counts = 1, .attr = attr };
}
void
pmm_mark_chunk_free(uintptr_t start_ppn, size_t page_count)
{
- for (size_t i = start_ppn; i < start_ppn + page_count && i < max_pg; i++)
- {
+ for (size_t i = start_ppn; i < start_ppn + page_count && i < max_pg; i++) {
pm_table[i].ref_counts = 0;
}
}
void
-pmm_mark_chunk_occupied(pid_t owner, uint32_t start_ppn, size_t page_count, pp_attr_t attr)
+pmm_mark_chunk_occupied(pid_t owner,
+ uint32_t start_ppn,
+ size_t page_count,
+ pp_attr_t attr)
{
- for (size_t i = start_ppn; i < start_ppn + page_count && i < max_pg; i++)
- {
- pm_table[i] = (struct pp_struct) {
- .owner = owner,
- .ref_counts = 1,
- .attr = attr
- };
+ for (size_t i = start_ppn; i < start_ppn + page_count && i < max_pg; i++) {
+ pm_table[i] =
+ (struct pp_struct){ .owner = owner, .ref_counts = 1, .attr = attr };
}
}
// mark all as occupied
for (size_t i = 0; i < PM_BMP_MAX_SIZE; i++) {
- pm_table[i] = (struct pp_struct) {
- .owner = 0,
- .attr = 0,
- .ref_counts = 1
- };
+ pm_table[i] =
+ (struct pp_struct){ .owner = 0, .attr = 0, .ref_counts = 1 };
}
}
void*
-pmm_alloc_cpage(pid_t owner, size_t num_pages, pp_attr_t attr) {
+pmm_alloc_cpage(pid_t owner, size_t num_pages, pp_attr_t attr)
+{
size_t p1 = 0;
size_t p2 = 0;
- while (p2 < max_pg && p2 - p1 < num_pages)
- {
+ while (p2 < max_pg && p2 - p1 < num_pages) {
(!(&pm_table[p2])->ref_counts) ? (p2++) : (p1 = p2);
}
while (!good_page_found && pg_lookup_ptr < upper_lim) {
pm = &pm_table[pg_lookup_ptr];
- // skip the fully occupied chunk, reduce # of iterations
if (!pm->ref_counts) {
- *pm = (struct pp_struct) {
- .attr = attr,
- .owner = owner,
- .ref_counts = 1
- };
+ *pm = (struct pp_struct){ .attr = attr,
+ .owner = owner,
+ .ref_counts = 1 };
good_page_found = pg_lookup_ptr << 12;
+ break;
} else {
pg_lookup_ptr++;
pmm_free_page(pid_t owner, void* page)
{
struct pp_struct* pm = &pm_table[(intptr_t)page >> 12];
-
- // Oops, double free!
- if (!(pm->ref_counts)) {
+
+ // Is this a MMIO mapping or double free?
+ if (((intptr_t)page >> 12) >= max_pg || !(pm->ref_counts)) {
return 0;
}
- // 检查权限,保证:1) 用户只能释放用户页; 2) 内核可释放所有页。
- if ((pm->owner & owner) == pm->owner) {
- pm->ref_counts--;
- return 1;
+ // 如果是锁定页,则不作处理
+ if ((pm->attr & PP_FGLOCKED)) {
+ return 0;
}
- return 0;
+
+ // TODO: 检查权限,保证:1) 只有正在使用该页(包括被分享者)的进程可以释放;
+ // 2) 内核可释放所有页。
+ pm->ref_counts--;
+ return 1;
}
-int pmm_ref_page(pid_t owner, void* page) {
- (void*) owner; // TODO: do smth with owner
-
+int
+pmm_ref_page(pid_t owner, void* page)
+{
+ (void*)owner; // TODO: do smth with owner
+
uint32_t ppn = (uintptr_t)page >> 12;
-
+
if (ppn >= PM_BMP_MAX_SIZE) {
return 0;
}
struct pp_struct* pm = &pm_table[ppn];
- if (!pm->ref_counts) {
+ if (ppn >= max_pg || !pm->ref_counts) {
return 0;
}
return 1;
}
-struct pp_struct* pmm_query(void* pa) {
+struct pp_struct*
+pmm_query(void* pa)
+{
uint32_t ppn = (uintptr_t)pa >> 12;
-
+
if (ppn >= PM_BMP_MAX_SIZE) {
return NULL;
}
git://scm.lunaixsky.com / lunaix-os.git / blobdiff