Add simple page allocator and doubly-linked list implementation.

2012-09-17 23:27:11 -04:00 · 2012-09-17 23:27:11 -04:00 · 0b3865d16a
parent b531496f8e
commit 0b3865d16a
5 changed files with 223 additions and 0 deletions
--- a/include/list.h
+++ b/include/list.h
@ -0,0 +1,40 @@
+#ifndef LIST_H
+#define LIST_H
+
+/*
+ * Assuming ptr is a pointer to a member variable of type parent_type, and ptr
+ * is named member in parent_type, find the address of the struct which owns
+ * ptr.
+ */
+#define container(ptr, parent_type, member) \
+	((parent_type *) ((char *)ptr - (char *)&((parent_type *)0)->member))
+
+/*
+ * Given a pointer to a struct (head) of type dlist_node, which points to a
+ * list of type parent_type, and a pointer of that type (it), this macro will
+ * execute the contained instructions once for each list element, with 'it' set
+ * to each element in the list, in turn.
+ */
+#define for_each_list(it, head, parent_type, member) \
+	for (it = container((head)->next, parent_type, member); it->member.next != (head); it = container(it->member.next, parent_type, member))
+
+#define for_each_list_noinit(it, head, parent_type, member) \
+	for (; it->member.next != (head); it = container(it->member.next, parent_type, member))
+
+struct dlist_node {
+	struct dlist_node *next, *prev;
+};
+
+void init_list(struct dlist_node *n);
+int list_empty(struct dlist_node *n);
+
+//functions for dealing with single list elements
+void insert_after(struct dlist_node *n, struct dlist_node *to_add);
+void insert_before(struct dlist_node *n, struct dlist_node *to_add);
+void remove(struct dlist_node *to_remove);
+
+//functions for dealing with one or more elements
+void remove_splice(struct dlist_node *from, struct dlist_node *to);
+void insert_splice_before(struct dlist_node *n, struct dlist_node *first, struct dlist_node *last);
+
+#endif /* LIST_H */
--- a/include/mm.h
+++ b/include/mm.h
@ -0,0 +1,20 @@
+#ifndef MM_H
+#define MM_H
+
+#include <list.h>
+
+#define MM_PAGE_SIZE 4096
+
+struct page {
+	void *address;
+	struct dlist_node list;
+	char free;
+};
+
+void mm_init();
+void mm_add_free_region(void *start, void *end);
+
+struct page* mm_get_free_pages(unsigned int power);
+int mm_put_free_pages(struct page *p);
+
+#endif /* MM_H */
--- a/kernel/Makefile.inc
+++ b/kernel/Makefile.inc
@ -3,5 +3,7 @@ KERNEL_PREFIX = kernel
 KOBJS += $(KERNEL_PREFIX)/console.o
 KOBJS += $(KERNEL_PREFIX)/font.o
 KOBJS += $(KERNEL_PREFIX)/framebuffer.o
+KOBJS += $(KERNEL_PREFIX)/list.o
+KOBJS += $(KERNEL_PREFIX)/mm.o
 KOBJS += $(KERNEL_PREFIX)/print.o
 KOBJS += $(KERNEL_PREFIX)/start_kernel.o
--- a/kernel/list.c
+++ b/kernel/list.c
@ -0,0 +1,58 @@
+#include <list.h>
+
+void init_list(struct dlist_node *n) {
+	n->prev = n;
+	n->next = n;
+}
+
+int list_empty(struct dlist_node *n) {
+	return n->next == n;
+}
+
+void insert_after(struct dlist_node *n, struct dlist_node *to_add) {
+	to_add->next = n->next;
+	to_add->next->prev = to_add;
+	n->next = to_add;
+	to_add->prev = n;
+}
+
+void insert_before(struct dlist_node *n, struct dlist_node *to_add) {
+	to_add->prev = n->prev;
+	to_add->prev->next = to_add;
+	n->prev = to_add;
+	to_add->next = n;
+}
+
+void remove(struct dlist_node *to_remove) {
+	if (!list_empty(to_remove)) {
+		to_remove->next->prev = to_remove->prev;
+		to_remove->prev->next = to_remove->next;
+		init_list(to_remove);
+	}
+}
+
+/*
+ * Remove a series of nodes from a list. Note that this assumes the list is not
+ * empty, and that 'from' comes before 'to' in the list. 'from' and 'to' will
+ * both be removed from the list, along with any nodes which come after 'from'
+ * but before 'to'.
+ */
+void remove_splice(struct dlist_node *from, struct dlist_node *to) {
+	to->next->prev = from->prev;
+	from->prev->next = to->next;
+
+	//make the removed splice become its own wrap-around list, for easy access to the last member when re-splicing
+	to->next = from;
+	from->prev = to;
+}
+
+/*
+ * Add a splice of nodes to a list (most likely a series previously removed via
+ * remove_splice()).
+ */
+void insert_splice_before(struct dlist_node *n, struct dlist_node *first, struct dlist_node *last) {
+	first->prev = n->prev;
+	first->prev->next = first;
+	n->prev = last;
+	last->next = n;
+}
--- a/kernel/mm.c
+++ b/kernel/mm.c
@ -0,0 +1,103 @@
+#include <list.h>
+#include <mm.h>
+#include <print.h>
+
+struct dlist_node mm_free_page_list;
+
+void mm_init() {
+	init_list(&mm_free_page_list);
+}
+
+//presupposes mm_free_page_list is a properly initialized list
+void insert_page(struct page *p) {
+	if (list_empty(&mm_free_page_list) || p->address < container(mm_free_page_list.next, struct page, list)->address) {
+		insert_after(&mm_free_page_list, &p->list);
+	} else if (p->address > container(mm_free_page_list.prev, struct page, list)->address) {
+		insert_before(&mm_free_page_list, &p->list);
+	} else {
+		struct page *it;
+		for_each_list(it, &mm_free_page_list, struct page, list) {
+			if (p->address < it->address) {
+				insert_before(&it->list, &p->list);
+				return;
+			}
+		}
+		print("Error: failed to insert page\n");
+	}
+}
+
+void mm_add_free_region(void *start, void *end) {
+	unsigned int num_pages, usable_pages;
+	struct page *p;
+	void *page;
+
+	//make sure both start and end address are aligned to the size of a page
+	if ((unsigned int)start & MM_PAGE_SIZE || (unsigned int)(end+1) & MM_PAGE_SIZE) {
+		print("Error: Supplied memory area(%x,%x) is not aligned to the page size (%d)\n", (unsigned int)start, (unsigned int)end, MM_PAGE_SIZE);
+		return;
+	}
+	if ((char *)end - (char *)start < MM_PAGE_SIZE<<1) {
+		print("Error: Supplied memory area(%x,%x) is not aligned to the page size (%d)\n", (unsigned int)start, (unsigned int)end, MM_PAGE_SIZE);
+		return;
+	}
+
+	//reserve enough pages at the front of this chunk of memory to hold the
+	//page structs, then build the structs and add them to the list
+
+	//TODO we're potentially losing memory here because we're calculating
+	//the number of page structs we need even for those pages that will contain only page structs
+	num_pages = ((char *)end - (char *)start) / MM_PAGE_SIZE;
+	usable_pages = num_pages - num_pages * sizeof(struct page) / MM_PAGE_SIZE;
+	if (num_pages * sizeof(struct page) % MM_PAGE_SIZE)
+		usable_pages--;
+
+	p = (struct page *)start;
+	for (page = ((char *)start) + (num_pages - usable_pages)*MM_PAGE_SIZE; page < end; page = (void *)(((char *)page) + MM_PAGE_SIZE)) {
+		p->address = page;
+		insert_page(p);
+		p++;
+	}
+}
+
+struct page* mm_get_free_pages(unsigned int power) {
+	unsigned int num_pages = 1<<power;
+	struct page *it;
+
+	print("power: %d\n", num_pages);
+
+	if (list_empty(&mm_free_page_list)) {
+		print("Error: Out of memory\n");
+		return (struct page*)0;
+	}
+
+	for_each_list(it, &mm_free_page_list, struct page, list) {
+		unsigned int curr_pages = 1;
+		struct page *it2;
+		for (it2 = container(it->list.next, struct page, list);
+					it2->list.next != &mm_free_page_list && curr_pages < num_pages;
+					it2 = container(it2->list.next, struct page, list)) {
+			if ((char*)it2->address != (char*)container(it2->list.prev, struct page, list)->address + MM_PAGE_SIZE) {
+				it = it2; //fast-forward 'it' to start of next contiguous section of pages 
+				break;
+			} else {
+				curr_pages++;
+			}
+		}
+		if (curr_pages == num_pages) {
+			remove_splice(&it->list, it2->list.prev);
+			return it;
+		}
+	}
+	return (struct page*)0;
+}
+
+int mm_put_free_pages(struct page *p) {
+	struct page *it;
+	for_each_list(it, &mm_free_page_list, struct page, list) {
+		if (p->address < it->address) {
+			insert_splice_before(&it->list, &p->list, p->list.prev);
+			return 0;
+		}
+	}
+	return 1;
+}