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@@ -89,3 +89,108 @@ extern struct page *empty_zero_page;
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/* The following flags are only valid when !PRESENT */
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#define _PAGE_BIT_FILE 0 /* software: pagecache or swap? */
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+#define _PAGE_WT (1 << _PAGE_BIT_WT)
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+#define _PAGE_DIRTY (1 << _PAGE_BIT_DIRTY)
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+#define _PAGE_EXECUTE (1 << _PAGE_BIT_EXECUTE)
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+#define _PAGE_RW (1 << _PAGE_BIT_RW)
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+#define _PAGE_USER (1 << _PAGE_BIT_USER)
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+#define _PAGE_BUFFER (1 << _PAGE_BIT_BUFFER)
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+#define _PAGE_GLOBAL (1 << _PAGE_BIT_GLOBAL)
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+#define _PAGE_CACHABLE (1 << _PAGE_BIT_CACHABLE)
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+
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+/* Software flags */
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+#define _PAGE_ACCESSED (1 << _PAGE_BIT_ACCESSED)
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+#define _PAGE_PRESENT (1 << _PAGE_BIT_PRESENT)
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+#define _PAGE_FILE (1 << _PAGE_BIT_FILE)
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+
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+/*
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+ * Page types, i.e. sizes. _PAGE_TYPE_NONE corresponds to what is
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+ * usually called _PAGE_PROTNONE on other architectures.
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+ *
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+ * XXX: Find out if _PAGE_PROTNONE is equivalent with !_PAGE_USER. If
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+ * so, we can encode all possible page sizes (although we can't really
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+ * support 1K pages anyway due to the _PAGE_PRESENT and _PAGE_ACCESSED
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+ * bits)
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+ *
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+ */
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+#define _PAGE_TYPE_MASK ((1 << _PAGE_BIT_SZ0) | (1 << _PAGE_BIT_SZ1))
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+#define _PAGE_TYPE_NONE (0 << _PAGE_BIT_SZ0)
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+#define _PAGE_TYPE_SMALL (1 << _PAGE_BIT_SZ0)
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+#define _PAGE_TYPE_MEDIUM (2 << _PAGE_BIT_SZ0)
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+#define _PAGE_TYPE_LARGE (3 << _PAGE_BIT_SZ0)
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+
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+/*
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+ * Mask which drop software flags. We currently can't handle more than
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+ * 512 MiB of physical memory, so we can use bits 29-31 for other
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+ * stuff. With a fixed 4K page size, we can use bits 10-11 as well as
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+ * bits 2-3 (SZ)
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+ */
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+#define _PAGE_FLAGS_HARDWARE_MASK 0xfffff3ff
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+
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+#define _PAGE_FLAGS_CACHE_MASK (_PAGE_CACHABLE | _PAGE_BUFFER | _PAGE_WT)
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+
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+/* Flags that may be modified by software */
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+#define _PAGE_CHG_MASK (PTE_MASK | _PAGE_ACCESSED | _PAGE_DIRTY \
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+ | _PAGE_FLAGS_CACHE_MASK)
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+
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+#define _PAGE_FLAGS_READ (_PAGE_CACHABLE | _PAGE_BUFFER)
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+#define _PAGE_FLAGS_WRITE (_PAGE_FLAGS_READ | _PAGE_RW | _PAGE_DIRTY)
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+
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+#define _PAGE_NORMAL(x) __pgprot((x) | _PAGE_PRESENT | _PAGE_TYPE_SMALL \
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+ | _PAGE_ACCESSED)
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+
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+#define PAGE_NONE (_PAGE_ACCESSED | _PAGE_TYPE_NONE)
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+#define PAGE_READ (_PAGE_FLAGS_READ | _PAGE_USER)
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+#define PAGE_EXEC (_PAGE_FLAGS_READ | _PAGE_EXECUTE | _PAGE_USER)
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+#define PAGE_WRITE (_PAGE_FLAGS_WRITE | _PAGE_USER)
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+#define PAGE_KERNEL _PAGE_NORMAL(_PAGE_FLAGS_WRITE | _PAGE_EXECUTE | _PAGE_GLOBAL)
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+#define PAGE_KERNEL_RO _PAGE_NORMAL(_PAGE_FLAGS_READ | _PAGE_EXECUTE | _PAGE_GLOBAL)
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+
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+#define _PAGE_P(x) _PAGE_NORMAL((x) & ~(_PAGE_RW | _PAGE_DIRTY))
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+#define _PAGE_S(x) _PAGE_NORMAL(x)
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+
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+#define PAGE_COPY _PAGE_P(PAGE_WRITE | PAGE_READ)
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+#define PAGE_SHARED _PAGE_S(PAGE_WRITE | PAGE_READ)
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+
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+#ifndef __ASSEMBLY__
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+/*
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+ * The hardware supports flags for write- and execute access. Read is
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+ * always allowed if the page is loaded into the TLB, so the "-w-",
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+ * "--x" and "-wx" mappings are implemented as "rw-", "r-x" and "rwx",
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+ * respectively.
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+ *
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+ * The "---" case is handled by software; the page will simply not be
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+ * loaded into the TLB if the page type is _PAGE_TYPE_NONE.
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+ */
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+
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+#define __P000 __pgprot(PAGE_NONE)
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+#define __P001 _PAGE_P(PAGE_READ)
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+#define __P010 _PAGE_P(PAGE_WRITE)
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+#define __P011 _PAGE_P(PAGE_WRITE | PAGE_READ)
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+#define __P100 _PAGE_P(PAGE_EXEC)
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+#define __P101 _PAGE_P(PAGE_EXEC | PAGE_READ)
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+#define __P110 _PAGE_P(PAGE_EXEC | PAGE_WRITE)
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+#define __P111 _PAGE_P(PAGE_EXEC | PAGE_WRITE | PAGE_READ)
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+
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+#define __S000 __pgprot(PAGE_NONE)
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+#define __S001 _PAGE_S(PAGE_READ)
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+#define __S010 _PAGE_S(PAGE_WRITE)
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+#define __S011 _PAGE_S(PAGE_WRITE | PAGE_READ)
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+#define __S100 _PAGE_S(PAGE_EXEC)
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+#define __S101 _PAGE_S(PAGE_EXEC | PAGE_READ)
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+#define __S110 _PAGE_S(PAGE_EXEC | PAGE_WRITE)
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+#define __S111 _PAGE_S(PAGE_EXEC | PAGE_WRITE | PAGE_READ)
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+
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+#define pte_none(x) (!pte_val(x))
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+#define pte_present(x) (pte_val(x) & _PAGE_PRESENT)
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+
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+#define pte_clear(mm,addr,xp) \
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+ do { \
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+ set_pte_at(mm, addr, xp, __pte(0)); \
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+ } while (0)
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+
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+/*
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+ * The following only work if pte_present() is true.
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+ * Undefined behaviour if not..
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+ */
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+static inline int pte_write(pte_t pte)
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