37aee82c21
Between kexec and confidential VM support, handling the EFI memory maps correctly on x86 is already proving to be rather difficult (as opposed to other EFI architectures which manage to never modify the EFI memory map to begin with) EFI fake memory map support is essentially a development hack (for testing new support for the 'special purpose' and 'more reliable' EFI memory attributes) that leaked into production code. The regions marked in this manner are not actually recognized as such by the firmware itself or the EFI stub (and never have), and marking memory as 'more reliable' seems rather futile if the underlying memory is just ordinary RAM. Marking memory as 'special purpose' in this way is also dubious, but may be in use in production code nonetheless. However, the same should be achievable by using the memmap= command line option with the ! operator. EFI fake memmap support is not enabled by any of the major distros (Debian, Fedora, SUSE, Ubuntu) and does not exist on other architectures, so let's drop support for it. Acked-by: Borislav Petkov (AMD) <bp@alien8.de> Acked-by: Dan Williams <dan.j.williams@intel.com> Signed-off-by: Ard Biesheuvel <ardb@kernel.org>
251 lines
6.3 KiB
C
251 lines
6.3 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* Common EFI memory map functions.
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*/
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#define pr_fmt(fmt) "efi: " fmt
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#include <linux/init.h>
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#include <linux/kernel.h>
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#include <linux/efi.h>
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#include <linux/io.h>
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#include <asm/early_ioremap.h>
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#include <asm/efi.h>
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#include <linux/memblock.h>
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#include <linux/slab.h>
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static phys_addr_t __init __efi_memmap_alloc_early(unsigned long size)
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{
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return memblock_phys_alloc(size, SMP_CACHE_BYTES);
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}
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static phys_addr_t __init __efi_memmap_alloc_late(unsigned long size)
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{
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unsigned int order = get_order(size);
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struct page *p = alloc_pages(GFP_KERNEL, order);
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if (!p)
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return 0;
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return PFN_PHYS(page_to_pfn(p));
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}
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static
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void __init __efi_memmap_free(u64 phys, unsigned long size, unsigned long flags)
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{
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if (flags & EFI_MEMMAP_MEMBLOCK) {
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if (slab_is_available())
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memblock_free_late(phys, size);
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else
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memblock_phys_free(phys, size);
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} else if (flags & EFI_MEMMAP_SLAB) {
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struct page *p = pfn_to_page(PHYS_PFN(phys));
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unsigned int order = get_order(size);
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free_pages((unsigned long) page_address(p), order);
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}
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}
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/**
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* efi_memmap_alloc - Allocate memory for the EFI memory map
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* @num_entries: Number of entries in the allocated map.
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* @data: efi memmap installation parameters
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*
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* Depending on whether mm_init() has already been invoked or not,
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* either memblock or "normal" page allocation is used.
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*
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* Returns zero on success, a negative error code on failure.
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*/
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int __init efi_memmap_alloc(unsigned int num_entries,
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struct efi_memory_map_data *data)
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{
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/* Expect allocation parameters are zero initialized */
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WARN_ON(data->phys_map || data->size);
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data->size = num_entries * efi.memmap.desc_size;
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data->desc_version = efi.memmap.desc_version;
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data->desc_size = efi.memmap.desc_size;
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data->flags &= ~(EFI_MEMMAP_SLAB | EFI_MEMMAP_MEMBLOCK);
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data->flags |= efi.memmap.flags & EFI_MEMMAP_LATE;
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if (slab_is_available()) {
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data->flags |= EFI_MEMMAP_SLAB;
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data->phys_map = __efi_memmap_alloc_late(data->size);
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} else {
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data->flags |= EFI_MEMMAP_MEMBLOCK;
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data->phys_map = __efi_memmap_alloc_early(data->size);
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}
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if (!data->phys_map)
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return -ENOMEM;
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return 0;
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}
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/**
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* efi_memmap_install - Install a new EFI memory map in efi.memmap
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* @data: efi memmap installation parameters
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*
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* Unlike efi_memmap_init_*(), this function does not allow the caller
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* to switch from early to late mappings. It simply uses the existing
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* mapping function and installs the new memmap.
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*
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* Returns zero on success, a negative error code on failure.
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*/
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int __init efi_memmap_install(struct efi_memory_map_data *data)
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{
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unsigned long size = efi.memmap.desc_size * efi.memmap.nr_map;
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unsigned long flags = efi.memmap.flags;
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u64 phys = efi.memmap.phys_map;
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int ret;
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efi_memmap_unmap();
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if (efi_enabled(EFI_PARAVIRT))
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return 0;
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ret = __efi_memmap_init(data);
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if (ret)
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return ret;
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__efi_memmap_free(phys, size, flags);
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return 0;
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}
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/**
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* efi_memmap_split_count - Count number of additional EFI memmap entries
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* @md: EFI memory descriptor to split
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* @range: Address range (start, end) to split around
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*
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* Returns the number of additional EFI memmap entries required to
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* accommodate @range.
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*/
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int __init efi_memmap_split_count(efi_memory_desc_t *md, struct range *range)
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{
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u64 m_start, m_end;
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u64 start, end;
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int count = 0;
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start = md->phys_addr;
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end = start + (md->num_pages << EFI_PAGE_SHIFT) - 1;
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/* modifying range */
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m_start = range->start;
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m_end = range->end;
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if (m_start <= start) {
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/* split into 2 parts */
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if (start < m_end && m_end < end)
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count++;
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}
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if (start < m_start && m_start < end) {
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/* split into 3 parts */
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if (m_end < end)
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count += 2;
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/* split into 2 parts */
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if (end <= m_end)
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count++;
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}
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return count;
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}
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/**
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* efi_memmap_insert - Insert a memory region in an EFI memmap
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* @old_memmap: The existing EFI memory map structure
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* @buf: Address of buffer to store new map
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* @mem: Memory map entry to insert
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*
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* It is suggested that you call efi_memmap_split_count() first
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* to see how large @buf needs to be.
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*/
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void __init efi_memmap_insert(struct efi_memory_map *old_memmap, void *buf,
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struct efi_mem_range *mem)
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{
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u64 m_start, m_end, m_attr;
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efi_memory_desc_t *md;
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u64 start, end;
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void *old, *new;
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/* modifying range */
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m_start = mem->range.start;
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m_end = mem->range.end;
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m_attr = mem->attribute;
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/*
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* The EFI memory map deals with regions in EFI_PAGE_SIZE
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* units. Ensure that the region described by 'mem' is aligned
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* correctly.
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*/
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if (!IS_ALIGNED(m_start, EFI_PAGE_SIZE) ||
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!IS_ALIGNED(m_end + 1, EFI_PAGE_SIZE)) {
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WARN_ON(1);
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return;
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}
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for (old = old_memmap->map, new = buf;
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old < old_memmap->map_end;
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old += old_memmap->desc_size, new += old_memmap->desc_size) {
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/* copy original EFI memory descriptor */
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memcpy(new, old, old_memmap->desc_size);
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md = new;
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start = md->phys_addr;
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end = md->phys_addr + (md->num_pages << EFI_PAGE_SHIFT) - 1;
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if (m_start <= start && end <= m_end)
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md->attribute |= m_attr;
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if (m_start <= start &&
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(start < m_end && m_end < end)) {
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/* first part */
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md->attribute |= m_attr;
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md->num_pages = (m_end - md->phys_addr + 1) >>
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EFI_PAGE_SHIFT;
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/* latter part */
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new += old_memmap->desc_size;
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memcpy(new, old, old_memmap->desc_size);
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md = new;
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md->phys_addr = m_end + 1;
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md->num_pages = (end - md->phys_addr + 1) >>
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EFI_PAGE_SHIFT;
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}
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if ((start < m_start && m_start < end) && m_end < end) {
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/* first part */
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md->num_pages = (m_start - md->phys_addr) >>
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EFI_PAGE_SHIFT;
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/* middle part */
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new += old_memmap->desc_size;
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memcpy(new, old, old_memmap->desc_size);
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md = new;
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md->attribute |= m_attr;
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md->phys_addr = m_start;
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md->num_pages = (m_end - m_start + 1) >>
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EFI_PAGE_SHIFT;
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/* last part */
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new += old_memmap->desc_size;
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memcpy(new, old, old_memmap->desc_size);
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md = new;
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md->phys_addr = m_end + 1;
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md->num_pages = (end - m_end) >>
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EFI_PAGE_SHIFT;
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}
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if ((start < m_start && m_start < end) &&
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(end <= m_end)) {
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/* first part */
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md->num_pages = (m_start - md->phys_addr) >>
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EFI_PAGE_SHIFT;
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/* latter part */
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new += old_memmap->desc_size;
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memcpy(new, old, old_memmap->desc_size);
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md = new;
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md->phys_addr = m_start;
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md->num_pages = (end - md->phys_addr + 1) >>
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EFI_PAGE_SHIFT;
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md->attribute |= m_attr;
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}
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}
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}
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