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linux_kernel
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drivers
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firmware
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efi
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fake_mem.c

fake_mem.c 6.0 KB
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  1. /*
    2. 

  2.  * fake_mem.c
    3. 

  3.  *
    4. 

  4.  * Copyright (C) 2015 FUJITSU LIMITED
    5. 

  5.  * Author: Taku Izumi <izumi.taku@jp.fujitsu.com>
    6. 

  6.  *
    7. 

  7.  * This code introduces new boot option named "efi_fake_mem"
    8. 

  8.  * By specifying this parameter, you can add arbitrary attribute to
    9. 

  9.  * specific memory range by updating original (firmware provided) EFI
    10. 

  10.  * memmap.
    11. 

  11.  *
    12. 

  12.  *  This program is free software; you can redistribute it and/or modify it
    13. 

  13.  *  under the terms and conditions of the GNU General Public License,
    14. 

  14.  *  version 2, as published by the Free Software Foundation.
    15. 

  15.  *
    16. 

  16.  *  This program is distributed in the hope it will be useful, but WITHOUT
    17. 

  17.  *  ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
    18. 

  18.  *  FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
    19. 

  19.  *  more details.
    20. 

  20.  *
    21. 

  21.  *  You should have received a copy of the GNU General Public License along with
    22. 

  22.  *  this program; if not, see <http://www.gnu.org/licenses/>.
    23. 

  23.  *
    24. 

  24.  *  The full GNU General Public License is included in this distribution in
    25. 

  25.  *  the file called "COPYING".
    26. 

  26.  */
    27. 

  27. 

  28. #include <linux/kernel.h>
    29. 

  29. #include <linux/efi.h>
    30. 

  30. #include <linux/init.h>
    31. 

  31. #include <linux/memblock.h>
    32. 

  32. #include <linux/types.h>
    33. 

  33. #include <linux/sort.h>
    34. 

  34. #include <asm/efi.h>
    35. 

  35. 

  36. #define EFI_MAX_FAKEMEM CONFIG_EFI_MAX_FAKE_MEM
    37. 

  37. 

  38. struct fake_mem {
    39. 

  39. 	struct range range;
    40. 

  40. 	u64 attribute;
    41. 

  41. };
    42. 

  42. static struct fake_mem fake_mems[EFI_MAX_FAKEMEM];
    43. 

  43. static int nr_fake_mem;
    44. 

  44. 

  45. static int __init cmp_fake_mem(const void *x1, const void *x2)
    46. 

  46. {
    47. 

  47. 	const struct fake_mem *m1 = x1;
    48. 

  48. 	const struct fake_mem *m2 = x2;
    49. 

  49. 

  50. 	if (m1->range.start < m2->range.start)
    51. 

  51. 		return -1;
    52. 

  52. 	if (m1->range.start > m2->range.start)
    53. 

  53. 		return 1;
    54. 

  54. 	return 0;
    55. 

  55. }
    56. 

  56. 

  57. void __init efi_fake_memmap(void)
    58. 

  58. {
    59. 

  59. 	u64 start, end, m_start, m_end, m_attr;
    60. 

  60. 	int new_nr_map = memmap.nr_map;
    61. 

  61. 	efi_memory_desc_t *md;
    62. 

  62. 	phys_addr_t new_memmap_phy;
    63. 

  63. 	void *new_memmap;
    64. 

  64. 	void *old, *new;
    65. 

  65. 	int i;
    66. 

  66. 

  67. 	if (!nr_fake_mem || !efi_enabled(EFI_MEMMAP))
    68. 

  68. 		return;
    69. 

  69. 

  70. 	/* count up the number of EFI memory descriptor */
    71. 

  71. 	for (old = memmap.map; old < memmap.map_end; old += memmap.desc_size) {
    72. 

  72. 		md = old;
    73. 

  73. 		start = md->phys_addr;
    74. 

  74. 		end = start + (md->num_pages << EFI_PAGE_SHIFT) - 1;
    75. 

  75. 

  76. 		for (i = 0; i < nr_fake_mem; i++) {
    77. 

  77. 			/* modifying range */
    78. 

  78. 			m_start = fake_mems[i].range.start;
    79. 

  79. 			m_end = fake_mems[i].range.end;
    80. 

  80. 

  81. 			if (m_start <= start) {
    82. 

  82. 				/* split into 2 parts */
    83. 

  83. 				if (start < m_end && m_end < end)
    84. 

  84. 					new_nr_map++;
    85. 

  85. 			}
    86. 

  86. 			if (start < m_start && m_start < end) {
    87. 

  87. 				/* split into 3 parts */
    88. 

  88. 				if (m_end < end)
    89. 

  89. 					new_nr_map += 2;
    90. 

  90. 				/* split into 2 parts */
    91. 

  91. 				if (end <= m_end)
    92. 

  92. 					new_nr_map++;
    93. 

  93. 			}
    94. 

  94. 		}
    95. 

  95. 	}
    96. 

  96. 

  97. 	/* allocate memory for new EFI memmap */
    98. 

  98. 	new_memmap_phy = memblock_alloc(memmap.desc_size * new_nr_map,
    99. 

  99. 					PAGE_SIZE);
    100. 

  100. 	if (!new_memmap_phy)
    101. 

  101. 		return;
    102. 

  102. 

  103. 	/* create new EFI memmap */
    104. 

  104. 	new_memmap = early_memremap(new_memmap_phy,
    105. 

  105. 				    memmap.desc_size * new_nr_map);
    106. 

  106. 	if (!new_memmap) {
    107. 

  107. 		memblock_free(new_memmap_phy, memmap.desc_size * new_nr_map);
    108. 

  108. 		return;
    109. 

  109. 	}
    110. 

  110. 

  111. 	for (old = memmap.map, new = new_memmap;
    112. 

  112. 	     old < memmap.map_end;
    113. 

  113. 	     old += memmap.desc_size, new += memmap.desc_size) {
    114. 

  114. 

  115. 		/* copy original EFI memory descriptor */
    116. 

  116. 		memcpy(new, old, memmap.desc_size);
    117. 

  117. 		md = new;
    118. 

  118. 		start = md->phys_addr;
    119. 

  119. 		end = md->phys_addr + (md->num_pages << EFI_PAGE_SHIFT) - 1;
    120. 

  120. 

  121. 		for (i = 0; i < nr_fake_mem; i++) {
    122. 

  122. 			/* modifying range */
    123. 

  123. 			m_start = fake_mems[i].range.start;
    124. 

  124. 			m_end = fake_mems[i].range.end;
    125. 

  125. 			m_attr = fake_mems[i].attribute;
    126. 

  126. 

  127. 			if (m_start <= start && end <= m_end)
    128. 

  128. 				md->attribute |= m_attr;
    129. 

  129. 

  130. 			if (m_start <= start &&
    131. 

  131. 			    (start < m_end && m_end < end)) {
    132. 

  132. 				/* first part */
    133. 

  133. 				md->attribute |= m_attr;
    134. 

  134. 				md->num_pages = (m_end - md->phys_addr + 1) >>
    135. 

  135. 					EFI_PAGE_SHIFT;
    136. 

  136. 				/* latter part */
    137. 

  137. 				new += memmap.desc_size;
    138. 

  138. 				memcpy(new, old, memmap.desc_size);
    139. 

  139. 				md = new;
    140. 

  140. 				md->phys_addr = m_end + 1;
    141. 

  141. 				md->num_pages = (end - md->phys_addr + 1) >>
    142. 

  142. 					EFI_PAGE_SHIFT;
    143. 

  143. 			}
    144. 

  144. 

  145. 			if ((start < m_start && m_start < end) && m_end < end) {
    146. 

  146. 				/* first part */
    147. 

  147. 				md->num_pages = (m_start - md->phys_addr) >>
    148. 

  148. 					EFI_PAGE_SHIFT;
    149. 

  149. 				/* middle part */
    150. 

  150. 				new += memmap.desc_size;
    151. 

  151. 				memcpy(new, old, memmap.desc_size);
    152. 

  152. 				md = new;
    153. 

  153. 				md->attribute |= m_attr;
    154. 

  154. 				md->phys_addr = m_start;
    155. 

  155. 				md->num_pages = (m_end - m_start + 1) >>
    156. 

  156. 					EFI_PAGE_SHIFT;
    157. 

  157. 				/* last part */
    158. 

  158. 				new += memmap.desc_size;
    159. 

  159. 				memcpy(new, old, memmap.desc_size);
    160. 

  160. 				md = new;
    161. 

  161. 				md->phys_addr = m_end + 1;
    162. 

  162. 				md->num_pages = (end - m_end) >>
    163. 

  163. 					EFI_PAGE_SHIFT;
    164. 

  164. 			}
    165. 

  165. 

  166. 			if ((start < m_start && m_start < end) &&
    167. 

  167. 			    (end <= m_end)) {
    168. 

  168. 				/* first part */
    169. 

  169. 				md->num_pages = (m_start - md->phys_addr) >>
    170. 

  170. 					EFI_PAGE_SHIFT;
    171. 

  171. 				/* latter part */
    172. 

  172. 				new += memmap.desc_size;
    173. 

  173. 				memcpy(new, old, memmap.desc_size);
    174. 

  174. 				md = new;
    175. 

  175. 				md->phys_addr = m_start;
    176. 

  176. 				md->num_pages = (end - md->phys_addr + 1) >>
    177. 

  177. 					EFI_PAGE_SHIFT;
    178. 

  178. 				md->attribute |= m_attr;
    179. 

  179. 			}
    180. 

  180. 		}
    181. 

  181. 	}
    182. 

  182. 

  183. 	/* swap into new EFI memmap */
    184. 

  184. 	efi_unmap_memmap();
    185. 

  185. 	memmap.map = new_memmap;
    186. 

  186. 	memmap.phys_map = new_memmap_phy;
    187. 

  187. 	memmap.nr_map = new_nr_map;
    188. 

  188. 	memmap.map_end = memmap.map + memmap.nr_map * memmap.desc_size;
    189. 

  189. 	set_bit(EFI_MEMMAP, &efi.flags);
    190. 

  190. 

  191. 	/* print new EFI memmap */
    192. 

  192. 	efi_print_memmap();
    193. 

  193. }
    194. 

  194. 

  195. static int __init setup_fake_mem(char *p)
    196. 

  196. {
    197. 

  197. 	u64 start = 0, mem_size = 0, attribute = 0;
    198. 

  198. 	int i;
    199. 

  199. 

  200. 	if (!p)
    201. 

  201. 		return -EINVAL;
    202. 

  202. 

  203. 	while (*p != '\0') {
    204. 

  204. 		mem_size = memparse(p, &p);
    205. 

  205. 		if (*p == '@')
    206. 

  206. 			start = memparse(p+1, &p);
    207. 

  207. 		else
    208. 

  208. 			break;
    209. 

  209. 

  210. 		if (*p == ':')
    211. 

  211. 			attribute = simple_strtoull(p+1, &p, 0);
    212. 

  212. 		else
    213. 

  213. 			break;
    214. 

  214. 

  215. 		if (nr_fake_mem >= EFI_MAX_FAKEMEM)
    216. 

  216. 			break;
    217. 

  217. 

  218. 		fake_mems[nr_fake_mem].range.start = start;
    219. 

  219. 		fake_mems[nr_fake_mem].range.end = start + mem_size - 1;
    220. 

  220. 		fake_mems[nr_fake_mem].attribute = attribute;
    221. 

  221. 		nr_fake_mem++;
    222. 

  222. 

  223. 		if (*p == ',')
    224. 

  224. 			p++;
    225. 

  225. 	}
    226. 

  226. 

  227. 	sort(fake_mems, nr_fake_mem, sizeof(struct fake_mem),
    228. 

  228. 	     cmp_fake_mem, NULL);
    229. 

  229. 

  230. 	for (i = 0; i < nr_fake_mem; i++)
    231. 

  231. 		pr_info("efi_fake_mem: add attr=0x%016llx to [mem 0x%016llx-0x%016llx]",
    232. 

  232. 			fake_mems[i].attribute, fake_mems[i].range.start,
    233. 

  233. 			fake_mems[i].range.end);
    234. 

  234. 

  235. 	return *p == '\0' ? 0 : -EINVAL;
    236. 

  236. }
    237. 

  237. 

  238. early_param("efi_fake_mem", setup_fake_mem);
    239.