mm.py 20 KB

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  1. # SPDX-License-Identifier: GPL-2.0
  2. #
  3. # Copyright (c) 2023 MediaTek Inc.
  4. #
  5. # Authors:
  6. # Kuan-Ying Lee <Kuan-Ying.Lee@mediatek.com>
  7. #
  8. import gdb
  9. import math
  10. from linux import utils, constants
  11. def DIV_ROUND_UP(n,d):
  12. return ((n) + (d) - 1) // (d)
  13. def test_bit(nr, addr):
  14. if addr.dereference() & (0x1 << nr):
  15. return True
  16. else:
  17. return False
  18. class page_ops():
  19. ops = None
  20. def __init__(self):
  21. if not constants.LX_CONFIG_SPARSEMEM_VMEMMAP:
  22. raise gdb.GdbError('Only support CONFIG_SPARSEMEM_VMEMMAP now')
  23. if constants.LX_CONFIG_ARM64 and utils.is_target_arch('aarch64'):
  24. self.ops = aarch64_page_ops()
  25. elif utils.is_target_arch('x86_64') or utils.is_target_arch('x86-64'):
  26. self.ops = x86_page_ops()
  27. else:
  28. raise gdb.GdbError('Only support aarch64 and x86_64 now')
  29. class x86_page_ops():
  30. def __init__(self):
  31. self.struct_page_size = utils.get_page_type().sizeof
  32. self.PAGE_SHIFT = constants.LX_CONFIG_PAGE_SHIFT
  33. self.PAGE_SIZE = 1 << self.PAGE_SHIFT
  34. self.PAGE_MASK = (~(self.PAGE_SIZE - 1)) & ((1 << 64) - 1)
  35. self.PAGE_OFFSET = int(gdb.parse_and_eval("page_offset_base"))
  36. self.VMEMMAP_START = int(gdb.parse_and_eval("vmemmap_base"))
  37. self.PHYS_BASE = int(gdb.parse_and_eval("phys_base"))
  38. self.START_KERNEL_map = 0xffffffff80000000
  39. self.KERNEL_START = gdb.parse_and_eval("_text")
  40. self.KERNEL_END = gdb.parse_and_eval("_end")
  41. self.VMALLOC_START = int(gdb.parse_and_eval("vmalloc_base"))
  42. if self.VMALLOC_START == 0xffffc90000000000:
  43. self.VMALLOC_END = self.VMALLOC_START + (32 * 1024 * 1024 * 1024 * 1024) - 1
  44. elif self.VMALLOC_START == 0xffa0000000000000:
  45. self.VMALLOC_END = self.VMALLOC_START + (12800 * 1024 * 1024 * 1024 * 1024) - 1
  46. else:
  47. self.VMALLOC_END = self.VMALLOC_START + (12800 * 1024 * 1024 * 1024 * 1024) - 1
  48. self.MAX_PHYSMEM_BITS = 46
  49. self.SECTION_SIZE_BITS = 27
  50. self.MAX_ORDER = 10
  51. self.SECTIONS_SHIFT = self.MAX_PHYSMEM_BITS - self.SECTION_SIZE_BITS
  52. self.NR_MEM_SECTIONS = 1 << self.SECTIONS_SHIFT
  53. self.PFN_SECTION_SHIFT = self.SECTION_SIZE_BITS - self.PAGE_SHIFT
  54. self.PAGES_PER_SECTION = 1 << self.PFN_SECTION_SHIFT
  55. self.PAGE_SECTION_MASK = (~(self.PAGES_PER_SECTION - 1)) & ((1 << 64) - 1)
  56. if constants.LX_CONFIG_SPARSEMEM_EXTREME:
  57. self.SECTIONS_PER_ROOT = self.PAGE_SIZE // gdb.lookup_type("struct mem_section").sizeof
  58. else:
  59. self.SECTIONS_PER_ROOT = 1
  60. self.NR_SECTION_ROOTS = DIV_ROUND_UP(self.NR_MEM_SECTIONS, self.SECTIONS_PER_ROOT)
  61. self.SECTION_ROOT_MASK = self.SECTIONS_PER_ROOT - 1
  62. try:
  63. self.SECTION_HAS_MEM_MAP = 1 << int(gdb.parse_and_eval('SECTION_HAS_MEM_MAP_BIT'))
  64. self.SECTION_IS_EARLY = 1 << int(gdb.parse_and_eval('SECTION_IS_EARLY_BIT'))
  65. except:
  66. self.SECTION_HAS_MEM_MAP = 1 << 0
  67. self.SECTION_IS_EARLY = 1 << 3
  68. self.SUBSECTION_SHIFT = 21
  69. self.PAGES_PER_SUBSECTION = 1 << (self.SUBSECTION_SHIFT - self.PAGE_SHIFT)
  70. if constants.LX_CONFIG_NUMA and constants.LX_CONFIG_NODES_SHIFT:
  71. self.NODE_SHIFT = constants.LX_CONFIG_NODES_SHIFT
  72. else:
  73. self.NODE_SHIFT = 0
  74. self.MAX_NUMNODES = 1 << self.NODE_SHIFT
  75. self.vmemmap = gdb.Value(self.VMEMMAP_START).cast(utils.get_page_type().pointer())
  76. def kasan_reset_tag(self, addr):
  77. return addr
  78. def SECTION_NR_TO_ROOT(self, sec):
  79. return sec // self.SECTIONS_PER_ROOT
  80. def __nr_to_section(self, nr):
  81. root = self.SECTION_NR_TO_ROOT(nr)
  82. mem_section = gdb.parse_and_eval("mem_section")
  83. return mem_section[root][nr & self.SECTION_ROOT_MASK]
  84. def pfn_to_section_nr(self, pfn):
  85. return pfn >> self.PFN_SECTION_SHIFT
  86. def section_nr_to_pfn(self, sec):
  87. return sec << self.PFN_SECTION_SHIFT
  88. def __pfn_to_section(self, pfn):
  89. return self.__nr_to_section(self.pfn_to_section_nr(pfn))
  90. def pfn_to_section(self, pfn):
  91. return self.__pfn_to_section(pfn)
  92. def subsection_map_index(self, pfn):
  93. return (pfn & ~(self.PAGE_SECTION_MASK)) // self.PAGES_PER_SUBSECTION
  94. def pfn_section_valid(self, ms, pfn):
  95. if constants.LX_CONFIG_SPARSEMEM_VMEMMAP:
  96. idx = self.subsection_map_index(pfn)
  97. return test_bit(idx, ms['usage']['subsection_map'])
  98. else:
  99. return True
  100. def valid_section(self, mem_section):
  101. if mem_section != None and (mem_section['section_mem_map'] & self.SECTION_HAS_MEM_MAP):
  102. return True
  103. return False
  104. def early_section(self, mem_section):
  105. if mem_section != None and (mem_section['section_mem_map'] & self.SECTION_IS_EARLY):
  106. return True
  107. return False
  108. def pfn_valid(self, pfn):
  109. ms = None
  110. if self.PHYS_PFN(self.PFN_PHYS(pfn)) != pfn:
  111. return False
  112. if self.pfn_to_section_nr(pfn) >= self.NR_MEM_SECTIONS:
  113. return False
  114. ms = self.__pfn_to_section(pfn)
  115. if not self.valid_section(ms):
  116. return False
  117. return self.early_section(ms) or self.pfn_section_valid(ms, pfn)
  118. def PFN_PHYS(self, pfn):
  119. return pfn << self.PAGE_SHIFT
  120. def PHYS_PFN(self, phys):
  121. return phys >> self.PAGE_SHIFT
  122. def __phys_to_virt(self, pa):
  123. return pa + self.PAGE_OFFSET
  124. def __virt_to_phys(self, va):
  125. if va >= self.START_KERNEL_map:
  126. return va - self.START_KERNEL_map + self.PHYS_BASE
  127. else:
  128. return va - self.PAGE_OFFSET
  129. def virt_to_phys(self, va):
  130. return self.__virt_to_phys(va)
  131. def virt_to_page(self, va):
  132. return self.pfn_to_page(self.virt_to_pfn(va))
  133. def __pa(self, va):
  134. return self.__virt_to_phys(va)
  135. def __va(self, pa):
  136. return self.__phys_to_virt(pa)
  137. def pfn_to_kaddr(self, pfn):
  138. return self.__va(pfn << self.PAGE_SHIFT)
  139. def virt_to_pfn(self, va):
  140. return self.PHYS_PFN(self.__virt_to_phys(va))
  141. def sym_to_pfn(self, x):
  142. return self.PHYS_PFN(self.__virt_to_phys(x))
  143. def page_to_pfn(self, page):
  144. return int(page.cast(utils.get_page_type().pointer()) - self.vmemmap)
  145. def pfn_to_page(self, pfn):
  146. return self.vmemmap + pfn
  147. def page_to_phys(self, page):
  148. return self.PFN_PHYS(self.page_to_pfn(page))
  149. def page_to_virt(self, page):
  150. return self.__va(self.page_to_phys(page))
  151. def page_address(self, page):
  152. return self.page_to_virt(page)
  153. def folio_address(self, folio):
  154. return self.page_address(folio['page'].address)
  155. class aarch64_page_ops():
  156. def __init__(self):
  157. self.SUBSECTION_SHIFT = 21
  158. self.SEBSECTION_SIZE = 1 << self.SUBSECTION_SHIFT
  159. self.MODULES_VSIZE = 2 * 1024 * 1024 * 1024
  160. if constants.LX_CONFIG_ARM64_64K_PAGES:
  161. self.SECTION_SIZE_BITS = 29
  162. else:
  163. self.SECTION_SIZE_BITS = 27
  164. self.MAX_PHYSMEM_BITS = constants.LX_CONFIG_ARM64_VA_BITS
  165. self.PAGE_SHIFT = constants.LX_CONFIG_PAGE_SHIFT
  166. self.PAGE_SIZE = 1 << self.PAGE_SHIFT
  167. self.PAGE_MASK = (~(self.PAGE_SIZE - 1)) & ((1 << 64) - 1)
  168. self.VA_BITS = constants.LX_CONFIG_ARM64_VA_BITS
  169. if self.VA_BITS > 48:
  170. if constants.LX_CONFIG_ARM64_16K_PAGES:
  171. self.VA_BITS_MIN = 47
  172. else:
  173. self.VA_BITS_MIN = 48
  174. tcr_el1 = gdb.execute("info registers $TCR_EL1", to_string=True)
  175. tcr_el1 = int(tcr_el1.split()[1], 16)
  176. self.vabits_actual = 64 - ((tcr_el1 >> 16) & 63)
  177. else:
  178. self.VA_BITS_MIN = self.VA_BITS
  179. self.vabits_actual = self.VA_BITS
  180. self.kimage_voffset = gdb.parse_and_eval('kimage_voffset') & ((1 << 64) - 1)
  181. self.SECTIONS_SHIFT = self.MAX_PHYSMEM_BITS - self.SECTION_SIZE_BITS
  182. if str(constants.LX_CONFIG_ARCH_FORCE_MAX_ORDER).isdigit():
  183. self.MAX_ORDER = constants.LX_CONFIG_ARCH_FORCE_MAX_ORDER
  184. else:
  185. self.MAX_ORDER = 10
  186. self.MAX_ORDER_NR_PAGES = 1 << (self.MAX_ORDER)
  187. self.PFN_SECTION_SHIFT = self.SECTION_SIZE_BITS - self.PAGE_SHIFT
  188. self.NR_MEM_SECTIONS = 1 << self.SECTIONS_SHIFT
  189. self.PAGES_PER_SECTION = 1 << self.PFN_SECTION_SHIFT
  190. self.PAGE_SECTION_MASK = (~(self.PAGES_PER_SECTION - 1)) & ((1 << 64) - 1)
  191. if constants.LX_CONFIG_SPARSEMEM_EXTREME:
  192. self.SECTIONS_PER_ROOT = self.PAGE_SIZE // gdb.lookup_type("struct mem_section").sizeof
  193. else:
  194. self.SECTIONS_PER_ROOT = 1
  195. self.NR_SECTION_ROOTS = DIV_ROUND_UP(self.NR_MEM_SECTIONS, self.SECTIONS_PER_ROOT)
  196. self.SECTION_ROOT_MASK = self.SECTIONS_PER_ROOT - 1
  197. self.SUBSECTION_SHIFT = 21
  198. self.SEBSECTION_SIZE = 1 << self.SUBSECTION_SHIFT
  199. self.PFN_SUBSECTION_SHIFT = self.SUBSECTION_SHIFT - self.PAGE_SHIFT
  200. self.PAGES_PER_SUBSECTION = 1 << self.PFN_SUBSECTION_SHIFT
  201. self.SECTION_HAS_MEM_MAP = 1 << int(gdb.parse_and_eval('SECTION_HAS_MEM_MAP_BIT'))
  202. self.SECTION_IS_EARLY = 1 << int(gdb.parse_and_eval('SECTION_IS_EARLY_BIT'))
  203. self.struct_page_size = utils.get_page_type().sizeof
  204. self.STRUCT_PAGE_MAX_SHIFT = (int)(math.log(self.struct_page_size, 2))
  205. self.PAGE_OFFSET = self._PAGE_OFFSET(self.VA_BITS)
  206. self.MODULES_VADDR = self._PAGE_END(self.VA_BITS_MIN)
  207. self.MODULES_END = self.MODULES_VADDR + self.MODULES_VSIZE
  208. self.VMEMMAP_RANGE = self._PAGE_END(self.VA_BITS_MIN) - self.PAGE_OFFSET
  209. self.VMEMMAP_SIZE = (self.VMEMMAP_RANGE >> self.PAGE_SHIFT) * self.struct_page_size
  210. self.VMEMMAP_END = (-(1 * 1024 * 1024 * 1024)) & 0xffffffffffffffff
  211. self.VMEMMAP_START = self.VMEMMAP_END - self.VMEMMAP_SIZE
  212. self.VMALLOC_START = self.MODULES_END
  213. self.VMALLOC_END = self.VMEMMAP_START - 256 * 1024 * 1024
  214. self.memstart_addr = gdb.parse_and_eval("memstart_addr")
  215. self.PHYS_OFFSET = self.memstart_addr
  216. self.vmemmap = gdb.Value(self.VMEMMAP_START).cast(utils.get_page_type().pointer()) - (self.memstart_addr >> self.PAGE_SHIFT)
  217. self.KERNEL_START = gdb.parse_and_eval("_text")
  218. self.KERNEL_END = gdb.parse_and_eval("_end")
  219. if constants.LX_CONFIG_KASAN_GENERIC or constants.LX_CONFIG_KASAN_SW_TAGS:
  220. if constants.LX_CONFIG_KASAN_GENERIC:
  221. self.KASAN_SHADOW_SCALE_SHIFT = 3
  222. else:
  223. self.KASAN_SHADOW_SCALE_SHIFT = 4
  224. self.KASAN_SHADOW_OFFSET = constants.LX_CONFIG_KASAN_SHADOW_OFFSET
  225. self.KASAN_SHADOW_END = (1 << (64 - self.KASAN_SHADOW_SCALE_SHIFT)) + self.KASAN_SHADOW_OFFSET
  226. self.PAGE_END = self.KASAN_SHADOW_END - (1 << (self.vabits_actual - self.KASAN_SHADOW_SCALE_SHIFT))
  227. else:
  228. self.PAGE_END = self._PAGE_END(self.VA_BITS_MIN)
  229. if constants.LX_CONFIG_NUMA and constants.LX_CONFIG_NODES_SHIFT:
  230. self.NODE_SHIFT = constants.LX_CONFIG_NODES_SHIFT
  231. else:
  232. self.NODE_SHIFT = 0
  233. self.MAX_NUMNODES = 1 << self.NODE_SHIFT
  234. def SECTION_NR_TO_ROOT(self, sec):
  235. return sec // self.SECTIONS_PER_ROOT
  236. def __nr_to_section(self, nr):
  237. root = self.SECTION_NR_TO_ROOT(nr)
  238. mem_section = gdb.parse_and_eval("mem_section")
  239. return mem_section[root][nr & self.SECTION_ROOT_MASK]
  240. def pfn_to_section_nr(self, pfn):
  241. return pfn >> self.PFN_SECTION_SHIFT
  242. def section_nr_to_pfn(self, sec):
  243. return sec << self.PFN_SECTION_SHIFT
  244. def __pfn_to_section(self, pfn):
  245. return self.__nr_to_section(self.pfn_to_section_nr(pfn))
  246. def pfn_to_section(self, pfn):
  247. return self.__pfn_to_section(pfn)
  248. def subsection_map_index(self, pfn):
  249. return (pfn & ~(self.PAGE_SECTION_MASK)) // self.PAGES_PER_SUBSECTION
  250. def pfn_section_valid(self, ms, pfn):
  251. if constants.LX_CONFIG_SPARSEMEM_VMEMMAP:
  252. idx = self.subsection_map_index(pfn)
  253. return test_bit(idx, ms['usage']['subsection_map'])
  254. else:
  255. return True
  256. def valid_section(self, mem_section):
  257. if mem_section != None and (mem_section['section_mem_map'] & self.SECTION_HAS_MEM_MAP):
  258. return True
  259. return False
  260. def early_section(self, mem_section):
  261. if mem_section != None and (mem_section['section_mem_map'] & self.SECTION_IS_EARLY):
  262. return True
  263. return False
  264. def pfn_valid(self, pfn):
  265. ms = None
  266. if self.PHYS_PFN(self.PFN_PHYS(pfn)) != pfn:
  267. return False
  268. if self.pfn_to_section_nr(pfn) >= self.NR_MEM_SECTIONS:
  269. return False
  270. ms = self.__pfn_to_section(pfn)
  271. if not self.valid_section(ms):
  272. return False
  273. return self.early_section(ms) or self.pfn_section_valid(ms, pfn)
  274. def _PAGE_OFFSET(self, va):
  275. return (-(1 << (va))) & 0xffffffffffffffff
  276. def _PAGE_END(self, va):
  277. return (-(1 << (va - 1))) & 0xffffffffffffffff
  278. def kasan_reset_tag(self, addr):
  279. if constants.LX_CONFIG_KASAN_SW_TAGS or constants.LX_CONFIG_KASAN_HW_TAGS:
  280. return int(addr) | (0xff << 56)
  281. else:
  282. return addr
  283. def __is_lm_address(self, addr):
  284. if (addr - self.PAGE_OFFSET) < (self.PAGE_END - self.PAGE_OFFSET):
  285. return True
  286. else:
  287. return False
  288. def __lm_to_phys(self, addr):
  289. return addr - self.PAGE_OFFSET + self.PHYS_OFFSET
  290. def __kimg_to_phys(self, addr):
  291. return addr - self.kimage_voffset
  292. def __virt_to_phys_nodebug(self, va):
  293. untagged_va = self.kasan_reset_tag(va)
  294. if self.__is_lm_address(untagged_va):
  295. return self.__lm_to_phys(untagged_va)
  296. else:
  297. return self.__kimg_to_phys(untagged_va)
  298. def __virt_to_phys(self, va):
  299. if constants.LX_CONFIG_DEBUG_VIRTUAL:
  300. if not self.__is_lm_address(self.kasan_reset_tag(va)):
  301. raise gdb.GdbError("Warning: virt_to_phys used for non-linear address: 0x%lx\n" % va)
  302. return self.__virt_to_phys_nodebug(va)
  303. def virt_to_phys(self, va):
  304. return self.__virt_to_phys(va)
  305. def PFN_PHYS(self, pfn):
  306. return pfn << self.PAGE_SHIFT
  307. def PHYS_PFN(self, phys):
  308. return phys >> self.PAGE_SHIFT
  309. def __phys_to_virt(self, pa):
  310. return (pa - self.PHYS_OFFSET) | self.PAGE_OFFSET
  311. def __phys_to_pfn(self, pa):
  312. return self.PHYS_PFN(pa)
  313. def __pfn_to_phys(self, pfn):
  314. return self.PFN_PHYS(pfn)
  315. def __pa_symbol_nodebug(self, x):
  316. return self.__kimg_to_phys(x)
  317. def __phys_addr_symbol(self, x):
  318. if constants.LX_CONFIG_DEBUG_VIRTUAL:
  319. if x < self.KERNEL_START or x > self.KERNEL_END:
  320. raise gdb.GdbError("0x%x exceed kernel range" % x)
  321. return self.__pa_symbol_nodebug(x)
  322. def __pa_symbol(self, x):
  323. return self.__phys_addr_symbol(x)
  324. def __va(self, pa):
  325. return self.__phys_to_virt(pa)
  326. def pfn_to_kaddr(self, pfn):
  327. return self.__va(pfn << self.PAGE_SHIFT)
  328. def virt_to_pfn(self, va):
  329. return self.__phys_to_pfn(self.__virt_to_phys(va))
  330. def sym_to_pfn(self, x):
  331. return self.__phys_to_pfn(self.__pa_symbol(x))
  332. def page_to_pfn(self, page):
  333. return int(page.cast(utils.get_page_type().pointer()) - self.vmemmap.cast(utils.get_page_type().pointer()))
  334. def page_to_phys(self, page):
  335. return self.__pfn_to_phys(self.page_to_pfn(page))
  336. def pfn_to_page(self, pfn):
  337. return (self.vmemmap + pfn).cast(utils.get_page_type().pointer())
  338. def page_to_virt(self, page):
  339. if constants.LX_CONFIG_DEBUG_VIRTUAL:
  340. return self.__va(self.page_to_phys(page))
  341. else:
  342. __idx = int((page.cast(gdb.lookup_type("unsigned long")) - self.VMEMMAP_START).cast(utils.get_ulong_type())) // self.struct_page_size
  343. return self.PAGE_OFFSET + (__idx * self.PAGE_SIZE)
  344. def virt_to_page(self, va):
  345. if constants.LX_CONFIG_DEBUG_VIRTUAL:
  346. return self.pfn_to_page(self.virt_to_pfn(va))
  347. else:
  348. __idx = int(self.kasan_reset_tag(va) - self.PAGE_OFFSET) // self.PAGE_SIZE
  349. addr = self.VMEMMAP_START + (__idx * self.struct_page_size)
  350. return gdb.Value(addr).cast(utils.get_page_type().pointer())
  351. def page_address(self, page):
  352. return self.page_to_virt(page)
  353. def folio_address(self, folio):
  354. return self.page_address(folio['page'].address)
  355. class LxPFN2Page(gdb.Command):
  356. """PFN to struct page"""
  357. def __init__(self):
  358. super(LxPFN2Page, self).__init__("lx-pfn_to_page", gdb.COMMAND_USER)
  359. def invoke(self, arg, from_tty):
  360. argv = gdb.string_to_argv(arg)
  361. pfn = int(argv[0])
  362. page = page_ops().ops.pfn_to_page(pfn)
  363. gdb.write("pfn_to_page(0x%x) = 0x%x\n" % (pfn, page))
  364. LxPFN2Page()
  365. class LxPage2PFN(gdb.Command):
  366. """struct page to PFN"""
  367. def __init__(self):
  368. super(LxPage2PFN, self).__init__("lx-page_to_pfn", gdb.COMMAND_USER)
  369. def invoke(self, arg, from_tty):
  370. argv = gdb.string_to_argv(arg)
  371. struct_page_addr = int(argv[0], 16)
  372. page = gdb.Value(struct_page_addr).cast(utils.get_page_type().pointer())
  373. pfn = page_ops().ops.page_to_pfn(page)
  374. gdb.write("page_to_pfn(0x%x) = 0x%x\n" % (page, pfn))
  375. LxPage2PFN()
  376. class LxPageAddress(gdb.Command):
  377. """struct page to linear mapping address"""
  378. def __init__(self):
  379. super(LxPageAddress, self).__init__("lx-page_address", gdb.COMMAND_USER)
  380. def invoke(self, arg, from_tty):
  381. argv = gdb.string_to_argv(arg)
  382. struct_page_addr = int(argv[0], 16)
  383. page = gdb.Value(struct_page_addr).cast(utils.get_page_type().pointer())
  384. addr = page_ops().ops.page_address(page)
  385. gdb.write("page_address(0x%x) = 0x%x\n" % (page, addr))
  386. LxPageAddress()
  387. class LxPage2Phys(gdb.Command):
  388. """struct page to physical address"""
  389. def __init__(self):
  390. super(LxPage2Phys, self).__init__("lx-page_to_phys", gdb.COMMAND_USER)
  391. def invoke(self, arg, from_tty):
  392. argv = gdb.string_to_argv(arg)
  393. struct_page_addr = int(argv[0], 16)
  394. page = gdb.Value(struct_page_addr).cast(utils.get_page_type().pointer())
  395. phys_addr = page_ops().ops.page_to_phys(page)
  396. gdb.write("page_to_phys(0x%x) = 0x%x\n" % (page, phys_addr))
  397. LxPage2Phys()
  398. class LxVirt2Phys(gdb.Command):
  399. """virtual address to physical address"""
  400. def __init__(self):
  401. super(LxVirt2Phys, self).__init__("lx-virt_to_phys", gdb.COMMAND_USER)
  402. def invoke(self, arg, from_tty):
  403. argv = gdb.string_to_argv(arg)
  404. linear_addr = int(argv[0], 16)
  405. phys_addr = page_ops().ops.virt_to_phys(linear_addr)
  406. gdb.write("virt_to_phys(0x%x) = 0x%x\n" % (linear_addr, phys_addr))
  407. LxVirt2Phys()
  408. class LxVirt2Page(gdb.Command):
  409. """virtual address to struct page"""
  410. def __init__(self):
  411. super(LxVirt2Page, self).__init__("lx-virt_to_page", gdb.COMMAND_USER)
  412. def invoke(self, arg, from_tty):
  413. argv = gdb.string_to_argv(arg)
  414. linear_addr = int(argv[0], 16)
  415. page = page_ops().ops.virt_to_page(linear_addr)
  416. gdb.write("virt_to_page(0x%x) = 0x%x\n" % (linear_addr, page))
  417. LxVirt2Page()
  418. class LxSym2PFN(gdb.Command):
  419. """symbol address to PFN"""
  420. def __init__(self):
  421. super(LxSym2PFN, self).__init__("lx-sym_to_pfn", gdb.COMMAND_USER)
  422. def invoke(self, arg, from_tty):
  423. argv = gdb.string_to_argv(arg)
  424. sym_addr = int(argv[0], 16)
  425. pfn = page_ops().ops.sym_to_pfn(sym_addr)
  426. gdb.write("sym_to_pfn(0x%x) = %d\n" % (sym_addr, pfn))
  427. LxSym2PFN()
  428. class LxPFN2Kaddr(gdb.Command):
  429. """PFN to kernel address"""
  430. def __init__(self):
  431. super(LxPFN2Kaddr, self).__init__("lx-pfn_to_kaddr", gdb.COMMAND_USER)
  432. def invoke(self, arg, from_tty):
  433. argv = gdb.string_to_argv(arg)
  434. pfn = int(argv[0])
  435. kaddr = page_ops().ops.pfn_to_kaddr(pfn)
  436. gdb.write("pfn_to_kaddr(%d) = 0x%x\n" % (pfn, kaddr))
  437. LxPFN2Kaddr()