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  1. ChromeOS Device Firmware Utility Script [2024-07-23]
  2. (c) Mr Chromebox <[email protected]>
  3. ** Device: Lenovo IdeaPad Flex 5i Chromebook
  4. ** Board Name: LILLIPUP
  5. ** Platform: Intel TigerLake
  6. ** Fw Type: Full ROM / UEFI (pending reboot)
  7. ** Fw Ver: MrChromebox-2405.0 (06/15/2024)
  8. ** Fw WP: Disabled
  9. *********************************************************
  10. ** [WP] 1) Install/Update UEFI (Full ROM) Firmware
  11. ** [WP] 2) Restore Stock Firmware
  12. ** C) Clear UEFI NVRAM
  13. *********************************************************
  14. Select a numeric menu option or
  15. R to reboot P to poweroff Q to quit
  16. 2
  17.  
  18. Restore Stock Firmware
  19.  
  20. Standard disclaimer: flashing the firmware has the potential to
  21. brick your device, requiring relatively inexpensive hardware and some
  22. technical knowledge to recover. You have been warned.
  23.  
  24. Do you wish to continue? [y/N] y
  25.  
  26.  
  27. Please select an option below for restoring the stock firmware:
  28.  
  29. 1) Restore using a shellball image (downloaded) [if available]
  30. 2) Restore using a firmware backup on USB
  31. 3) Restore using a ChromeOS Recovery USB
  32. Q) Quit and return to main menu
  33.  
  34. ? 2
  35.  
  36. Connect the USB/SD device which contains the backed-up stock firmware and press [Enter] to continue.
  37.  
  38. Devices available:
  39.  
  40. 1) SanDisk Cruzer_Blade (14.59 GB)
  41.  
  42. Enter the number for the device which contains the stock firmware backup: 1
  43.  
  44. (Potential) Firmware Files on USB:
  45.  
  46. rwl_altfw_tgl-mrchromebox_20210827.bin
  47. rwl_altfw_tgl-mrchromebox_20240729.bin
  48.  
  49. Enter the firmware filename: rwl_altfw_tgl-mrchromebox_20240729.bin
  50.  
  51. Restoring stock firmware
  52.  
  53. flashrom MrChromebox-1.4.0-devel_2024.04.18 (git:v1.2-1418-ge5ed0c6340) on Linux 6.1.0-22-amd64 (x86_64)
  54. flashrom was built with GCC 11.4.0, little endian
  55. Command line (10 args): /tmp/flashrom -p internal:boardmismatch=force --ifd -i bios -N -w /tmp/usb/rwl_altfw_tgl-mrchromebox_20240729.bin -o /tmp/flashrom.log
  56. Using clock_gettime for delay loops (clk_id: 1, resolution: 1ns).
  57. Initializing internal programmer
  58. Found candidate at: 00000500-00000528
  59. Found coreboot table at 0x00000500.
  60. Found candidate at: 00000000-0000058c
  61. Found coreboot table at 0x00000000.
  62. coreboot table found at 0x76a39000.
  63. coreboot header(24) checksum: 0e17 table(1396) checksum: 5a9b entries: 44
  64. Vendor ID: Google, part ID: Lindar
  65. Using Internal DMI decoder.
  66. DMI string chassis-type: "Desktop"
  67. DMI string system-manufacturer: "Google"
  68. DMI string system-product-name: "Lillipup"
  69. DMI string system-version: "rev3"
  70. DMI string baseboard-manufacturer: "Google"
  71. DMI string baseboard-product-name: "Lillipup"
  72. DMI string baseboard-version: "rev3"
  73. Found chipset "Intel Tiger Lake U Premium" with PCI ID 8086:a082.
  74. Enabling flash write... BIOS_SPI_BC = 0x1900008b: BIOS Interface Lock-Down: enabled, Boot BIOS Straps: 0x0 (SPI)
  75. Top Swap: not enabled
  76. SPI Read Configuration: prefetching enabled, caching enabled,
  77. BIOS_CNTL = 0x8b: BIOS Lock Enable: enabled, BIOS Write Enable: enabled
  78. Warning: Setting BIOS Control at 0xdc from 0x8b to 0x89 failed.
  79. New value is 0x8b.
  80. SPIBAR = 0x00007f4aa0842000 (phys = 0xfe010000)
  81. 0x04: 0xf800 (HSFS)
  82. HSFS: FDONE=0, FCERR=0, AEL=0, SCIP=0, PRR34_LOCKDN=1, WRSDIS=1, FDOPSS=1, FDV=1, FLOCKDN=1
  83. SPI Configuration is locked down.
  84. Reading OPCODES... done
  85. OP Type Pre-OP
  86. op[0]: 0x01, write w/o addr, none
  87. op[1]: 0x02, write w/ addr, none
  88. op[2]: 0x03, read w/ addr, none
  89. op[3]: 0x05, read w/o addr, none
  90. op[4]: 0x20, write w/ addr, none
  91. op[5]: 0x9f, read w/o addr, none
  92. op[6]: 0xd8, write w/ addr, none
  93. op[7]: 0x0b, read w/ addr, none
  94. Pre-OP 0: 0x06, Pre-OP 1: 0x50
  95. 0x06: 0x3f00 (HSFC)
  96. HSFC: FGO=0, FCYCLE=0, WET=0, FDBC=63, SME=0
  97. 0x08: 0x00000fc0 (FADDR)
  98. 0x0c: 0x00001f00 (DLOCK)
  99. DLOCK: BMWAG_LOCKDN=0, BMRAG_LOCKDN=0, SBMWAG_LOCKDN=0, SBMRAG_LOCKDN=0,
  100. PR0_LOCKDN=1, PR1_LOCKDN=1, PR2_LOCKDN=1, PR3_LOCKDN=1, PR4_LOCKDN=1,
  101. SSEQ_LOCKDN=0
  102. 0x50: 0x000042c7 (FRAP)
  103. BMWAG 0x00, BMRAG 0x00, BRWA 0x42, BRRA 0xc7
  104. 0x54: 0x00000000 FREG0: Flash Descriptor region (0x00000000-0x00000fff) is read-only.
  105. 0x58: 0x1fff0500 FREG1: BIOS region (0x00500000-0x01ffffff) is read-write.
  106. 0x5C: 0x04ff0001 FREG2: Management Engine region (0x00001000-0x004fffff) is read-only.
  107. 0x60: 0x00007fff FREG3: Gigabit Ethernet region is unused.
  108. 0x64: 0x00007fff FREG4: Platform Data region is unused.
  109. 0x68: 0x00007fff FREG5: Device Expansion region is unused.
  110. 0x6C: 0x00007fff FREG6: BIOS2 region is unused.
  111. 0x70: 0x00007fff FREG7: unknown region is unused.
  112. 0x74: 0x00007fff FREG8: EC/BMC region is unused.
  113. 0x78: 0x00007fff FREG9: unknown region is unused.
  114. 0x7C: 0x00007fff FREG10: unknown region is unused.
  115. 0x80: 0x00007fff FREG11: unknown region is unused.
  116. 0xE0: 0x00007fff FREG12: unknown region is unused.
  117. 0xE4: 0x00007fff FREG13: unknown region is unused.
  118. 0xE8: 0x00007fff FREG14: unknown region is unused.
  119. 0xEC: 0x00007fff FREG15: unknown region is unused.
  120. Not all flash regions are freely accessible by flashrom. This is most likely
  121. due to an active ME. Please see https://flashrom.org/ME for details.
  122. 0x84: 0x00000000 (PR0 is unused)
  123. 0x88: 0x00000000 (PR1 is unused)
  124. 0x8C: 0x00000000 (PR2 is unused)
  125. 0x90: 0x00000000 (PR3 is unused)
  126. 0x94: 0x00000000 (PR4 is unused)
  127. 0x98: 0x00000000 (GPR0 is unused)
  128. At least some flash regions are write protected. For write operations,
  129. you should use a flash layout and include only writable regions. See
  130. manpage for more details.
  131. 0xa0: 0x80 (SSFS)
  132. SSFS: SCIP=0, FDONE=0, FCERR=0, AEL=0
  133. 0xa1: 0xfe0000 (SSFC)
  134. SSFC: SCGO=0, ACS=0, SPOP=0, COP=0, DBC=0, SME=0, SCF=6
  135. 0xa4: 0x5006 (PREOP)
  136. 0xa6: 0xb32d (OPTYPE)
  137. 0xa8: 0x05030201 (OPMENU)
  138. 0xac: 0x0bd89f20 (OPMENU+4)
  139. 0xc4: 0xf1d82084 (LVSCC)
  140. LVSCC: BES=0x0, WG=1, WSR=0, WEWS=0, EO=0x20, VCL=1
  141. 0xc8: 0x00002000 (UVSCC)
  142. UVSCC: BES=0x0, WG=0, WSR=0, WEWS=0, EO=0x20
  143. Reading flash descriptors mapped by the chipset via FDOC/FDOD... done.
  144. === Content Section ===
  145. FLVALSIG 0x0ff0a55a
  146. FLMAP0 0x00040003
  147. FLMAP1 0x46100208
  148. FLMAP2 0x001101a0
  149.  
  150. --- Details ---
  151. NR (Number of Regions): 16
  152. FRBA (Flash Region Base Address): 0x040
  153. NC (Number of Components): 1
  154. FCBA (Flash Component Base Address): 0x030
  155. ISL (ICH/PCH/SoC Strap Length): 70
  156. FISBA/FPSBA (Flash ICH/PCH/SoC Strap Base Addr): 0x100
  157. NM (Number of Masters): 3
  158. FMBA (Flash Master Base Address): 0x080
  159. MSL/PSL (MCH/PROC Strap Length): 1
  160. FMSBA (Flash MCH/PROC Strap Base Address): 0xa00
  161.  
  162. === Component Section ===
  163. FLCOMP 0x093030f6
  164. FLILL 0xad604221
  165. FLILL1 0xc7c4b9b7
  166.  
  167. --- Details ---
  168. Component 1 density: 32 MB
  169. Component 2 is not used.
  170. Read Clock Frequency: reserved
  171. Read ID and Status Clock Freq.: 50 MHz
  172. Write and Erase Clock Freq.: 50 MHz
  173. Fast Read is supported.
  174. Fast Read Clock Frequency: 50 MHz
  175. Dual Output Fast Read Support: disabled
  176. Invalid instruction 0: 0x21
  177. Invalid instruction 1: 0x42
  178. Invalid instruction 2: 0x60
  179. Invalid instruction 3: 0xad
  180. Invalid instruction 4: 0xb7
  181. Invalid instruction 5: 0xb9
  182. Invalid instruction 6: 0xc4
  183. Invalid instruction 7: 0xc7
  184.  
  185. === Region Section ===
  186. FLREG0 0x00000000
  187. FLREG1 0x1fff0500
  188. FLREG2 0x04ff0001
  189. FLREG3 0x00007fff
  190. FLREG4 0x00007fff
  191. FLREG5 0x00007fff
  192. FLREG6 0x00007fff
  193. FLREG7 0x00007fff
  194. FLREG8 0x00007fff
  195. FLREG9 0x00007fff
  196. FLREG10 0x00007fff
  197. FLREG11 0x00007fff
  198. FLREG12 0x00007fff
  199. FLREG13 0x00007fff
  200. FLREG14 0x00007fff
  201. FLREG15 0x00007fff
  202.  
  203. --- Details ---
  204. Region 0 (Descr. ) 0x00000000 - 0x00000fff
  205. Region 1 (BIOS ) 0x00500000 - 0x01ffffff
  206. Region 2 (ME ) 0x00001000 - 0x004fffff
  207. Region 3 (GbE ) is unused.
  208. Region 4 (Platf. ) is unused.
  209. Region 5 (DevExp ) is unused.
  210. Region 6 (BIOS2 ) is unused.
  211. Region 7 (unknown) is unused.
  212. Region 8 (EC/BMC ) is unused.
  213. Region 9 (unknown) is unused.
  214. Region 10 (IE ) is unused.
  215. Region 11 (10GbE ) is unused.
  216. Region 12 (unknown) is unused.
  217. Region 13 (unknown) is unused.
  218. Region 14 (unknown) is unused.
  219. Region 15 (unknown) is unused.
  220.  
  221. === Master Section ===
  222. FLMSTR1 0x00200700
  223. FLMSTR2 0x00400500
  224. FLMSTR3 0x00000000
  225.  
  226. --- Details ---
  227. FD BIOS ME GbE Pltf Reg5 Reg6 Reg7 EC Reg9 RegA RegB RegC RegD RegE RegF
  228. BIOS r rw r
  229. ME r rw
  230. GbE
  231.  
  232. Enabling hardware sequencing by default for 100+ series PCH.
  233. OK.
  234. No board enable found matching coreboot IDs vendor="Google", model="Lindar".
  235. The following protocols are supported: Parallel, LPC, FWH, Programmer-specific.
  236. Probing for Programmer Opaque flash chip, 0 kB: Hardware sequencing reports 1 attached SPI flash chip with a density of 32768 kB.
  237. There is only one partition containing the whole address space (0x000000 - 0x1ffffff).
  238. There are 8192 erase blocks with 4096 B each.
  239. HSFC: FGO=1, FCYCLE=6, WET=0, FDBC=2, SME=0
  240. Chip identified: W25Q256JV_M
  241. Added layout entry 00000000 - 01ffffff named complete flash
  242. Found Winbond flash chip "W25Q256JV_M" (32768 kB, Programmer-specific) on internal.
  243. Probing for AMD Am29F002(N)BB, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  244. Probing for AMD Am29F002(N)BT, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  245. Probing for AMD Am29F010, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  246. Probing for AMD Am29F010A/B, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  247. Probing for AMD Am29F016D, 2048 kB: probe_jedec: id1 0xff, id2 0x97, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  248. Probing for AMD Am29F040, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  249. Probing for AMD Am29F040B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  250. Probing for AMD Am29F080, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  251. Probing for AMD Am29F080B, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  252. Probing for AMD Am29LV001BB, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  253. Probing for AMD Am29LV001BT, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  254. Probing for AMD Am29LV002BB, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  255. Probing for AMD Am29LV002BT, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  256. Probing for AMD Am29LV004BB, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  257. Probing for AMD Am29LV004BT, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  258. Probing for AMD Am29LV008BB, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  259. Probing for AMD Am29LV008BT, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  260. Probing for AMD Am29LV040B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  261. Probing for AMD Am29LV081B, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  262. Probing for AMIC A29002B, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  263. Probing for AMIC A29002T, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  264. Probing for AMIC A29040B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  265. Probing for AMIC A49LF040A, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  266. Probing for Atmel AT29C010A, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  267. Probing for Atmel AT29C020, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  268. Probing for Atmel AT29C040A, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  269. Probing for Atmel AT29C512, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  270. Probing for Atmel AT49(H)F010, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  271. Probing for Atmel AT49BV512, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  272. Probing for Atmel AT49F002(N), 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  273. Probing for Atmel AT49F002(N)T, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  274. Probing for Atmel AT49F020, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  275. Probing for Atmel AT49F040, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  276. Probing for Atmel AT49F080, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  277. Probing for Atmel AT49F080T, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  278. Probing for Atmel AT49LH002, 256 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  279. Probing for Atmel AT49LH004, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  280. Probing for Atmel AT49LH00B4, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  281. Probing for Bright BM29F040, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  282. Probing for Catalyst CAT28F512, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  283. Probing for ESMT F49B002UA, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  284. Probing for Eon EN29F002(A)(N)B, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  285. Probing for Eon EN29F002(A)(N)T, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  286. Probing for Eon EN29F010, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  287. Probing for Eon EN29GL064(A)B, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  288. Probing for Eon EN29GL064(A)T, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  289. Probing for Eon EN29GL064H/L, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  290. Probing for Eon EN29GL128, 16384 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  291. Probing for Eon EN29LV040(A), 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  292. Probing for Eon EN29LV640B, 8192 kB: probe_en29lv640b: id1 0xffff, id2 0x00ff
  293. Probing for Fujitsu MBM29F004BC, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  294. Probing for Fujitsu MBM29F004TC, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  295. Probing for Fujitsu MBM29F400BC, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  296. Probing for Fujitsu MBM29F400TC, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  297. Probing for Fujitsu MBM29LV160BE, 2048 kB: probe_jedec: id1 0xff, id2 0x9f, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  298. Probing for Fujitsu MBM29LV160TE, 2048 kB: probe_jedec: id1 0xff, id2 0x9f, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  299. Probing for Hyundai HY29F002B, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  300. Probing for Hyundai HY29F002T, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  301. Probing for Hyundai HY29F040A, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  302. Probing for ISSI IS29GL064B, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  303. Probing for ISSI IS29GL064H/L, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  304. Probing for ISSI IS29GL064T, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  305. Probing for ISSI IS29GL128H/L, 16384 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  306. Probing for Intel 28F001BN/BX-B, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  307. Probing for Intel 28F001BN/BX-T, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  308. Probing for Intel 28F002BC/BL/BV/BX-T, 256 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  309. Probing for Intel 28F004B5/BE/BV/BX-B, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  310. Probing for Intel 28F004B5/BE/BV/BX-T, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  311. Probing for Intel 28F008S3/S5/SC, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  312. Probing for Intel 28F400BV/BX/CE/CV-B, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  313. Probing for Intel 28F400BV/BX/CE/CV-T, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  314. Probing for Intel AT82802AB, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  315. Probing for Intel 82802AC, 1024 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  316. Probing for Macronix MX29F001B, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  317. Probing for Macronix MX29F001T, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  318. Probing for Macronix MX29F002(N)B, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  319. Probing for Macronix MX29F002(N)T, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  320. Probing for Macronix MX29F022(N)B, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  321. Probing for Macronix MX29F022(N)T, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  322. Probing for Macronix MX29F040, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  323. Probing for Macronix MX29GL128F, 16384 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  324. Probing for Macronix MX29GL320EB, 4096 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  325. Probing for Macronix MX29GL320EH/L, 4096 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  326. Probing for Macronix MX29GL320ET, 4096 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  327. Probing for Macronix MX29GL640EB, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  328. Probing for Macronix MX29GL640EH/L, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  329. Probing for Macronix MX29GL640ET, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  330. Probing for Macronix MX29LV040, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  331. Probing for MoselVitelic V29C51000B, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  332. Probing for MoselVitelic V29C51000T, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  333. Probing for MoselVitelic V29C51400B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  334. Probing for MoselVitelic V29C51400T, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  335. Probing for MoselVitelic V29LC51000, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  336. Probing for MoselVitelic V29LC51001, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  337. Probing for MoselVitelic V29LC51002, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  338. Probing for PMC Pm29F002B, 256 kB: Chip lacks correct probe timing information, using default 10ms/40us. probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  339. Probing for PMC Pm29F002T, 256 kB: Chip lacks correct probe timing information, using default 10ms/40us. probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  340. Probing for PMC Pm39LV010, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  341. Probing for PMC Pm39LV020, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  342. Probing for PMC Pm39LV040, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  343. Probing for PMC Pm39LV512, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  344. Probing for PMC Pm49FL002, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  345. Probing for PMC Pm49FL004, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  346. Probing for SST SST28SF040A, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  347. Probing for SST SST29EE010, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  348. Probing for SST SST29EE020A, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  349. Probing for SST SST29LE010, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  350. Probing for SST SST29LE020, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  351. Probing for SST SST39SF010A, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  352. Probing for SST SST39SF020A, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  353. Probing for SST SST39SF040, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  354. Probing for SST SST39SF512, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  355. Probing for SST SST39VF010, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  356. Probing for SST SST39VF020, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  357. Probing for SST SST39VF040, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  358. Probing for SST SST39VF080, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  359. Probing for SST SST39VF512, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  360. Probing for SST SST49LF002A/B, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  361. Probing for SST SST49LF003A/B, 384 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  362. Probing for SST SST49LF004A/B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  363. Probing for SST SST49LF004C, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  364. Probing for SST SST49LF008A, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  365. Probing for SST SST49LF008C, 1024 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  366. Probing for SST SST49LF016C, 2048 kB: probe_82802ab: id1 0xff, id2 0x97, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  367. Probing for SST SST49LF020, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  368. Probing for SST SST49LF020A, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  369. Probing for SST SST49LF040, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  370. Probing for SST SST49LF040B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  371. Probing for SST SST49LF080A, 1024 kB: Chip lacks correct probe timing information, using default 10ms/40us. probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  372. Probing for SST SST49LF160C, 2048 kB: probe_82802ab: id1 0xff, id2 0x97, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  373. Probing for ST M29F002B, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  374. Probing for ST M29F002T/NT, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  375. Probing for ST M29F040B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  376. Probing for ST M29F400BB, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  377. Probing for ST M29F400BT, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  378. Probing for ST M29W010B, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  379. Probing for ST M29W040B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  380. Probing for ST M29W512B, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  381. Probing for ST M50FLW040A, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  382. Probing for ST M50FLW040B, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  383. Probing for ST M50FLW080A, 1024 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  384. Probing for ST M50FLW080B, 1024 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  385. Probing for ST M50FW002, 256 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  386. Probing for ST M50FW016, 2048 kB: probe_82802ab: id1 0xff, id2 0x97, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  387. Probing for ST M50FW040, 512 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  388. Probing for ST M50FW080, 1024 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  389. Probing for ST M50LPW080, 1024 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  390. Probing for ST M50LPW116, 2048 kB: probe_82802ab: id1 0xff, id2 0x97, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  391. Probing for Sharp LH28F008BJT-BTLZ1, 1024 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  392. Probing for Sharp LHF00L04, 1024 kB: probe_82802ab: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  393. Probing for SyncMOS/MoselVitelic {F,S,V}29C51001B, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  394. Probing for SyncMOS/MoselVitelic {F,S,V}29C51001T, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  395. Probing for SyncMOS/MoselVitelic {F,S,V}29C51002B, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  396. Probing for SyncMOS/MoselVitelic {F,S,V}29C51002T, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  397. Probing for SyncMOS/MoselVitelic {F,S,V}29C51004B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  398. Probing for SyncMOS/MoselVitelic {F,S,V}29C51004T, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  399. Probing for SyncMOS/MoselVitelic {S,V}29C31004B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  400. Probing for SyncMOS/MoselVitelic {S,V}29C31004T, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  401. Probing for TI TMS29F002RB, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  402. Probing for TI TMS29F002RT, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  403. Probing for Winbond W29C010(M)/W29C011A/W29EE011/W29EE012, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  404. Probing for Winbond W29C010(M)/W29C011A/W29EE011/W29EE012-old, 128 kB: Old Winbond W29* probe method disabled because the probing sequence puts the AMIC A49LF040A in a funky state. Use 'flashrom -c W29C010(M)/W29C011A/W29EE011/W29EE012-old' if you have a board with such a chip.
  405. Probing for Winbond W29C020(C)/W29C022, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  406. Probing for Winbond W29C040/P, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  407. Probing for Winbond W29C512A/W29EE512, 64 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  408. Probing for Winbond W29GL032CB, 4096 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  409. Probing for Winbond W29GL032CH/L, 4096 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  410. Probing for Winbond W29GL032CT, 4096 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  411. Probing for Winbond W29GL064CB, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  412. Probing for Winbond W29GL064CH/L, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  413. Probing for Winbond W29GL064CT, 8192 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  414. Probing for Winbond W29GL128C, 16384 kB: probe_jedec_29gl: man_id 0xff, dev_id 0xffffff, man_id parity violation, man_id seems to be normal flash content, dev_id seems to be normal flash content
  415. Probing for Winbond W39F010, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  416. Probing for Winbond W39L010, 128 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  417. Probing for Winbond W39L020, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  418. Probing for Winbond W39L040, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  419. Probing for Winbond W39V040A, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  420. Probing for Winbond W39V040B, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  421. Probing for Winbond W39V040C, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  422. Probing for Winbond W39V040FA, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  423. Probing for Winbond W39V040FB, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  424. Probing for Winbond W39V040FC, 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  425. Probing for Winbond W39V080A, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  426. Probing for Winbond W39V080FA, 1024 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  427. Probing for Winbond W39V080FA (dual mode), 512 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  428. Probing for Winbond W49F002U/N, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  429. Probing for Winbond W49F020, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  430. Probing for Winbond W49V002A, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  431. Probing for Winbond W49V002FA, 256 kB: probe_jedec: id1 0xff, id2 0xff, id1 parity violation, id1 is normal flash content, id2 is normal flash content
  432. Found Winbond flash chip "W25Q256JV_M" (32768 kB, Programmer-specific).
  433. This chip may contain one-time programmable memory. flashrom cannot read
  434. and may never be able to write it, hence it may not be able to completely
  435. clone the contents of this chip (see man page for details).
  436. ===
  437. This flash part has status UNTESTED for operations: WP
  438. The test status of this chip may have been updated in the latest development
  439. version of flashrom. If you are running the latest development version,
  440. please email a report to [email protected] if any of the above operations
  441. work correctly for you with this flash chip. Please include the flashrom log
  442. file for all operations you tested (see the man page for details), and mention
  443. which mainboard or programmer you tested in the subject line.
  444. You can also try to follow the instructions here:
  445. https://www.flashrom.org/contrib_howtos/how_to_mark_chip_tested.html
  446. Thanks for your help!
  447. Skipping writeprotect-based unlocking for read/verify operations.
  448. Reading ich descriptor... read_flash: Flash Descriptor region (00000000..0x000fff) is readable, reading range (00000000..0x000fff).
  449. Reading 4096 bytes starting at 0x000000.
  450. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  451. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  452. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  453. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  454. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  455. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  456. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  457. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  458. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  459. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  460. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  461. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  462. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  463. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  464. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  465. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  466. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  467. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  468. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  469. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  470. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  471. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  472. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  473. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  474. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  475. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  476. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  477. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  478. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  479. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  480. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  481. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  482. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  483. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  484. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  485. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  486. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  487. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  488. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  489. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  490. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  491. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  492. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  493. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  494. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  495. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  496. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  497. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  498. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  499. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  500. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  501. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  502. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  503. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  504. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  505. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  506. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  507. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  508. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  509. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  510. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  511. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  512. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  513. HSFC: FGO=1, FCYCLE=0, WET=0, FDBC=63, SME=0
  514. done.
  515. Assuming chipset '500 series Tiger Point'.
  516. Added layout entry 00000000 - 00000fff named fd
  517. Added layout entry 00500000 - 01ffffff named bios
  518. Added layout entry 00001000 - 004fffff named me
  519. Using region: "bios".
  520. Error: Image size (2097152 B) doesn't match the expected size (33554432 B)!
  521. Restoring PCI config space for 00:1f:5 reg 0xdc
  522. An error occurred restoring the stock firmware. DO NOT REBOOT!
  523.  
  524. Press [Enter] to return to the main menu.
  525.  
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