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authorEvgeny Zinoviev <me@ch1p.com>2019-11-08 05:20:20 +0300
committerPatrick Georgi <pgeorgi@google.com>2020-02-05 09:57:26 +0000
commitd498e52c3f024971f342da9029fd7f11668c0a3d (patch)
tree6c2d210a1c53b36ed89f3bbc20ad307c57725475 /Documentation
parent9c5263c9c705396113b9553440c1f9250d68bd95 (diff)
Documentation: xx30 ThinkPads internal flashing
Add detailed instructions on how to unlock protected SPI ranges and flash coreboot internally on Lenovo ThinkPad Ivy Bridge series by exploiting stock BIOS security issues. Change-Id: I8d8551910c31fd2e6ff728e17dafaea45970166b Signed-off-by: Evgeny Zinoviev <me@ch1p.io> Reviewed-on: https://review.coreboot.org/c/coreboot/+/36666 Tested-by: build bot (Jenkins) <no-reply@coreboot.org> Reviewed-by: Nico Huber <nico.h@gmx.de>
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@@ -92,6 +92,7 @@ The boards in this section are not real mainboards, but emulators.
- [W530](lenovo/w530.md)
- [T430 / T530 / X230 / W530 common](lenovo/xx30_series.md)
- [T431s](lenovo/t431s.md)
+- [Internal flashing](lenovo/ivb_internal_flashing.md)
### Haswell series
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+# Ivy Bridge Lenovo ThinkPad Internal Flashing
+
+## Introduction
+
+Old versions of stock BIOS for these models have several security issues.
+In order to flash coreboot internally, two of them are of interest.
+
+**First** is the fact the SMM_BWP and BLE are not enabled in BIOS
+versions released before 2014. We have tested many versions on T430 and
+X230 and found out that SMM_BWP=1 only since the update, the changelog
+of which contains following line:
+
+> (New) Improved the UEFI BIOS security feature.
+
+**Second** is [S3 Boot Script vulnerability](https://support.lenovo.com/eg/ru/product_security/s3_boot_protect),
+that was discovered and fixed later.
+
+## Requirements
+
+- USB drive (in case you need to downgrade BIOS)
+- Linux install that (can be) loaded in UEFI mode
+- [CHIPSEC](https://github.com/chipsec/chipsec)
+
+## BIOS versions
+
+Below is a table of BIOS versions that are vulnerable enough for our
+goals, per model. The version number means that you need to downgrade to
+that or earlier version.
+
+```eval_rst
++------------+--------------+
+| Model | BIOS version |
++============+==============+
+| X230 | 2.60 |
++------------+--------------+
+| X230T | 2.58 |
++------------+--------------+
+| T430 | 2.64 |
++------------+--------------+
+| T430s | 2.59 |
++------------+--------------+
+| T530 | 2.60 |
++------------+--------------+
+| W530 | 2.58 |
++------------+--------------+
+```
+
+If your BIOS version is equal or lower, skip to the
+**[Examining protections](#examining-protections-theory)** section. If not,
+go through the downgrade process, described next.
+
+## Downgrading BIOS
+
+Go to the Lenovo web site and download BIOS Update Bootable CD for your
+machine of needed version (see above).
+
+Lenovo states that BIOS has "security rollback prevention", meaning once
+you update it to some version X, you will not be able to downgrade it to
+pre-X version. That's not true. It seems that this is completely
+client-side restriction in flashing utilities (both Windows utility and
+Bootable CD). You just need to call `winflash.exe` or `dosflash.exe`
+directly. Therefore you need to modify the bootable CD image you just
+downloaded.
+
+Extract an El Torito image:
+```
+geteltorito -o ./bios.img g1uj41us.iso
+```
+Mount the partition in that image:
+```
+sudo mount -t vfat ./bios.img /mnt -o loop,offset=16384
+```
+List files, find the `AUTOEXEC.BAT` file and the `FLASH` directory:
+```
+ls /mnt
+ls /mnt/FLASH
+```
+
+Inside the `FLASH` directory, there should be a directory called
+`G1ET93WW` or similar (exact name depends on your ThinkPad model and
+BIOS version). See what's inside:
+```
+ls /mnt/FLASH/G1ET93WW
+```
+There must be a file with `.FL1` extension called `$01D2000.FL1` or
+something similar.
+
+Now open the `AUTOEXEC.BAT` file:
+```
+sudo vim /mnt/AUTOEXEC.BAT
+```
+You will see a list of commands:
+```
+@ECHO OFF
+PROMPT $p$g
+cd c:\flash
+command.com
+```
+Replace the last line (`command.com`) with this (change path to the
+`.FL1` file according to yours):
+```
+dosflash.exe /sd /file G1ET93WW\$01D2000.FL1
+```
+
+Save the file, then unmount the partition:
+```
+sudo unmount /mnt
+```
+
+Write this image to a USB drive (replace `/dev/sdX` with your USB drive
+device name):
+```
+sudo dd if=./bios.img of=/dev/sdX bs=1M
+```
+
+Now reboot and press F1 to enter BIOS settings. Open the **Startup** tab
+and set the startup mode to **Legacy** (or **Both**/**Legacy First**):
+
+![](ivb_bios_legacy_only.jpg)
+
+Press F10 to save changes and reboot.
+
+Now, before you process, make sure that AC adapter is connected! If your
+battery will die during the process, you'll likely need external
+programmer to recover.
+
+Boot from the USB drive (press F12 to select boot device), and BIOS
+flashing process should begin:
+
+![](ivb_bios_flashing1.jpg)
+
+![](ivb_bios_flashing2.jpg)
+
+It may reboot a couple of times in the process. Do not interrupt it.
+
+When it's completed, go back to the BIOS settings and set startup mode
+to **UEFI** (or **Both**/**UEFI First**). This is required for
+vulnerability exploitation.
+
+![](ivb_bios_uefi_only.jpg)
+
+Then boot to your system and make sure that `/sys/firmware/efi` or
+`/sys/firmware/efivars` exist.
+
+## Examining protections (theory)
+
+There are two main ways that Intel platform provides to protect BIOS
+chip:
+- **BIOS_CNTL** register of LPC Interface Bridge Registers (accessible
+ via PCI configuration space, offset 0xDC). It has:
+ * **SMM_BWP** (*SMM BIOS Write Protect*) bit. If set to 1, the BIOS is
+ writable only in SMM. Once set to 1, cannot be changed anymore.
+ * **BLE** (*BIOS Lock Enable*) bit. If set to 1, setting BIOSWE to 1
+ will raise SMI. Once set to 1, cannot be changed anymore.
+ * **BIOSWE** (*BIOS Write Enable*) bit. Controls whether BIOS is
+ writable. This bit is always R/W.
+- SPI Protected Range Registers (**PR0**-**PR4**) of SPI Configuration
+ Registers (SPIBAR+0x74 - SPIBAR+0x84). Each register has bits that
+ define protected range, plus WP bit, that defines whether write
+ protection is enabled.
+
+ There's also **FLOCKDN** bit of HSFS register (SPIBAR+0x04) of SPI
+ Configuration Registers. When set to 1, PR0-PR4 registers cannot be
+ written. Once set to 1, cannot be changed anymore.
+
+To be able to flash, we need SMM_BWP=0, BIOSWE=1, BLE=0, FLOCKDN=0 or
+SPI protected ranges (PRx) to have a WP bit set to 0.
+
+Let's see what we have. Examine HSFS register:
+```
+sudo chipsec_main -m chipsec.modules.common.spi_lock
+```
+You should see that FLOCKDN=1:
+```
+[x][ =======================================================================
+[x][ Module: SPI Flash Controller Configuration Locks
+[x][ =======================================================================
+[*] HSFS = 0xE009 << Hardware Sequencing Flash Status Register (SPIBAR + 0x4)
+ [00] FDONE = 1 << Flash Cycle Done
+ [01] FCERR = 0 << Flash Cycle Error
+ [02] AEL = 0 << Access Error Log
+ [03] BERASE = 1 << Block/Sector Erase Size
+ [05] SCIP = 0 << SPI cycle in progress
+ [13] FDOPSS = 1 << Flash Descriptor Override Pin-Strap Status
+ [14] FDV = 1 << Flash Descriptor Valid
+ [15] FLOCKDN = 1 << Flash Configuration Lock-Down
+```
+
+Then check BIOS_CNTL and PR0-PR4:
+```
+sudo chipsec_main -m common.bios_wp
+```
+Good news: on old BIOS versions, SMM_BWP=0 and BLE=0.
+
+Bad news: there are 4 write protected SPI ranges:
+
+```
+[x][ =======================================================================
+[x][ Module: BIOS Region Write Protection
+[x][ =======================================================================
+[*] BC = 0x 8 << BIOS Control (b:d.f 00:31.0 + 0xDC)
+ [00] BIOSWE = 0 << BIOS Write Enable
+ [01] BLE = 0 << BIOS Lock Enable
+ [02] SRC = 2 << SPI Read Configuration
+ [04] TSS = 0 << Top Swap Status
+ [05] SMM_BWP = 0 << SMM BIOS Write Protection
+[-] BIOS region write protection is disabled!
+
+[*] BIOS Region: Base = 0x00500000, Limit = 0x00BFFFFF
+SPI Protected Ranges
+------------------------------------------------------------
+PRx (offset) | Value | Base | Limit | WP? | RP?
+------------------------------------------------------------
+PR0 (74) | 00000000 | 00000000 | 00000000 | 0 | 0
+PR1 (78) | 8BFF0B40 | 00B40000 | 00BFFFFF | 1 | 0
+PR2 (7C) | 8B100B10 | 00B10000 | 00B10FFF | 1 | 0
+PR3 (80) | 8ADE0AD0 | 00AD0000 | 00ADEFFF | 1 | 0
+PR4 (84) | 8AAF0800 | 00800000 | 00AAFFFF | 1 | 0
+```
+
+Other way to examine SPI configuration registers is to just dump SPIBAR:
+```
+sudo chipsec_util mmio dump SPIBAR
+```
+You will see SPIBAR address (0xFED1F800) and registers (for example,
+00000004 is HSFS):
+```
+[mmio] MMIO register range [0x00000000FED1F800:0x00000000FED1F800+00000200]:
++00000000: 0BFF0500
++00000004: 0004E009
+...
+```
+As you can see, the only thing we need is to unset WP bit on PR0-PR4.
+But that cannot be done once FLOCKDN is set to 1.
+
+Now the fun part!
+
+FLOCKDN may only be cleared by a hardware reset, which includes S3
+state. On S3 resume boot path, the chipset configuration has to be
+restored and it's done by executing so-called S3 Boot Scripts. You can
+dump these scripts by executing:
+```
+sudo chipsec_util uefi s3bootscript
+```
+There are many entries. Along them, you can find instructions to write
+to HSFS (remember, we know that SPIBAR is 0xFED1F800):
+```
+Entry at offset 0x2B8F (len = 0x17, header len = 0x0):
+Data:
+02 00 17 02 00 00 00 01 00 00 00 04 f8 d1 fe 00 |
+00 00 00 09 e0 04 00 |
+Decoded:
+ Opcode : S3_BOOTSCRIPT_MEM_WRITE (0x0002)
+ Width : 0x02 (4 bytes)
+ Address: 0xFED1F804
+ Count : 0x1
+ Values : 0x0004E009
+```
+These scripts are stored in memory. The vulnerability is that we can
+overwrite this memory, change these instructions and they will be
+executed on S3 resume. Once we patch that instruction to not set FLOCKDN
+bit, we will be able to write to PR0-PR4 registers.
+
+## Creating a backup
+
+Before you proceed, please create a backup of the `bios` region. Then,
+in case something goes wrong, you'll be able to flash it back externally.
+
+The `me` region is locked, so an attempt to create a full dump will fail.
+But you can back up the `bios`:
+```
+sudo flashrom -p internal -r bios_backup.rom --ifd -i bios
+```
+
+If you will ever need to flash it back, use `--ifd -i bios` as well:
+```
+sudo flashrom -p <YOUR_PROGRAMMER> -w bios_backup.rom --ifd -i bios
+```
+**Caution:** if you will omit `--ifd -i bios` for flashing, you will
+brick your machine, because your backup has `FF`s in place of `fd` and
+`me` regions. Flash only `bios` region!
+
+## Removing protections (practice)
+
+The original boot script writes 0xE009 to HSFS. FLOCKDN is 15th bit, so
+let's write 0x6009 instead:
+```
+sudo chipsec_main -m tools.uefi.s3script_modify -a replace_op,mmio_wr,0xFED1F804,0x6009,0x2
+```
+You will get a lot of output and in the end you should see something
+like this:
+```
+[*] Modifying S3 boot script entry at address 0x00000000DAF49B8F..
+[mem] 0x00000000DAF49B8F
+[*] Original entry:
+ 2 0 17 2 0 0 0 1 0 0 0 4 f8 d1 fe 0 |
+ 0 0 0 9 e0 4 0 |
+[mem] buffer len = 0x17 to PA = 0x00000000DAF49B8F
+ 2 0 17 2 0 0 0 1 0 0 0 4 f8 d1 fe 0 |
+ 0 0 0 9 60 0 0 | `
+[mem] 0x00000000DAF49B8F
+[*] Modified entry:
+ 2 0 17 2 0 0 0 1 0 0 0 4 f8 d1 fe 0 |
+ 0 0 0 9 60 0 0 | `
+[*] After sleep/resume, check the value of register 0xFED1F804 is 0x6009
+[+] PASSED: The script has been modified. Go to sleep..
+```
+Now go to S3, then resume and check FLOCKDN. It should be 0:
+```
+sudo chipsec_main -m chipsec.modules.common.spi_lock
+```
+```
+...
+[x][ =======================================================================
+[x][ Module: SPI Flash Controller Configuration Locks
+[x][ =======================================================================
+[*] HSFS = 0x6008 << Hardware Sequencing Flash Status Register (SPIBAR + 0x4)
+ [00] FDONE = 0 << Flash Cycle Done
+ [01] FCERR = 0 << Flash Cycle Error
+ [02] AEL = 0 << Access Error Log
+ [03] BERASE = 1 << Block/Sector Erase Size
+ [05] SCIP = 0 << SPI cycle in progress
+ [13] FDOPSS = 1 << Flash Descriptor Override Pin-Strap Status
+ [14] FDV = 1 << Flash Descriptor Valid
+ [15] FLOCKDN = 0 << Flash Configuration Lock-Down
+[-] SPI Flash Controller configuration is not locked
+[-] FAILED: SPI Flash Controller not locked correctly.
+...
+```
+Remove WP from protected ranges:
+```
+sudo chipsec_util mmio write SPIBAR 0x74 0x4 0xAAF0800
+sudo chipsec_util mmio write SPIBAR 0x78 0x4 0xADE0AD0
+sudo chipsec_util mmio write SPIBAR 0x7C 0x4 0xB100B10
+sudo chipsec_util mmio write SPIBAR 0x80 0x4 0xBFF0B40
+```
+Verify that it worked:
+```
+sudo chipsec_main -m common.bios_wp
+```
+```
+[x][ =======================================================================
+[x][ Module: BIOS Region Write Protection
+[x][ =======================================================================
+[*] BC = 0x 9 << BIOS Control (b:d.f 00:31.0 + 0xDC)
+ [00] BIOSWE = 1 << BIOS Write Enable
+ [01] BLE = 0 << BIOS Lock Enable
+ [02] SRC = 2 << SPI Read Configuration
+ [04] TSS = 0 << Top Swap Status
+ [05] SMM_BWP = 0 << SMM BIOS Write Protection
+[-] BIOS region write protection is disabled!
+
+[*] BIOS Region: Base = 0x00500000, Limit = 0x00BFFFFF
+SPI Protected Ranges
+------------------------------------------------------------
+PRx (offset) | Value | Base | Limit | WP? | RP?
+------------------------------------------------------------
+PR0 (74) | 0AAF0800 | 00800000 | 00AAF000 | 0 | 0
+PR1 (78) | 0ADE0AD0 | 00AD0000 | 00ADE000 | 0 | 0
+PR2 (7C) | 0B100B10 | 00B10000 | 00B10000 | 0 | 0
+PR3 (80) | 0BFF0B40 | 00B40000 | 00BFF000 | 0 | 0
+PR4 (84) | 00000000 | 00000000 | 00000000 | 0 | 0
+```
+
+Bingo!
+
+Now you can [flash internally](/flash_tutorial/int_flashrom.md).
+Remember to flash only the `bios` region (use `--ifd -i bios -N`
+flashrom arguments). `fd` and `me` are still locked.
+
+Note that you should have an external SPI programmer as a backup method.
+It will help you recover if you flash non-working ROM by mistake.