From 5d6946c42cf8faa64f609155cf3b121ff8d78474 Mon Sep 17 00:00:00 2001 From: Nicholas Chin Date: Thu, 12 Oct 2023 17:57:06 -0600 Subject: util/e6400-flash-unlock: Rename to dell-flash-unlock This more accurately describes the scope of the utility. Signed-off-by: Nicholas Chin --- util/e6400-flash-unlock/COPYING | 19 --- util/e6400-flash-unlock/Makefile | 15 -- util/e6400-flash-unlock/README.md | 102 ------------- util/e6400-flash-unlock/accessors.c | 91 ----------- util/e6400-flash-unlock/accessors.h | 17 --- util/e6400-flash-unlock/e6400_flash_unlock.c | 217 --------------------------- 6 files changed, 461 deletions(-) delete mode 100644 util/e6400-flash-unlock/COPYING delete mode 100644 util/e6400-flash-unlock/Makefile delete mode 100644 util/e6400-flash-unlock/README.md delete mode 100644 util/e6400-flash-unlock/accessors.c delete mode 100644 util/e6400-flash-unlock/accessors.h delete mode 100644 util/e6400-flash-unlock/e6400_flash_unlock.c (limited to 'util/e6400-flash-unlock') diff --git a/util/e6400-flash-unlock/COPYING b/util/e6400-flash-unlock/COPYING deleted file mode 100644 index bf82341a..00000000 --- a/util/e6400-flash-unlock/COPYING +++ /dev/null @@ -1,19 +0,0 @@ -Copyright (c) 2023 Nicholas Chin - -Permission is hereby granted, free of charge, to any person obtaining a copy -of this software and associated documentation files (the "Software"), to deal -in the Software without restriction, including without limitation the rights -to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -copies of the Software, and to permit persons to whom the Software is -furnished to do so, subject to the following conditions: - -The above copyright notice and this permission notice shall be included in all -copies or substantial portions of the Software. - -THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER -LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, -OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE -SOFTWARE. diff --git a/util/e6400-flash-unlock/Makefile b/util/e6400-flash-unlock/Makefile deleted file mode 100644 index 41a90482..00000000 --- a/util/e6400-flash-unlock/Makefile +++ /dev/null @@ -1,15 +0,0 @@ -# SPDX-License-Identifier: MIT -# SPDX-FileCopyrightText: 2023 Nicholas Chin - -CC=cc -CFLAGS=-Wall -Wextra -Werror -O2 -pedantic -ifeq ($(shell uname), OpenBSD) - CFLAGS += -l$(shell uname -p) -endif -SRCS=e6400_flash_unlock.c accessors.c - -all: $(SRCS) accessors.h - $(CC) $(CFLAGS) $(SRCS) -o e6400_flash_unlock - -clean: - rm -f e6400_flash_unlock diff --git a/util/e6400-flash-unlock/README.md b/util/e6400-flash-unlock/README.md deleted file mode 100644 index bc9dd9f9..00000000 --- a/util/e6400-flash-unlock/README.md +++ /dev/null @@ -1,102 +0,0 @@ -# Dell Laptop Internal Flashing - -This utility allows you to use flashrom's internal programmer to program the -entire BIOS flash chip from software while still running the original Dell -BIOS, which normally restricts software writes to the flash chip. It seems like -this works on any Dell laptop that has an EC similar to the SMSC MEC5035 on the -E6400, which mainly seem to be the Latitude and Precision lines starting from -around 2008 (E6400 era). - -## TL;DR -Run `make` to compile the utility, and then run `sudo ./e6400_flash_unlock` and -follow the directions it outputs. - -## Confirmed supported devices -- Latitude E6400 -- Latitude E6410 -- Latitude E4310 -- Latitude E6430 -- Precision M6800 - -It is likely that any other Latitude/Precision laptops from the same era as -devices specifically mentioned in the above list will work as Dell seems to use -the same ECs in one generation. - -## Detailed device specific behavior -- On GM45 era laptops, the expected behavior is that you will run the utility - for the first time, which will tell the EC to set the descriptor override on - the next boot. Then you will need to shut down the system, after which the - system will automatically boot up. You should then re-run the utility to - disable SMM, after which you can run flashrom. Finally, you should run the - utility a third time to reenable SMM so that shutdown works properly - afterwards. -- On 1st Generation Intel Core systems such as the E6410 and newer, run the - utility and shutdown in the same way as the E6400. However, it seems like the - EC no longer automatically boots the system. In this case you should manually - power it on. It also seems that the firmware does not set the BIOS Lock bit - when the descriptor override is set, making the 2nd run after the reboot - technically unnecessary. There is no harm in rerunning it though, as the - utility can detect when the flash is unlocked and perform the correct steps - as necessary. - -## How it works -There are several ways the firmware can protect itself from being overwritten. -One way is the Intel Flash Descriptor (IFD) permissions. On Intel systems, the -flash image is divided into several regions such as the IFD itself, Gigabit -Ethernet (GBE) non-volative memory, Management Engine (ME) firmware, Platform -Data (PD), and the BIOS. The IFD contains a section which specifies the -read/write permissions for each SPI controller (such as the host system) and -each region of the flash, which are enforced by the chipset. - -On the Latitude E6400, the host has read-only access to the IFD, no access to -the ME region, and read-write access to the PD, GBE, and BIOS regions. In order -for flashrom to write to the entire flash internally, the host needs full -permissions to all of these regions. Since the IFD is read only, we cannot -change these permissions unless we directly access the chip using an external -programmer, which defeats the purpose of internal flashing. - -However, Intel chipsets have a pin strap that allows the flash descriptor -permissions to be overridden depending on the value of the pin at power on, -granting RW permissions to all regions. On the ICH9M chipset on the E6400, this -pin is HDA\_DOCK\_EN/GPIO33, which will enable the override if it is sampled -low. This pin happens to be connected to a GPIO controlled by the Embedded -Controller (EC), a small microcontroller on the board which handles things like -the keyboard, touchpad, LEDs, and other system level tasks. Software can send a -certain command to the EC, which tells it to pull GPIO33 low on the next boot. - -Although we now have full access according to the IFD permissions, we still -cannot flash the whole chip, due to another protection the firmware uses. -Before software can update the BIOS, it must change the BIOS Write Enable -(BIOSWE) bit in the chipset from 0 to 1. However, if the BIOS Lock Enable (BLE) -bit is also set to 1, then changing the BIOSWE bit triggers a System Management -Interrupt (SMI). This causes the processor to enter System Management Mode -(SMM), a highly privileged x86 execution state which operates transparently to -the operating system. The code that SMM runs is provided by the BIOS, which -checks the BIOSWE bit and sets it back to 0 before returning control to the OS. -This feature is intended to only allow SMM code to update the system firmware. -As the switch to SMM suspends the execution of the OS, it appears to the OS -that the BIOSWE bit was never set to 1. Unfortunately, the BLE bit cannot be -set back to 0 once it is set to 1, so this functionality cannot be disabled -after it is first enabled by the BIOS. - -Older versions of the E6400 BIOS did not set the BLE bit, allowing flashrom to -flash the entire flash chip internally after only setting the descriptor -override. However, more recent versions do set it, so we may have hit a dead -end unless we force downgrade to an older version (though there is a more -convenient method, as we are about to see). - -What if there was a way to sidestep the BIOS Lock entirely? As it turns out, -there is, and it's called the Global SMI Enable (GBL\_SMI\_EN) bit. If it's set -to 1, then the chipset will generate SMIs, such as when we change BIOSWE with -BLE set. If it's 0, then no SMI will be generated, even with the BLE bit set. -On the E6400, GBL\_SMI\_EN is set to 1, and it can be changed back to 0, unlike -the BLE bit. But there still might be one bit in the way, the SMI\_LOCK bit, -which prevents modifications to GBL\_SMI\_EN when SMI\_LOCK is 1. Like the BLE -bit, it cannot be changed back to 0 once it set to 1. But we are in luck, as -the vendor E6400 BIOS leaves SMI\_LOCK unset at 0, allowing us to clear -GBL\_SMI\_EN and disable SMIs, bypassing the BIOS Lock protections. - -There are other possible protection mechanisms that the firmware can utilize, -such as Protected Range Register settings, which apply access permissions to -address ranges of the flash, similar to the IFD. However, the E6400 vendor -firmware does not utilize these, so they will not be discussed. diff --git a/util/e6400-flash-unlock/accessors.c b/util/e6400-flash-unlock/accessors.c deleted file mode 100644 index 6fca2817..00000000 --- a/util/e6400-flash-unlock/accessors.c +++ /dev/null @@ -1,91 +0,0 @@ -/* SPDX-License-Identifier: MIT */ -/* SPDX-FileCopyrightText: 2023 Nicholas Chin */ - -#if defined(__linux__) -#include -#endif - -#if defined(__OpenBSD__) -#include -#include -#if defined(__amd64__) -#include -#elif defined(__i386__) -#include -#endif /* __i386__ */ -#endif /* __OpenBSD__ */ - -#include - -#include "accessors.h" - -uint32_t -pci_read_32(uint32_t dev, uint8_t reg) -{ - sys_outl(PCI_CFG_ADDR, dev | reg); - return sys_inl(PCI_CFG_DATA); -} - -void -pci_write_32(uint32_t dev, uint8_t reg, uint32_t value) -{ - sys_outl(PCI_CFG_ADDR, dev | reg); - sys_outl(PCI_CFG_DATA, value); -} - -void -sys_outb(unsigned int port, uint8_t data) -{ - #if defined(__linux__) - outb(data, port); - #endif - #if defined(__OpenBSD__) - outb(port, data); - #endif -} - -void -sys_outl(unsigned int port, uint32_t data) -{ - #if defined(__linux__) - outl(data, port); - #endif - #if defined(__OpenBSD__) - outl(port, data); - #endif -} - -uint8_t -sys_inb(unsigned int port) -{ - #if defined(__linux__) || defined (__OpenBSD__) - return inb(port); - #endif - return 0; -} - -uint32_t -sys_inl(unsigned int port) -{ - #if defined(__linux__) || defined (__OpenBSD__) - return inl(port); - #endif - return 0; -} - -int -sys_iopl(int level) -{ -#if defined(__linux__) - return iopl(level); -#endif -#if defined(__OpenBSD__) -#if defined(__i386__) - return i386_iopl(level); -#elif defined(__amd64__) - return amd64_iopl(level); -#endif /* __amd64__ */ -#endif /* __OpenBSD__ */ - errno = ENOSYS; - return -1; -} diff --git a/util/e6400-flash-unlock/accessors.h b/util/e6400-flash-unlock/accessors.h deleted file mode 100644 index a19f2152..00000000 --- a/util/e6400-flash-unlock/accessors.h +++ /dev/null @@ -1,17 +0,0 @@ -/* SPDX-License-Identifier: MIT */ -/* SPDX-FileCopyrightText: 2023 Nicholas Chin */ - -#include - -#define PCI_CFG_ADDR 0xcf8 -#define PCI_CFG_DATA 0xcfc -#define PCI_DEV(bus, dev, func) (1u << 31 | bus << 16 | dev << 11 | func << 8) - -uint32_t pci_read_32(uint32_t dev, uint8_t reg); -void pci_write_32(uint32_t dev, uint8_t reg, uint32_t value); - -int sys_iopl(int level); -void sys_outb(unsigned int port, uint8_t data); -void sys_outl(unsigned int port, uint32_t data); -uint8_t sys_inb(unsigned int port); -uint32_t sys_inl(unsigned int port); diff --git a/util/e6400-flash-unlock/e6400_flash_unlock.c b/util/e6400-flash-unlock/e6400_flash_unlock.c deleted file mode 100644 index 174a1c92..00000000 --- a/util/e6400-flash-unlock/e6400_flash_unlock.c +++ /dev/null @@ -1,217 +0,0 @@ -/* SPDX-License-Identifier: MIT */ -/* SPDX-FileCopyrightText: 2023 Nicholas Chin */ - -#include - -#include -#include -#include -#include -#include -#include -#include - -#include "accessors.h" - -int get_fdo_status(void); -int check_lpc_decode(void); -void ec_set_fdo(); -void write_ec_reg(uint8_t index, uint8_t data); -void send_ec_cmd(uint8_t cmd); -int wait_ec(void); -int check_bios_write_en(void); -int set_gbl_smi_en(int enable); -int get_gbl_smi_en(void); - -#define EC_INDEX 0x910 -#define EC_DATA 0x911 -#define EC_ENABLE_FDO 2 - -#define LPC_DEV PCI_DEV(0, 0x1f, 0) - -#define RCBA_MMIO_LEN 0x4000 - -/* Register offsets */ -#define SPIBAR 0x3800 -#define HSFS_REG 0x04 -#define SMI_EN_REG 0x30 - -volatile uint8_t *rcba_mmio; -uint16_t pmbase; - -int -main(int argc, char *argv[]) -{ - int devmemfd; - (void)argc; - (void)argv; - - if (sys_iopl(3) == -1) - err(errno, "Could not access IO ports"); - if ((devmemfd = open("/dev/mem", O_RDONLY)) == -1) - err(errno, "/dev/mem"); - - /* Read RCBA and PMBASE from the LPC config registers */ - long int rcba = pci_read_32(LPC_DEV, 0xf0) & 0xffffc000; - pmbase = pci_read_32(LPC_DEV, 0x40) & 0xff80; - - /* FDO pin-strap status bit is in RCBA mmio space */ - rcba_mmio = mmap(0, RCBA_MMIO_LEN, PROT_READ, MAP_SHARED, devmemfd, - rcba); - if (rcba_mmio == MAP_FAILED) - err(errno, "Could not map RCBA"); - - if (get_fdo_status() == 1) { /* Descriptor not overridden */ - if (check_lpc_decode() == -1) - err(errno = ECANCELED, "Can't forward I/O to LPC"); - - printf("Sending FDO override command to EC:\n"); - ec_set_fdo(); - printf("Flash Descriptor Override enabled.\n" - "Shut down (don't reboot) now.\n\n" - "The EC may auto-boot on some systems; if not then " - "manually power on.\n When the system boots rerun " - "this utility to finish unlocking.\n"); - } else if (check_bios_write_en() == 0) { - /* SMI locks in place, try disabling SMIs to bypass them */ - if (set_gbl_smi_en(0)) { - printf("SMIs disabled. Internal flashing should work " - "now.\n After flashing, re-run this utility " - "to enable SMIs.\n (shutdown is buggy when " - "SMIs are disabled)\n"); - } else { - err(errno = ECANCELED, "Could not disable SMIs!"); - } - } else { /* SMI locks not in place or bypassed */ - if (get_gbl_smi_en()) { - /* SMIs are still enabled, assume this is an Exx10 - * or newer which don't need the SMM bypass */ - printf("Flash is unlocked.\n" - "Internal flashing should work.\n"); - } else { - /* SMIs disabled, assume this is an Exx00 after - * unlocking and flashing */ - set_gbl_smi_en(1); - printf("SMIs enabled.\n" - "You can now shutdown the system.\n"); - } - } - return errno; -} - -int -get_fdo_status(void) -{ - return (*(uint16_t*)(rcba_mmio + SPIBAR + HSFS_REG) >> 13) & 1; -} - -int -check_lpc_decode(void) -{ - /* Check that at a Generic Decode Range Register is set up to - * forward I/O ports 0x910 and 0x911 over LPC for the EC */ - int i = 0; - int gen_dec_free = -1; - for (; i < 4; i++) { - uint32_t reg_val = pci_read_32(LPC_DEV, 0x84 + 4*i); - uint16_t base_addr = reg_val & 0xfffc; - uint16_t mask = ((reg_val >> 16) & 0xfffc) | 0x3; - - /* Bit 0 is the enable for each decode range. If disabled, note - * this register as available to add our own range decode */ - if ((reg_val & 1) == 0) - gen_dec_free = i; - - /* Check if the current range register matches port 0x910. - * 0x911 doesn't need to be checked as the LPC bridge only - * decodes at the dword level, and thus a check is redundant */ - if ((0x910 & ~mask) == base_addr) { - return 0; - } - } - - /* No matching range found, try setting a range in a free register */ - if (gen_dec_free != -1) { - /* Set up an I/O decode range from 0x910-0x913 */ - pci_write_32(LPC_DEV, 0x84 + 4 * gen_dec_free, 0x911); - return 0; - } else { - return -1; - } -} - -void -ec_set_fdo() -{ - /* EC FDO command arguments for reference: - * 0 = Query EC FDO status - * 2 = Enable FDO for next boot - * 3 = Disable FDO for next boot */ - write_ec_reg(0x12, EC_ENABLE_FDO); - send_ec_cmd(0xb8); -} - -void -write_ec_reg(uint8_t index, uint8_t data) -{ - sys_outb(EC_INDEX, index); - sys_outb(EC_DATA, data); -} - -void -send_ec_cmd(uint8_t cmd) -{ - sys_outb(EC_INDEX, 0); - sys_outb(EC_DATA, cmd); - if (wait_ec() == -1) - err(errno = ECANCELED, "Timeout while waiting for EC!"); -} - -int -wait_ec(void) -{ - uint8_t busy; - int timeout = 1000; - do { - sys_outb(EC_INDEX, 0); - busy = sys_inb(EC_DATA); - timeout--; - usleep(1000); - } while (busy && timeout > 0); - return timeout > 0 ? 0 : -1; -} - -int -check_bios_write_en(void) -{ - uint8_t bios_cntl = pci_read_32(LPC_DEV, 0xdc) & 0xff; - /* Bit 5 = SMM BIOS Write Protect Disable (SMM_BWP) - * Bit 1 = BIOS Lock Enable (BLE) - * If both are 0, then there's no write protection */ - if ((bios_cntl & 0x22) == 0) - return 1; - - /* SMM protection is enabled, but try enabling writes - * anyway in case the vendor SMM code doesn't reset it */ - pci_write_32(LPC_DEV, 0xdc, bios_cntl | 0x1); - return pci_read_32(LPC_DEV, 0xdc) & 0x1; -} - -int -set_gbl_smi_en(int enable) -{ - uint32_t smi_en = sys_inl(pmbase + SMI_EN_REG); - if (enable) { - smi_en |= 1; - } else { - smi_en &= ~1; - } - sys_outl(pmbase + SMI_EN_REG, smi_en); - return (get_gbl_smi_en() == enable); -} - -int -get_gbl_smi_en(void) -{ - return sys_inl(pmbase + SMI_EN_REG) & 1; -} -- cgit v1.2.1