Angel Pons has submitted this change. ( https://review.coreboot.org/c/flashrom/+/42485 )
Change subject: mysteries_intel: Add a section for software vs hardware sequencing ......................................................................
mysteries_intel: Add a section for software vs hardware sequencing
This attempts to explain software sequencing, hardware sequencing, and the "Opaque flash chip".
Change-Id: I2445e926aad96060f26d0bc55dd7642c1a404296 Signed-off-by: David Hendricks david.hendricks@gmail.com Reviewed-on: https://review.coreboot.org/c/flashrom/+/42485 Tested-by: build bot (Jenkins) no-reply@coreboot.org Reviewed-by: Angel Pons th3fanbus@gmail.com --- M Documentation/mysteries_intel.txt 1 file changed, 42 insertions(+), 0 deletions(-)
Approvals: build bot (Jenkins): Verified Angel Pons: Looks good to me, approved
diff --git a/Documentation/mysteries_intel.txt b/Documentation/mysteries_intel.txt index 60ad21a..088abb8 100644 --- a/Documentation/mysteries_intel.txt +++ b/Documentation/mysteries_intel.txt @@ -5,6 +5,48 @@ A0h), so we have no clue if or where it is on ICH8. Out current policy is to not touch it at all and assume/hope it is 0.
+= Software Sequencing vs. Hardware Sequencing and the "Opaque flash chip" = +Software sequencing and hardware sequencing are two methods used to interface +with the SPI controller on Intel platforms. They can be selected using either +ich_spi_mode=swseq or ich_spi_mode=hwseq programmer parameters. Flashrom will +attempt to automatically detect which mode to use. + +Software sequencing is the traditional method whereby software running on the +CPU handles most of the logic needed to interact with the flash chip. This +offers good flexibility since the user can utilize any opcode available in the +OPMENU registers, and OPMENU can be left unlocked or on coreboot-supported +platforms the owner of the system may program it for their needs before locking +it. Advanced or non-standard features of a chip such as write protection and +OTP may therefore be directly utilized by software. + +Hardware sequencing is a newer method (since around 2011) whereby most of the +logic for interacting with the SPI flash chip is contained within the SPI +controller itself and software such as flashrom may only select a few operations +chosen by Intel via the Flash Cycle (FCYCLE) field. The chip must conform to +specifications from Intel for each chipset/PCH. The specs are given in the +"SPI Programming Guide" application note. See [SPI_PROG] cited at the bottom of +this document for an example. + +Hardware sequencing simplifies things from a software perspective since the +software is guaranteed some minimal level of support and doesn't even need to +know the chip's ID or opcodes; it just needs to tell the SPI controller to +perform a type of transaction such as "read", "4k block erase", etc. Hence when +using hardware sequencing one will see "Opaque flash chip" as the chip's +description since software might not be able to identify the chip. The SPI +controller can combine multiple physical flash chips to logically appear as a +single large flash device, and in such cases it would not make sense for +flashrom to try to identify the chip. + +In many non-Intel systems the software has full control of a generic SPI +controller where the software controls the SPI signals and also constructs the +data payload including pre-op (e.g. write enable latch), opcode, address, and +data. Intel SPI flash controllers are purpose-built for flash chip access and +the software does not control the hardware directly. This makes Intel SPI +controllers less flexible from a software standpoint, however there are some +benefits such as guaranteed atomicity and multi-master arbitration needed for +modern Intel platforms where the CPU and various microprocessors can share the +same flash chip. + = SMM BIOS Write Protection = Sometimes a hardware vendor will enable "SMM BIOS Write Protect" (SMM_BWP) in the firmware during boot time. The bits that control SMM_BWP are in the