soc/intel/{apl,cnl,dnv,skl}: Skip ucode loading by FSP-T
It is a requirement for Firmware to have Firmware Interface Table (FIT), which contains pointers to each microcode update. The microcode update is loaded for all logical processors before reset vector. FSPT_UPD.MicrocodeRegionBase and FSPT_UPD.MicrocodeRegionLength are input parameters to TempRamInit API. If these values are 0, FSP will not attempt to update microcode. Since Gen-4 all IA-SoC has FIT loading ucode even before cpu reset in place hence skipping FSP-T loading ucode after CPU reset options. Also removed unused kconfig CONFIG_CPU_MICROCODE_CBFS_LOC and CONFIG_CPU_MICROCODE_CBFS_LEN Change-Id: I3a406fa0e2e62e3363c2960e173dc5f5f5ca0455 Signed-off-by: Subrata Banik <subrata.banik@intel.com> Reviewed-on: https://review.coreboot.org/c/coreboot/+/37187 Reviewed-by: Arthur Heymans <arthur@aheymans.xyz> Reviewed-by: David Guckian Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
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@ -59,9 +59,4 @@ $(obj)/cpu_microcode_blob.bin: $$(wildcard $$(cpu_microcode_bins))
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cpu_microcode_blob.bin-file ?= $(obj)/cpu_microcode_blob.bin
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cpu_microcode_blob.bin-file ?= $(obj)/cpu_microcode_blob.bin
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cpu_microcode_blob.bin-type := microcode
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cpu_microcode_blob.bin-type := microcode
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ifneq ($(CONFIG_CPU_MICROCODE_CBFS_LOC),)
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cpu_microcode_blob.bin-COREBOOT-position := $(CONFIG_CPU_MICROCODE_CBFS_LOC)
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else
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cpu_microcode_blob.bin-align := 16
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cpu_microcode_blob.bin-align := 16
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endif
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@ -37,21 +37,6 @@ config ADD_FSP_BINARIES
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Add the FSP-M and FSP-S binaries to CBFS. Currently coreboot does not
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Add the FSP-M and FSP-S binaries to CBFS. Currently coreboot does not
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use the FSP-T binary and it is not added.
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use the FSP-T binary and it is not added.
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config CPU_MICROCODE_CBFS_LEN
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hex "Microcode update region length in bytes"
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depends on FSP_CAR
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default 0x0
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help
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The length in bytes of the microcode update region.
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config CPU_MICROCODE_CBFS_LOC
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hex "Microcode update base address in CBFS"
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depends on FSP_CAR
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default 0x0
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help
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The location (base address) in CBFS that contains the
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microcode update binary.
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config FSP_T_CBFS
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config FSP_T_CBFS
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string "Name of FSP-T in CBFS"
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string "Name of FSP-T in CBFS"
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depends on FSP_CAR
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depends on FSP_CAR
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@ -25,6 +25,17 @@ const FSPT_UPD temp_ram_init_params = {
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.FsptCommonUpd = {
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.FsptCommonUpd = {
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.Revision = 0,
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.Revision = 0,
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.Reserved = {0},
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.Reserved = {0},
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/*
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* It is a requirement for firmware to have Firmware Interface Table
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* (FIT), which contains pointers to each microcode update.
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* The microcode update is loaded for all logical processors before
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* cpu reset vector.
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*
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* All SoC since Gen-4 has above mechanism in place to load microcode
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* even before hitting CPU reset vector. Hence skipping FSP-T loading
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* microcode after CPU reset by passing '0' value to
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* FSPT_UPD.MicrocodeRegionBase and FSPT_UPD.MicrocodeRegionLength.
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*/
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.MicrocodeRegionBase = 0,
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.MicrocodeRegionBase = 0,
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.MicrocodeRegionLength = 0,
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.MicrocodeRegionLength = 0,
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.CodeRegionBase =
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.CodeRegionBase =
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@ -30,10 +30,19 @@ const FSPT_UPD temp_ram_init_params = {
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.Reserved = {0},
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.Reserved = {0},
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},
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},
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.FsptCoreUpd = {
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.FsptCoreUpd = {
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.MicrocodeRegionBase =
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/*
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(uint32_t)CONFIG_CPU_MICROCODE_CBFS_LOC,
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* It is a requirement for firmware to have Firmware Interface Table
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.MicrocodeRegionSize =
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* (FIT), which contains pointers to each microcode update.
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(uint32_t)CONFIG_CPU_MICROCODE_CBFS_LEN,
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* The microcode update is loaded for all logical processors before
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* cpu reset vector.
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*
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* All SoC since Gen-4 has above mechanism in place to load microcode
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* even before hitting CPU reset vector. Hence skipping FSP-T loading
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* microcode after CPU reset by passing '0' value to
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* FSPT_UPD.MicrocodeRegionBase and FSPT_UPD.MicrocodeRegionLength.
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*/
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.MicrocodeRegionBase = 0,
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.MicrocodeRegionLength = 0,
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.CodeRegionBase =
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.CodeRegionBase =
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(uint32_t)(0x100000000ULL - CONFIG_ROM_SIZE),
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(uint32_t)(0x100000000ULL - CONFIG_ROM_SIZE),
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.CodeRegionSize = (uint32_t)CONFIG_ROM_SIZE,
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.CodeRegionSize = (uint32_t)CONFIG_ROM_SIZE,
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@ -108,14 +108,6 @@ config DCACHE_BSP_STACK_SIZE
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hex
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hex
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default 0x10000
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default 0x10000
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config CPU_MICROCODE_CBFS_LOC
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hex
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default 0xfff20040
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config CPU_MICROCODE_CBFS_LEN
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hex
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default 0x0ff80
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config CPU_BCLK_MHZ
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config CPU_BCLK_MHZ
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int
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int
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default 100
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default 100
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@ -31,10 +31,19 @@ const FSPT_UPD temp_ram_init_params = {
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.Reserved = {0},
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.Reserved = {0},
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},
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},
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.FsptCoreUpd = {
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.FsptCoreUpd = {
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.MicrocodeRegionBase =
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/*
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(UINT32)CONFIG_CPU_MICROCODE_CBFS_LOC,
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* It is a requirement for firmware to have Firmware Interface Table
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.MicrocodeRegionLength =
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* (FIT), which contains pointers to each microcode update.
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(UINT32)CONFIG_CPU_MICROCODE_CBFS_LEN,
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* The microcode update is loaded for all logical processors before
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* cpu reset vector.
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*
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* All SoC since Gen-4 has above mechanism in place to load microcode
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* even before hitting CPU reset vector. Hence skipping FSP-T loading
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* microcode after CPU reset by passing '0' value to
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* FSPT_UPD.MicrocodeRegionBase and FSPT_UPD.MicrocodeRegionLength.
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*/
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.MicrocodeRegionBase = 0,
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.MicrocodeRegionLength = 0,
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.CodeRegionBase =
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.CodeRegionBase =
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(UINT32)(0x100000000ULL - CONFIG_ROM_SIZE),
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(UINT32)(0x100000000ULL - CONFIG_ROM_SIZE),
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.CodeRegionLength = (UINT32)CONFIG_ROM_SIZE,
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.CodeRegionLength = (UINT32)CONFIG_ROM_SIZE,
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@ -23,10 +23,19 @@ const FSPT_UPD temp_ram_init_params = {
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.Reserved = {0},
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.Reserved = {0},
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},
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},
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.FsptCoreUpd = {
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.FsptCoreUpd = {
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.MicrocodeRegionBase =
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/*
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(uint32_t)CONFIG_CPU_MICROCODE_CBFS_LOC,
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* It is a requirement for firmware to have Firmware Interface Table
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.MicrocodeRegionSize =
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* (FIT), which contains pointers to each microcode update.
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(uint32_t)CONFIG_CPU_MICROCODE_CBFS_LEN,
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* The microcode update is loaded for all logical processors before
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* cpu reset vector.
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*
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* All SoC since Gen-4 has above mechanism in place to load microcode
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* even before hitting CPU reset vector. Hence skipping FSP-T loading
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* microcode after CPU reset by passing '0' value to
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* FSPT_UPD.MicrocodeRegionBase and FSPT_UPD.MicrocodeRegionLength.
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*/
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.MicrocodeRegionBase = 0,
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.MicrocodeRegionLength = 0,
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.CodeRegionBase =
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.CodeRegionBase =
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(uint32_t)(0x100000000ULL - CONFIG_ROM_SIZE),
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(uint32_t)(0x100000000ULL - CONFIG_ROM_SIZE),
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.CodeRegionSize = (uint32_t)CONFIG_ROM_SIZE,
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.CodeRegionSize = (uint32_t)CONFIG_ROM_SIZE,
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