1# 1GB and 512MB DDR targets do not locate secure DDR at the same place. 2flavor_dts_file-157A_DHCOR_AVENGER96 = stm32mp157a-dhcor-avenger96.dts 3flavor_dts_file-157A_DK1 = stm32mp157a-dk1.dts 4flavor_dts_file-157C_DHCOM_PDK2 = stm32mp157c-dhcom-pdk2.dts 5flavor_dts_file-157C_DK2 = stm32mp157c-dk2.dts 6flavor_dts_file-157C_ED1 = stm32mp157c-ed1.dts 7flavor_dts_file-157C_EV1 = stm32mp157c-ev1.dts 8 9flavor_dts_file-135F_DK = stm32mp135f-dk.dts 10 11flavorlist-cryp-512M = $(flavor_dts_file-157C_DK2) \ 12 $(flavor_dts_file-135F_DK) 13 14flavorlist-no_cryp-512M = $(flavor_dts_file-157A_DK1) 15 16flavorlist-cryp-1G = $(flavor_dts_file-157C_DHCOM_PDK2) \ 17 $(flavor_dts_file-157C_ED1) \ 18 $(flavor_dts_file-157C_EV1) 19 20flavorlist-no_cryp-1G = $(flavor_dts_file-157A_DHCOR_AVENGER96) 21 22flavorlist-no_cryp = $(flavorlist-no_cryp-512M) \ 23 $(flavorlist-no_cryp-1G) 24 25flavorlist-512M = $(flavorlist-cryp-512M) \ 26 $(flavorlist-no_cryp-512M) 27 28flavorlist-1G = $(flavorlist-cryp-1G) \ 29 $(flavorlist-no_cryp-1G) 30 31flavorlist-MP15-HUK-DT = $(flavor_dts_file-157A_DK1) \ 32 $(flavor_dts_file-157C_DK2) \ 33 $(flavor_dts_file-157C_ED1) \ 34 $(flavor_dts_file-157C_EV1) 35 36flavorlist-MP15 = $(flavor_dts_file-157A_DHCOR_AVENGER96) \ 37 $(flavor_dts_file-157A_DK1) \ 38 $(flavor_dts_file-157C_DHCOM_PDK2) \ 39 $(flavor_dts_file-157C_DK2) \ 40 $(flavor_dts_file-157C_ED1) \ 41 $(flavor_dts_file-157C_EV1) 42 43flavorlist-MP13 = $(flavor_dts_file-135F_DK) 44 45ifneq ($(PLATFORM_FLAVOR),) 46ifeq ($(flavor_dts_file-$(PLATFORM_FLAVOR)),) 47$(error Invalid platform flavor $(PLATFORM_FLAVOR)) 48endif 49CFG_EMBED_DTB_SOURCE_FILE ?= $(flavor_dts_file-$(PLATFORM_FLAVOR)) 50endif 51CFG_EMBED_DTB_SOURCE_FILE ?= stm32mp157c-dk2.dts 52 53ifneq ($(filter $(CFG_EMBED_DTB_SOURCE_FILE),$(flavorlist-no_cryp)),) 54$(call force,CFG_STM32_CRYP,n) 55$(call force,CFG_STM32_SAES,n) 56endif 57 58ifneq ($(filter $(CFG_EMBED_DTB_SOURCE_FILE),$(flavorlist-no_rng)),) 59$(call force,CFG_HWRNG_PTA,n) 60$(call force,CFG_WITH_SOFTWARE_PRNG,y) 61endif 62 63ifneq ($(filter $(CFG_EMBED_DTB_SOURCE_FILE),$(flavorlist-MP15-HUK-DT)),) 64CFG_STM32MP15_HUK ?= y 65CFG_STM32_HUK_FROM_DT ?= y 66endif 67 68ifneq ($(filter $(CFG_EMBED_DTB_SOURCE_FILE),$(flavorlist-MP13)),) 69$(call force,CFG_STM32MP13,y) 70endif 71 72ifneq ($(filter $(CFG_EMBED_DTB_SOURCE_FILE),$(flavorlist-MP15)),) 73$(call force,CFG_STM32MP15,y) 74endif 75 76# CFG_STM32MP1x switches are exclusive. 77# - CFG_STM32MP15 is enabled for STM32MP15x-* targets (default) 78# - CFG_STM32MP13 is enabled for STM32MP13x-* targets 79ifeq ($(CFG_STM32MP13),y) 80$(call force,CFG_STM32MP15,n) 81else 82$(call force,CFG_STM32MP15,y) 83$(call force,CFG_STM32MP13,n) 84endif 85ifeq ($(call cfg-one-enabled,CFG_STM32MP15 CFG_STM32MP13),n) 86$(error One of CFG_STM32MP15 CFG_STM32MP13 must be enabled) 87endif 88ifeq ($(call cfg-all-enabled,CFG_STM32MP15 CFG_STM32MP13),y) 89$(error Only one of CFG_STM32MP15 CFG_STM32MP13 must be enabled) 90endif 91 92include core/arch/arm/cpu/cortex-a7.mk 93 94$(call force,CFG_DRIVERS_CLK,y) 95$(call force,CFG_DRIVERS_CLK_DT,y) 96$(call force,CFG_DRIVERS_GPIO,y) 97$(call force,CFG_DRIVERS_PINCTRL,y) 98$(call force,CFG_DRIVERS_REGULATOR,y) 99$(call force,CFG_GIC,y) 100$(call force,CFG_INIT_CNTVOFF,y) 101$(call force,CFG_PSCI_ARM32,y) 102$(call force,CFG_SECURE_TIME_SOURCE_CNTPCT,y) 103$(call force,CFG_SM_PLATFORM_HANDLER,y) 104$(call force,CFG_STM32_SHARED_IO,y) 105$(call force,CFG_REGULATOR_FIXED,y) 106 107ifeq ($(CFG_STM32MP13),y) 108$(call force,CFG_BOOT_SECONDARY_REQUEST,n) 109$(call force,CFG_CORE_ASYNC_NOTIF,y) 110$(call force,CFG_CORE_ASYNC_NOTIF_GIC_INTID,31) 111$(call force,CFG_CORE_RESERVED_SHM,n) 112$(call force,CFG_DRIVERS_CLK_FIXED,y) 113$(call force,CFG_SECONDARY_INIT_CNTFRQ,n) 114$(call force,CFG_STM32_GPIO,y) 115$(call force,CFG_STM32_VREFBUF,y) 116$(call force,CFG_STM32MP_CLK_CORE,y) 117$(call force,CFG_STM32MP1_SHARED_RESOURCES,n) 118$(call force,CFG_STM32MP13_CLK,y) 119$(call force,CFG_TEE_CORE_NB_CORE,1) 120$(call force,CFG_WITH_NSEC_GPIOS,n) 121CFG_EXTERNAL_DT ?= n 122CFG_STM32MP_OPP_COUNT ?= 2 123CFG_WITH_PAGER ?= n 124endif # CFG_STM32MP13 125 126ifeq ($(CFG_STM32MP15),y) 127$(call force,CFG_BOOT_SECONDARY_REQUEST,y) 128$(call force,CFG_DRIVERS_CLK_FIXED,n) 129$(call force,CFG_SECONDARY_INIT_CNTFRQ,y) 130$(call force,CFG_STM32MP1_SHARED_RESOURCES,y) 131$(call force,CFG_STM32_SAES,n) 132$(call force,CFG_STM32MP15_CLK,y) 133CFG_CORE_RESERVED_SHM ?= n 134CFG_EXTERNAL_DT ?= y 135CFG_STM32_BSEC_SIP ?= y 136CFG_TEE_CORE_NB_CORE ?= 2 137CFG_WITH_PAGER ?= y 138CFG_WITH_SOFTWARE_PRNG ?= y 139endif # CFG_STM32MP15 140 141ifeq ($(CFG_WITH_PAGER),y) 142CFG_WITH_LPAE ?= n 143endif 144CFG_WITH_LPAE ?= y 145CFG_MMAP_REGIONS ?= 23 146CFG_DTB_MAX_SIZE ?= (256 * 1024) 147CFG_CORE_ASLR ?= n 148 149ifneq ($(CFG_WITH_LPAE),y) 150# Without LPAE, default TEE virtual address range is 1MB, we need at least 2MB. 151CFG_TEE_RAM_VA_SIZE ?= 0x00200000 152endif 153 154ifneq ($(filter $(CFG_EMBED_DTB_SOURCE_FILE),$(flavorlist-512M)),) 155CFG_TZDRAM_START ?= 0xde000000 156CFG_DRAM_SIZE ?= 0x20000000 157endif 158 159CFG_DRAM_BASE ?= 0xc0000000 160CFG_DRAM_SIZE ?= 0x40000000 161 162# CFG_STM32MP1_SCMI_SHM_BASE and CFG_STM32MP1_SCMI_SHM_SIZE define the 163# device memory mapped SRAM used for SCMI message transfers. 164# When CFG_STM32MP1_SCMI_SHM_BASE is set to 0, the platform uses OP-TEE 165# native shared memory for SCMI communication instead of SRAM. 166# 167# When CFG_STM32MP1_SCMI_SHM_SYSRAM is enabled, OP-TEE uses the 168# last 4KB page of SYSRAM as SCMI shared memory. The switch is default 169# disabled. 170CFG_STM32MP1_SCMI_SHM_SYSRAM ?= n 171ifeq ($(CFG_STM32MP1_SCMI_SHM_SYSRAM),y) 172$(call force,CFG_STM32MP1_SCMI_SHM_BASE,0x2ffff000) 173else 174CFG_STM32MP1_SCMI_SHM_BASE ?= 0 175endif 176$(call force,CFG_STM32MP1_SCMI_SHM_SIZE,0x1000) 177 178ifeq ($(CFG_STM32MP15),y) 179CFG_TZDRAM_START ?= 0xfe000000 180ifeq ($(CFG_CORE_RESERVED_SHM),y) 181CFG_TZDRAM_SIZE ?= 0x01e00000 182else 183CFG_TZDRAM_SIZE ?= 0x02000000 184endif 185CFG_TZSRAM_START ?= 0x2ffc0000 186CFG_TZSRAM_SIZE ?= 0x0003f000 187ifeq ($(CFG_CORE_RESERVED_SHM),y) 188CFG_SHMEM_START ?= ($(CFG_TZDRAM_START) + $(CFG_TZDRAM_SIZE)) 189CFG_SHMEM_SIZE ?= ($(CFG_DRAM_BASE) + $(CFG_DRAM_SIZE) - $(CFG_SHMEM_START)) 190endif 191else 192CFG_TZDRAM_SIZE ?= 0x02000000 193CFG_TZDRAM_START ?= ($(CFG_DRAM_BASE) + $(CFG_DRAM_SIZE) - $(CFG_TZDRAM_SIZE)) 194endif #CFG_STM32MP15 195 196CFG_STM32_BSEC ?= y 197CFG_STM32_CRYP ?= y 198CFG_STM32_ETZPC ?= y 199CFG_STM32_GPIO ?= y 200CFG_STM32_I2C ?= y 201CFG_STM32_IWDG ?= y 202CFG_STM32_RNG ?= y 203CFG_STM32_RSTCTRL ?= y 204CFG_STM32_SAES ?= y 205CFG_STM32_TAMP ?= y 206CFG_STM32_UART ?= y 207CFG_STPMIC1 ?= y 208CFG_TZC400 ?= y 209 210CFG_DRIVERS_I2C ?= $(CFG_STM32_I2C) 211 212CFG_WITH_SOFTWARE_PRNG ?= n 213ifneq ($(CFG_WITH_SOFTWARE_PRNG),y) 214$(call force,CFG_STM32_RNG,y,Required by HW RNG when CFG_WITH_SOFTWARE_PRNG=n) 215endif 216 217ifeq ($(CFG_STPMIC1),y) 218$(call force,CFG_STM32_I2C,y) 219$(call force,CFG_STM32_GPIO,y) 220endif 221 222# If any crypto driver is enabled, enable the crypto-framework layer 223ifeq ($(call cfg-one-enabled, CFG_STM32_CRYP CFG_STM32_SAES),y) 224$(call force,CFG_STM32_CRYPTO_DRIVER,y) 225endif 226 227CFG_DRIVERS_RSTCTRL ?= $(CFG_STM32_RSTCTRL) 228$(eval $(call cfg-depends-all,CFG_STM32_RSTCTRL,CFG_DRIVERS_RSTCTRL)) 229 230CFG_WDT ?= $(CFG_STM32_IWDG) 231 232# Platform specific configuration 233CFG_STM32MP_PANIC_ON_TZC_PERM_VIOLATION ?= y 234 235# Default enable scmi-msg server if SCP-firmware SCMI server is disabled 236ifneq ($(CFG_SCMI_SCPFW),y) 237CFG_SCMI_MSG_DRIVERS ?= y 238endif 239 240# SiP/OEM service for non-secure world 241CFG_STM32_BSEC_SIP ?= n 242CFG_STM32MP1_SCMI_SIP ?= n 243ifeq ($(CFG_STM32MP1_SCMI_SIP),y) 244$(call force,CFG_SCMI_MSG_DRIVERS,y,Mandated by CFG_STM32MP1_SCMI_SIP) 245$(call force,CFG_SCMI_MSG_SMT,y,Mandated by CFG_STM32MP1_SCMI_SIP) 246$(call force,CFG_SCMI_MSG_SMT_FASTCALL_ENTRY,y,Mandated by CFG_STM32MP1_SCMI_SIP) 247endif 248 249# Enable BSEC PTA for fuses access management 250CFG_STM32_BSEC_PTA ?= y 251ifeq ($(CFG_STM32_BSEC_PTA),y) 252$(call force,CFG_STM32_BSEC,y,Mandated by CFG_BSEC_PTA) 253endif 254 255# Default enable SCMI PTA support 256CFG_SCMI_PTA ?= y 257ifeq ($(CFG_SCMI_PTA),y) 258ifneq ($(CFG_SCMI_SCPFW),y) 259$(call force,CFG_SCMI_MSG_DRIVERS,y,Mandated by CFG_SCMI_PTA) 260CFG_SCMI_MSG_SMT_THREAD_ENTRY ?= y 261CFG_SCMI_MSG_SHM_MSG ?= y 262CFG_SCMI_MSG_SMT ?= y 263endif # !CFG_SCMI_SCPFW 264endif # CFG_SCMI_PTA 265 266CFG_SCMI_SCPFW ?= n 267ifeq ($(CFG_SCMI_SCPFW),y) 268$(call force,CFG_SCMI_SCPFW_PRODUCT,optee-stm32mp1) 269endif 270 271CFG_SCMI_MSG_DRIVERS ?= n 272ifeq ($(CFG_SCMI_MSG_DRIVERS),y) 273$(call force,CFG_SCMI_MSG_CLOCK,y) 274$(call force,CFG_SCMI_MSG_RESET_DOMAIN,y) 275CFG_SCMI_MSG_SHM_MSG ?= y 276CFG_SCMI_MSG_SMT ?= y 277CFG_SCMI_MSG_SMT_THREAD_ENTRY ?= y 278$(call force,CFG_SCMI_MSG_VOLTAGE_DOMAIN,y) 279endif 280 281ifneq ($(CFG_WITH_SOFTWARE_PRNG),y) 282CFG_HWRNG_PTA ?= y 283endif 284ifeq ($(CFG_HWRNG_PTA),y) 285$(call force,CFG_STM32_RNG,y,Mandated by CFG_HWRNG_PTA) 286$(call force,CFG_WITH_SOFTWARE_PRNG,n,Mandated by CFG_HWRNG_PTA) 287$(call force,CFG_HWRNG_QUALITY,1024) 288endif 289 290# Provision enough threads to pass xtest 291ifneq (,$(filter y,$(CFG_SCMI_PTA) $(CFG_STM32MP1_SCMI_SIP))) 292ifeq ($(CFG_WITH_PAGER),y) 293CFG_NUM_THREADS ?= 3 294else 295CFG_NUM_THREADS ?= 10 296endif 297endif 298 299# Default enable some test facitilites 300CFG_ENABLE_EMBEDDED_TESTS ?= y 301CFG_WITH_STATS ?= y 302 303# Enable OTP update with BSEC driver 304CFG_STM32_BSEC_WRITE ?= y 305 306# Default disable some support for pager memory size constraint 307ifeq ($(CFG_WITH_PAGER),y) 308CFG_TEE_CORE_DEBUG ?= n 309CFG_UNWIND ?= n 310CFG_LOCKDEP ?= n 311CFG_TA_BGET_TEST ?= n 312# Default disable early TA compression to support a smaller HEAP size 313CFG_EARLY_TA_COMPRESS ?= n 314CFG_CORE_HEAP_SIZE ?= 49152 315endif 316 317# Non-secure UART and GPIO/pinctrl for the output console 318CFG_WITH_NSEC_GPIOS ?= y 319CFG_WITH_NSEC_UARTS ?= y 320# UART instance used for early console (0 disables early console) 321CFG_STM32_EARLY_CONSOLE_UART ?= 4 322 323# CFG_STM32MP15_HUK enables use of a HUK read from BSEC fuses. 324# Disable the HUK by default as it requires a product specific configuration. 325# 326# Configuration must provide OTP indices where HUK is loaded. 327# When CFG_STM32_HUK_FROM_DT is enabled, HUK OTP location is found in the DT. 328# When CFG_STM32_HUK_FROM_DT is disabled, configuration sets each HUK location. 329# Either with CFG_STM32MP15_HUK_OTP_BASE, in which case the 4 words are used, 330# Or with CFG_STM32MP15_HUK_BSEC_KEY_0/1/2/3 each locating one BSEC word. 331# 332# Configuration must provide the HUK generation scheme. The following switches 333# are exclusive and at least one must be eable when CFG_STM32MP15_HUK is enable. 334# CFG_STM32MP15_HUK_BSEC_KEY makes platform HUK to be the raw fuses content. 335# CFG_STM32MP15_HUK_BSEC_DERIVE_UID makes platform HUK to be the HUK fuses 336# content derived with the device UID fuses content. See derivation scheme 337# in stm32mp15_huk.c implementation. 338CFG_STM32MP15_HUK ?= n 339CFG_STM32_HUK_FROM_DT ?= n 340 341ifeq ($(CFG_STM32MP15_HUK),y) 342ifneq ($(CFG_STM32_HUK_FROM_DT),y) 343ifneq (,$(CFG_STM32MP15_HUK_OTP_BASE)) 344$(call force,CFG_STM32MP15_HUK_BSEC_KEY_0,CFG_STM32MP15_HUK_OTP_BASE) 345$(call force,CFG_STM32MP15_HUK_BSEC_KEY_1,(CFG_STM32MP15_HUK_OTP_BASE + 1)) 346$(call force,CFG_STM32MP15_HUK_BSEC_KEY_2,(CFG_STM32MP15_HUK_OTP_BASE + 2)) 347$(call force,CFG_STM32MP15_HUK_BSEC_KEY_3,(CFG_STM32MP15_HUK_OTP_BASE + 3)) 348endif 349ifeq (,$(CFG_STM32MP15_HUK_BSEC_KEY_0)) 350$(error Missing configuration switch CFG_STM32MP15_HUK_BSEC_KEY_0) 351endif 352ifeq (,$(CFG_STM32MP15_HUK_BSEC_KEY_1)) 353$(error Missing configuration switch CFG_STM32MP15_HUK_BSEC_KEY_1) 354endif 355ifeq (,$(CFG_STM32MP15_HUK_BSEC_KEY_2)) 356$(error Missing configuration switch CFG_STM32MP15_HUK_BSEC_KEY_2) 357endif 358ifeq (,$(CFG_STM32MP15_HUK_BSEC_KEY_3)) 359$(error Missing configuration switch CFG_STM32MP15_HUK_BSEC_KEY_3) 360endif 361endif # CFG_STM32_HUK_FROM_DT 362 363CFG_STM32MP15_HUK_BSEC_KEY ?= y 364CFG_STM32MP15_HUK_BSEC_DERIVE_UID ?= n 365ifneq (y,$(call cfg-one-enabled,CFG_STM32MP15_HUK_BSEC_KEY CFG_STM32MP15_HUK_BSEC_DERIVE_UID)) 366$(error CFG_STM32MP15_HUK mandates one of CFG_STM32MP15_HUK_BSEC_KEY CFG_STM32MP15_HUK_BSEC_DERIVE_UID) 367else ifeq ($(CFG_STM32MP15_HUK_BSEC_KEY)-$(CFG_STM32MP15_HUK_BSEC_DERIVE_UID),y-y) 368$(error CFG_STM32MP15_HUK_BSEC_KEY and CFG_STM32MP15_HUK_BSEC_DERIVE_UID are exclusive) 369endif 370endif # CFG_STM32MP15_HUK 371 372CFG_TEE_CORE_DEBUG ?= y 373CFG_STM32_DEBUG_ACCESS ?= $(CFG_TEE_CORE_DEBUG) 374 375# Sanity on choice config switches 376ifeq ($(call cfg-all-enabled,CFG_STM32MP15 CFG_STM32MP13),y) 377$(error CFG_STM32MP13_CLK and CFG_STM32MP15_CLK are exclusive) 378endif 379