// SPDX-License-Identifier: GPL-2.0+ OR BSD-3-Clause /* * Copyright (C) 2019, STMicroelectronics - All Rights Reserved */ #include #include #include #include #include #define ETZPC_DECPROT(n) (STM32_ETZPC_BASE + 0x10 + 4 * (n)) #define ETZPC_DECPROT_NB 6 #define DECPROT_MASK 0x03 #define NB_PROT_PER_REG 0x10 #define DECPROT_NB_BITS 2 #define DECPROT_SECURED 0x00 #define DECPROT_WRITE_SECURE 0x01 #define DECPROT_MCU_ISOLATION 0x02 #define DECPROT_NON_SECURED 0x03 #define ETZPC_RESERVED 0xffffffff #define STM32_FDCAN_BASE 0x4400e000 #define STM32_CRYP2_BASE 0x4c005000 #define STM32_CRYP1_BASE 0x54001000 #define STM32_GPU_BASE 0x59000000 #define STM32_DSI_BASE 0x5a000000 static const u32 stm32mp1_ip_addr[] = { 0x5c008000, /* 00 stgenc */ 0x54000000, /* 01 bkpsram */ 0x5c003000, /* 02 iwdg1 */ 0x5c000000, /* 03 usart1 */ 0x5c001000, /* 04 spi6 */ 0x5c002000, /* 05 i2c4 */ ETZPC_RESERVED, /* 06 reserved */ 0x54003000, /* 07 rng1 */ 0x54002000, /* 08 hash1 */ STM32_CRYP1_BASE, /* 09 cryp1 */ 0x5a003000, /* 0A ddrctrl */ 0x5a004000, /* 0B ddrphyc */ 0x5c009000, /* 0C i2c6 */ ETZPC_RESERVED, /* 0D reserved */ ETZPC_RESERVED, /* 0E reserved */ ETZPC_RESERVED, /* 0F reserved */ 0x40000000, /* 10 tim2 */ 0x40001000, /* 11 tim3 */ 0x40002000, /* 12 tim4 */ 0x40003000, /* 13 tim5 */ 0x40004000, /* 14 tim6 */ 0x40005000, /* 15 tim7 */ 0x40006000, /* 16 tim12 */ 0x40007000, /* 17 tim13 */ 0x40008000, /* 18 tim14 */ 0x40009000, /* 19 lptim1 */ 0x4000a000, /* 1A wwdg1 */ 0x4000b000, /* 1B spi2 */ 0x4000c000, /* 1C spi3 */ 0x4000d000, /* 1D spdifrx */ 0x4000e000, /* 1E usart2 */ 0x4000f000, /* 1F usart3 */ 0x40010000, /* 20 uart4 */ 0x40011000, /* 21 uart5 */ 0x40012000, /* 22 i2c1 */ 0x40013000, /* 23 i2c2 */ 0x40014000, /* 24 i2c3 */ 0x40015000, /* 25 i2c5 */ 0x40016000, /* 26 cec */ 0x40017000, /* 27 dac */ 0x40018000, /* 28 uart7 */ 0x40019000, /* 29 uart8 */ ETZPC_RESERVED, /* 2A reserved */ ETZPC_RESERVED, /* 2B reserved */ 0x4001c000, /* 2C mdios */ ETZPC_RESERVED, /* 2D reserved */ ETZPC_RESERVED, /* 2E reserved */ ETZPC_RESERVED, /* 2F reserved */ 0x44000000, /* 30 tim1 */ 0x44001000, /* 31 tim8 */ ETZPC_RESERVED, /* 32 reserved */ 0x44003000, /* 33 usart6 */ 0x44004000, /* 34 spi1 */ 0x44005000, /* 35 spi4 */ 0x44006000, /* 36 tim15 */ 0x44007000, /* 37 tim16 */ 0x44008000, /* 38 tim17 */ 0x44009000, /* 39 spi5 */ 0x4400a000, /* 3A sai1 */ 0x4400b000, /* 3B sai2 */ 0x4400c000, /* 3C sai3 */ 0x4400d000, /* 3D dfsdm */ STM32_FDCAN_BASE, /* 3E tt_fdcan */ ETZPC_RESERVED, /* 3F reserved */ 0x50021000, /* 40 lptim2 */ 0x50022000, /* 41 lptim3 */ 0x50023000, /* 42 lptim4 */ 0x50024000, /* 43 lptim5 */ 0x50027000, /* 44 sai4 */ 0x50025000, /* 45 vrefbuf */ 0x4c006000, /* 46 dcmi */ 0x4c004000, /* 47 crc2 */ 0x48003000, /* 48 adc */ 0x4c002000, /* 49 hash2 */ 0x4c003000, /* 4A rng2 */ STM32_CRYP2_BASE, /* 4B cryp2 */ ETZPC_RESERVED, /* 4C reserved */ ETZPC_RESERVED, /* 4D reserved */ ETZPC_RESERVED, /* 4E reserved */ ETZPC_RESERVED, /* 4F reserved */ ETZPC_RESERVED, /* 50 sram1 */ ETZPC_RESERVED, /* 51 sram2 */ ETZPC_RESERVED, /* 52 sram3 */ ETZPC_RESERVED, /* 53 sram4 */ ETZPC_RESERVED, /* 54 retram */ 0x49000000, /* 55 otg */ 0x48004000, /* 56 sdmmc3 */ 0x48005000, /* 57 dlybsd3 */ 0x48000000, /* 58 dma1 */ 0x48001000, /* 59 dma2 */ 0x48002000, /* 5A dmamux */ 0x58002000, /* 5B fmc */ 0x58003000, /* 5C qspi */ 0x58004000, /* 5D dlybq */ 0x5800a000, /* 5E eth */ ETZPC_RESERVED, /* 5F reserved */ }; /* fdt helper */ static bool fdt_disable_subnode_by_address(void *fdt, int offset, u32 addr) { int node; fdt_addr_t regs; for (node = fdt_first_subnode(fdt, offset); node >= 0; node = fdt_next_subnode(fdt, node)) { regs = fdtdec_get_addr(fdt, node, "reg"); if (addr == regs) { if (fdtdec_get_is_enabled(fdt, node)) { fdt_status_disabled(fdt, node); return true; } return false; } } return false; } static int stm32_fdt_fixup_etzpc(void *fdt, int soc_node) { const u32 *array; int array_size, i; int offset, shift; u32 addr, status, decprot[ETZPC_DECPROT_NB]; array = stm32mp1_ip_addr; array_size = ARRAY_SIZE(stm32mp1_ip_addr); for (i = 0; i < ETZPC_DECPROT_NB; i++) decprot[i] = readl(ETZPC_DECPROT(i)); for (i = 0; i < array_size; i++) { offset = i / NB_PROT_PER_REG; shift = (i % NB_PROT_PER_REG) * DECPROT_NB_BITS; status = (decprot[offset] >> shift) & DECPROT_MASK; addr = array[i]; debug("ETZPC: 0x%08x decprot %d=%d\n", addr, i, status); if (addr == ETZPC_RESERVED || status == DECPROT_NON_SECURED) continue; if (fdt_disable_subnode_by_address(fdt, soc_node, addr)) printf("ETZPC: 0x%08x node disabled, decprot %d=%d\n", addr, i, status); } return 0; } /* deactivate all the cpu except core 0 */ static void stm32_fdt_fixup_cpu(void *blob, char *name) { int off; u32 reg; off = fdt_path_offset(blob, "/cpus"); if (off < 0) { printf("%s: couldn't find /cpus node\n", __func__); return; } off = fdt_node_offset_by_prop_value(blob, -1, "device_type", "cpu", 4); while (off != -FDT_ERR_NOTFOUND) { reg = fdtdec_get_addr(blob, off, "reg"); if (reg != 0) { fdt_del_node(blob, off); printf("FDT: cpu %d node remove for %s\n", reg, name); /* after delete we can't trust the offsets anymore */ off = -1; } off = fdt_node_offset_by_prop_value(blob, off, "device_type", "cpu", 4); } } static void stm32_fdt_disable(void *fdt, int offset, u32 addr, const char *string, const char *name) { if (fdt_disable_subnode_by_address(fdt, offset, addr)) printf("FDT: %s@%08x node disabled for %s\n", string, addr, name); } /* * This function is called right before the kernel is booted. "blob" is the * device tree that will be passed to the kernel. */ int ft_system_setup(void *blob, bd_t *bd) { int ret = 0; int soc; u32 pkg, cpu; char name[SOC_NAME_SIZE]; soc = fdt_path_offset(blob, "/soc"); if (soc < 0) return soc; if (CONFIG_IS_ENABLED(STM32_ETZPC)) { ret = stm32_fdt_fixup_etzpc(blob, soc); if (ret) return ret; } /* MPUs Part Numbers and name*/ cpu = get_cpu_type(); get_soc_name(name); switch (cpu) { case CPU_STM32MP151Fxx: case CPU_STM32MP151Dxx: case CPU_STM32MP151Cxx: case CPU_STM32MP151Axx: stm32_fdt_fixup_cpu(blob, name); /* after cpu delete we can't trust the soc offsets anymore */ soc = fdt_path_offset(blob, "/soc"); stm32_fdt_disable(blob, soc, STM32_FDCAN_BASE, "can", name); /* fall through */ case CPU_STM32MP153Fxx: case CPU_STM32MP153Dxx: case CPU_STM32MP153Cxx: case CPU_STM32MP153Axx: stm32_fdt_disable(blob, soc, STM32_GPU_BASE, "gpu", name); stm32_fdt_disable(blob, soc, STM32_DSI_BASE, "dsi", name); break; default: break; } switch (cpu) { case CPU_STM32MP157Dxx: case CPU_STM32MP157Axx: case CPU_STM32MP153Dxx: case CPU_STM32MP153Axx: case CPU_STM32MP151Dxx: case CPU_STM32MP151Axx: stm32_fdt_disable(blob, soc, STM32_CRYP1_BASE, "cryp", name); stm32_fdt_disable(blob, soc, STM32_CRYP2_BASE, "cryp", name); break; default: break; } switch (get_cpu_package()) { case PKG_AA_LBGA448: pkg = STM32MP_PKG_AA; break; case PKG_AB_LBGA354: pkg = STM32MP_PKG_AB; break; case PKG_AC_TFBGA361: pkg = STM32MP_PKG_AC; break; case PKG_AD_TFBGA257: pkg = STM32MP_PKG_AD; break; default: pkg = 0; break; } if (pkg) { do_fixup_by_compat_u32(blob, "st,stm32mp157-pinctrl", "st,package", pkg, false); do_fixup_by_compat_u32(blob, "st,stm32mp157-z-pinctrl", "st,package", pkg, false); } return ret; }