/* * Copyright (c) 2021, MediaTek Inc. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include static bool dfd_enabled; static uint64_t dfd_base_addr; static uint64_t dfd_chain_length; static uint64_t dfd_cache_dump; static void dfd_setup(uint64_t base_addr, uint64_t chain_length, uint64_t cache_dump) { /* bit[0]: rg_rw_dfd_internal_dump_en -> 1 */ /* bit[2]: rg_rw_dfd_clock_stop_en -> 1 */ sync_writel(DFD_INTERNAL_CTL, 0x5); /* bit[13]: xreset_b_update_disable */ mmio_setbits_32(DFD_INTERNAL_CTL, 0x1 << 13); /* * bit[10:3]: DFD trigger selection mask * bit[3]: rg_rw_dfd_trigger_sel[0] = 1(enable wdt trigger) * bit[4]: rg_rw_dfd_trigger_sel[1] = 1(enable HW trigger) * bit[5]: rg_rw_dfd_trigger_sel[2] = 1(enable SW trigger) * bit[6]: rg_rw_dfd_trigger_sel[3] = 1(enable SW non-security trigger) * bit[7]: rg_rw_dfd_trigger_sel[4] = 1(enable timer trigger) */ mmio_setbits_32(DFD_INTERNAL_CTL, 0x1 << 3); /* bit[20:19]: rg_dfd_armpll_div_mux_sel switch to PLL2 for DFD */ mmio_setbits_32(DFD_INTERNAL_CTL, 0x3 << 19); /* * bit[0]: rg_rw_dfd_auto_power_on = 1 * bit[2:1]: rg_rw_dfd_auto_power_on_dely = 1(10us) * bit[4:2]: rg_rw_dfd_power_on_wait_time = 1(20us) */ mmio_write_32(DFD_INTERNAL_PWR_ON, 0xB); /* longest scan chain length */ mmio_write_32(DFD_CHAIN_LENGTH0, chain_length); /* bit[1:0]: rg_rw_dfd_shift_clock_ratio */ mmio_write_32(DFD_INTERNAL_SHIFT_CLK_RATIO, 0x0); /* rg_dfd_test_so_over_64 */ mmio_write_32(DFD_INTERNAL_TEST_SO_OVER_64, 0x1); /* DFD3.0 */ mmio_write_32(DFD_TEST_SI_0, DFD_TEST_SI_0_CACHE_DIS_VAL); mmio_write_32(DFD_TEST_SI_1, DFD_TEST_SI_1_VAL); mmio_write_32(DFD_TEST_SI_2, DFD_TEST_SI_2_VAL); mmio_write_32(DFD_TEST_SI_3, DFD_TEST_SI_3_VAL); /* for iLDO feature */ sync_writel(DFD_POWER_CTL, 0xF9); /* set base address */ mmio_write_32(DFD_O_SET_BASEADDR_REG, base_addr >> 24); /* * disable sleep protect of DFD * 10001220[8]: protect_en_reg[8] * 10001a3c[2]: infra_mcu_pwr_ctl_mask[2] */ mmio_clrbits_32(DFD_O_PROTECT_EN_REG, 1 << 8); mmio_clrbits_32(DFD_O_INTRF_MCU_PWR_CTL_MASK, 1 << 2); /* clean DFD trigger status */ sync_writel(DFD_CLEAN_STATUS, 0x1); sync_writel(DFD_CLEAN_STATUS, 0x0); /* DFD-3.0 */ sync_writel(DFD_V30_CTL, 0x1); /* setup global variables for suspend and resume */ dfd_enabled = true; dfd_base_addr = base_addr; dfd_chain_length = chain_length; dfd_cache_dump = cache_dump; if ((cache_dump & DFD_CACHE_DUMP_ENABLE) != 0UL) { /* DFD3.5 */ mmio_write_32(DFD_TEST_SI_0, DFD_TEST_SI_0_CACHE_EN_VAL); sync_writel(DFD_V35_ENALBE, 0x1); sync_writel(DFD_V35_TAP_NUMBER, 0xB); sync_writel(DFD_V35_TAP_EN, DFD_V35_TAP_EN_VAL); sync_writel(DFD_V35_SEQ0_0, DFD_V35_SEQ0_0_VAL); if (cache_dump & DFD_PARITY_ERR_TRIGGER) { sync_writel(DFD_HW_TRIGGER_MASK, 0xC); mmio_setbits_32(DFD_INTERNAL_CTL, 0x1 << 4); } } dsbsy(); } void dfd_resume(void) { if (dfd_enabled == true) { dfd_setup(dfd_base_addr, dfd_chain_length, dfd_cache_dump); } } uint64_t dfd_smc_dispatcher(uint64_t arg0, uint64_t arg1, uint64_t arg2, uint64_t arg3) { uint64_t ret = 0L; switch (arg0) { case PLAT_MTK_DFD_SETUP_MAGIC: dfd_setup(arg1, arg2, arg3); break; case PLAT_MTK_DFD_READ_MAGIC: /* only allow to access DFD register base + 0x200 */ if (arg1 <= 0x200) { ret = mmio_read_32(MISC1_CFG_BASE + arg1); } break; case PLAT_MTK_DFD_WRITE_MAGIC: /* only allow to access DFD register base + 0x200 */ if (arg1 <= 0x200) { sync_writel(MISC1_CFG_BASE + arg1, arg2); } break; default: ret = MTK_SIP_E_INVALID_PARAM; break; } return ret; }