/* * Copyright (c) 2015-2017, ARM Limited and Contributors. All rights reserved. * Copyright (c) 2019-2020, NVIDIA Corporation. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Video Memory base and size (live values) */ static uint64_t video_mem_base; static uint64_t video_mem_size_mb; /* * Init Memory controller during boot. */ void tegra_memctrl_setup(void) { uint32_t val; const uint32_t *mc_streamid_override_regs; uint32_t num_streamid_override_regs; const mc_streamid_security_cfg_t *mc_streamid_sec_cfgs; uint32_t num_streamid_sec_cfgs; const tegra_mc_settings_t *plat_mc_settings = tegra_get_mc_settings(); uint32_t i; INFO("Tegra Memory Controller (v2)\n"); /* Program the SMMU pagesize */ tegra_smmu_init(); /* Get the settings from the platform */ assert(plat_mc_settings != NULL); mc_streamid_override_regs = plat_mc_settings->streamid_override_cfg; num_streamid_override_regs = plat_mc_settings->num_streamid_override_cfgs; mc_streamid_sec_cfgs = plat_mc_settings->streamid_security_cfg; num_streamid_sec_cfgs = plat_mc_settings->num_streamid_security_cfgs; /* Program all the Stream ID overrides */ for (i = 0; i < num_streamid_override_regs; i++) tegra_mc_streamid_write_32(mc_streamid_override_regs[i], MC_STREAM_ID_MAX); /* Program the security config settings for all Stream IDs */ for (i = 0; i < num_streamid_sec_cfgs; i++) { val = mc_streamid_sec_cfgs[i].override_enable << 16 | mc_streamid_sec_cfgs[i].override_client_inputs << 8 | mc_streamid_sec_cfgs[i].override_client_ns_flag << 0; tegra_mc_streamid_write_32(mc_streamid_sec_cfgs[i].offset, val); } /* * All requests at boot time, and certain requests during * normal run time, are physically addressed and must bypass * the SMMU. The client hub logic implements a hardware bypass * path around the Translation Buffer Units (TBU). During * boot-time, the SMMU_BYPASS_CTRL register (which defaults to * TBU_BYPASS mode) will be used to steer all requests around * the uninitialized TBUs. During normal operation, this register * is locked into TBU_BYPASS_SID config, which routes requests * with special StreamID 0x7f on the bypass path and all others * through the selected TBU. This is done to disable SMMU Bypass * mode, as it could be used to circumvent SMMU security checks. */ tegra_mc_write_32(MC_SMMU_BYPASS_CONFIG, MC_SMMU_BYPASS_CONFIG_SETTINGS); /* * Re-configure MSS to allow ROC to deal with ordering of the * Memory Controller traffic. This is needed as the Memory Controller * boots with MSS having all control, but ROC provides a performance * boost as compared to MSS. */ if (plat_mc_settings->reconfig_mss_clients != NULL) { plat_mc_settings->reconfig_mss_clients(); } /* Program overrides for MC transactions */ if (plat_mc_settings->set_txn_overrides != NULL) { plat_mc_settings->set_txn_overrides(); } } /* * Restore Memory Controller settings after "System Suspend" */ void tegra_memctrl_restore_settings(void) { const tegra_mc_settings_t *plat_mc_settings = tegra_get_mc_settings(); assert(plat_mc_settings != NULL); /* * Re-configure MSS to allow ROC to deal with ordering of the * Memory Controller traffic. This is needed as the Memory Controller * resets during System Suspend with MSS having all control, but ROC * provides a performance boost as compared to MSS. */ if (plat_mc_settings->reconfig_mss_clients != NULL) { plat_mc_settings->reconfig_mss_clients(); } /* Program overrides for MC transactions */ if (plat_mc_settings->set_txn_overrides != NULL) { plat_mc_settings->set_txn_overrides(); } /* video memory carveout region */ if (video_mem_base != 0ULL) { tegra_mc_write_32(MC_VIDEO_PROTECT_BASE_LO, (uint32_t)video_mem_base); tegra_mc_write_32(MC_VIDEO_PROTECT_BASE_HI, (uint32_t)(video_mem_base >> 32)); tegra_mc_write_32(MC_VIDEO_PROTECT_SIZE_MB, video_mem_size_mb); /* * MCE propagates the VideoMem configuration values across the * CCPLEX. */ mce_update_gsc_videomem(); } } /* * Secure the BL31 DRAM aperture. * * phys_base = physical base of TZDRAM aperture * size_in_bytes = size of aperture in bytes */ void tegra_memctrl_tzdram_setup(uint64_t phys_base, uint32_t size_in_bytes) { /* * Perform platform specific steps. */ plat_memctrl_tzdram_setup(phys_base, size_in_bytes); } /* * Secure the BL31 TZRAM aperture. * * phys_base = physical base of TZRAM aperture * size_in_bytes = size of aperture in bytes */ void tegra_memctrl_tzram_setup(uint64_t phys_base, uint32_t size_in_bytes) { ; /* do nothing */ } /* * Save MC settings before "System Suspend" to TZDRAM */ void tegra_mc_save_context(uint64_t mc_ctx_addr) { const tegra_mc_settings_t *plat_mc_settings = tegra_get_mc_settings(); uint32_t i, num_entries = 0; mc_regs_t *mc_ctx_regs; const plat_params_from_bl2_t *params_from_bl2 = bl31_get_plat_params(); uint64_t tzdram_base = params_from_bl2->tzdram_base; uint64_t tzdram_end = tzdram_base + params_from_bl2->tzdram_size; assert((mc_ctx_addr >= tzdram_base) && (mc_ctx_addr <= tzdram_end)); /* get MC context table */ mc_ctx_regs = plat_mc_settings->get_mc_system_suspend_ctx(); assert(mc_ctx_regs != NULL); /* * mc_ctx_regs[0].val contains the size of the context table minus * the last entry. Sanity check the table size before we start with * the context save operation. */ while (mc_ctx_regs[num_entries].reg != 0xFFFFFFFFU) { num_entries++; } /* panic if the sizes do not match */ if (num_entries != mc_ctx_regs[0].val) { ERROR("MC context size mismatch!"); panic(); } /* save MC register values */ for (i = 1U; i < num_entries; i++) { mc_ctx_regs[i].val = mmio_read_32(mc_ctx_regs[i].reg); } /* increment by 1 to take care of the last entry */ num_entries++; /* Save MC config settings */ (void)memcpy((void *)mc_ctx_addr, mc_ctx_regs, sizeof(mc_regs_t) * num_entries); /* save the MC table address */ mmio_write_32(TEGRA_SCRATCH_BASE + SCRATCH_MC_TABLE_ADDR_LO, (uint32_t)mc_ctx_addr); mmio_write_32(TEGRA_SCRATCH_BASE + SCRATCH_MC_TABLE_ADDR_HI, (uint32_t)(mc_ctx_addr >> 32)); } static void tegra_lock_videomem_nonoverlap(uint64_t phys_base, uint64_t size_in_bytes) { uint32_t index; uint64_t total_128kb_blocks = size_in_bytes >> 17; uint64_t residual_4kb_blocks = (size_in_bytes & (uint32_t)0x1FFFF) >> 12; uint64_t val; /* * Reset the access configuration registers to restrict access to * old Videomem aperture */ for (index = MC_VIDEO_PROTECT_CLEAR_ACCESS_CFG0; index < ((uint32_t)MC_VIDEO_PROTECT_CLEAR_ACCESS_CFG0 + (uint32_t)MC_GSC_CONFIG_REGS_SIZE); index += 4U) { tegra_mc_write_32(index, 0); } /* * Set the base. It must be 4k aligned, at least. */ assert((phys_base & (uint64_t)0xFFF) == 0U); tegra_mc_write_32(MC_VIDEO_PROTECT_CLEAR_BASE_LO, (uint32_t)phys_base); tegra_mc_write_32(MC_VIDEO_PROTECT_CLEAR_BASE_HI, (uint32_t)(phys_base >> 32) & (uint32_t)MC_GSC_BASE_HI_MASK); /* * Set the aperture size * * total size = (number of 128KB blocks) + (number of remaining 4KB * blocks) * */ val = (uint32_t)((residual_4kb_blocks << MC_GSC_SIZE_RANGE_4KB_SHIFT) | total_128kb_blocks); tegra_mc_write_32(MC_VIDEO_PROTECT_CLEAR_SIZE, (uint32_t)val); /* * Lock the configuration settings by enabling TZ-only lock and * locking the configuration against any future changes from NS * world. */ tegra_mc_write_32(MC_VIDEO_PROTECT_CLEAR_CFG, (uint32_t)MC_GSC_ENABLE_TZ_LOCK_BIT); /* * MCE propagates the GSC configuration values across the * CCPLEX. */ } static void tegra_unlock_videomem_nonoverlap(void) { /* Clear the base */ tegra_mc_write_32(MC_VIDEO_PROTECT_CLEAR_BASE_LO, 0); tegra_mc_write_32(MC_VIDEO_PROTECT_CLEAR_BASE_HI, 0); /* Clear the size */ tegra_mc_write_32(MC_VIDEO_PROTECT_CLEAR_SIZE, 0); } static void tegra_clear_videomem(uintptr_t non_overlap_area_start, unsigned long long non_overlap_area_size) { int ret; /* * Map the NS memory first, clean it and then unmap it. */ ret = mmap_add_dynamic_region(non_overlap_area_start, /* PA */ non_overlap_area_start, /* VA */ non_overlap_area_size, /* size */ MT_NS | MT_RW | MT_EXECUTE_NEVER | MT_NON_CACHEABLE); /* attrs */ assert(ret == 0); zero_normalmem((void *)non_overlap_area_start, non_overlap_area_size); flush_dcache_range(non_overlap_area_start, non_overlap_area_size); (void)mmap_remove_dynamic_region(non_overlap_area_start, non_overlap_area_size); } /* * Program the Video Memory carveout region * * phys_base = physical base of aperture * size_in_bytes = size of aperture in bytes */ void tegra_memctrl_videomem_setup(uint64_t phys_base, uint32_t size_in_bytes) { uintptr_t vmem_end_old = video_mem_base + (video_mem_size_mb << 20); uintptr_t vmem_end_new = phys_base + size_in_bytes; unsigned long long non_overlap_area_size; /* * Setup the Memory controller to restrict CPU accesses to the Video * Memory region */ INFO("Configuring Video Memory Carveout\n"); /* * Configure Memory Controller directly for the first time. */ if (video_mem_base == 0U) goto done; /* * Lock the non overlapping memory being cleared so that other masters * do not accidently write to it. The memory would be unlocked once * the non overlapping region is cleared and the new memory * settings take effect. */ tegra_lock_videomem_nonoverlap(video_mem_base, video_mem_size_mb << 20); /* * Clear the old regions now being exposed. The following cases * can occur - * * 1. clear whole old region (no overlap with new region) * 2. clear old sub-region below new base * 3. clear old sub-region above new end */ INFO("Cleaning previous Video Memory Carveout\n"); if ((phys_base > vmem_end_old) || (video_mem_base > vmem_end_new)) { tegra_clear_videomem(video_mem_base, video_mem_size_mb << 20U); } else { if (video_mem_base < phys_base) { non_overlap_area_size = phys_base - video_mem_base; tegra_clear_videomem(video_mem_base, non_overlap_area_size); } if (vmem_end_old > vmem_end_new) { non_overlap_area_size = vmem_end_old - vmem_end_new; tegra_clear_videomem(vmem_end_new, non_overlap_area_size); } } done: /* program the Videomem aperture */ tegra_mc_write_32(MC_VIDEO_PROTECT_BASE_LO, (uint32_t)phys_base); tegra_mc_write_32(MC_VIDEO_PROTECT_BASE_HI, (uint32_t)(phys_base >> 32)); tegra_mc_write_32(MC_VIDEO_PROTECT_SIZE_MB, size_in_bytes >> 20); /* unlock the previous locked nonoverlapping aperture */ tegra_unlock_videomem_nonoverlap(); /* store new values */ video_mem_base = phys_base; video_mem_size_mb = size_in_bytes >> 20; /* * MCE propagates the VideoMem configuration values across the * CCPLEX. */ mce_update_gsc_videomem(); } /* * This feature exists only for v1 of the Tegra Memory Controller. */ void tegra_memctrl_disable_ahb_redirection(void) { ; /* do nothing */ } void tegra_memctrl_clear_pending_interrupts(void) { ; /* do nothing */ }