/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include #include #include static int mt_mem_test(void) { u64 rank_size[RANK_MAX]; if (CONFIG(MEMORY_TEST)) { size_t r; u8 *addr = _dram; dramc_get_rank_size(rank_size); for (r = RANK_0; r < RANK_MAX; r++) { int i; if (rank_size[r] == 0) break; i = complex_mem_test(addr, 0x2000); printk(BIOS_DEBUG, "[MEM] complex R/W mem test %s : %d\n", (i == 0) ? "pass" : "fail", i); if (i != 0) { printk(BIOS_ERR, "DRAM memory test failed\n"); return -1; } addr += rank_size[r]; } } return 0; } static void dump_param_header(const struct dramc_param *dparam) { const struct dramc_param_header *header = &dparam->header; printk(BIOS_DEBUG, "header.status = %#x\n", header->status); printk(BIOS_DEBUG, "header.magic = %#x (expected: %#x)\n", header->magic, DRAMC_PARAM_HEADER_MAGIC); printk(BIOS_DEBUG, "header.version = %#x (expected: %#x)\n", header->version, DRAMC_PARAM_HEADER_VERSION); printk(BIOS_DEBUG, "header.size = %#x (expected: %#lx)\n", header->size, sizeof(*dparam)); printk(BIOS_DEBUG, "header.config = %#x\n", header->config); printk(BIOS_DEBUG, "header.flags = %#x\n", header->flags); printk(BIOS_DEBUG, "header.checksum = %#x\n", header->checksum); } static u32 compute_checksum(const struct dramc_param *dparam) { return (u32)compute_ip_checksum(dparam->freq_params, sizeof(dparam->freq_params)); } static int dram_run_fast_calibration(const struct dramc_param *dparam, u16 config) { if (!is_valid_dramc_param(dparam)) { printk(BIOS_WARNING, "Invalid DRAM calibration data from flash\n"); dump_param_header(dparam); return -1; } if (dparam->header.config != config) { printk(BIOS_WARNING, "Incompatible config for calibration data from flash " "(expected: %#x, saved: %#x)\n", config, dparam->header.config); return -1; } const u32 checksum = compute_checksum(dparam); if (dparam->header.checksum != checksum) { printk(BIOS_ERR, "Invalid DRAM calibration checksum from flash " "(expected: %#x, saved: %#x)\n", checksum, dparam->header.checksum); return -1; } return 0; } static int dram_run_full_calibration(struct dramc_param *dparam, u32 ddr_geometry, u16 config) { initialize_dramc_param(dparam, config); /* Load and run the provided blob for full-calibration if available */ struct prog dram = PROG_INIT(PROG_REFCODE, CONFIG_CBFS_PREFIX "/dram"); if (cbfs_prog_stage_load(&dram)) return -2; dparam->do_putc = do_putchar; dparam->freq_params[0].ddr_geometry = ddr_geometry; printk(BIOS_INFO, "ddr_geometry: %d, config: %#x\n", ddr_geometry, config); prog_set_entry(&dram, prog_entry(&dram), dparam); prog_run(&dram); if (dparam->header.status != DRAMC_SUCCESS) { printk(BIOS_ERR, "Full calibration failed: status = %d\n", dparam->header.status); return -3; } if (!(dparam->header.flags & DRAMC_FLAG_HAS_SAVED_DATA)) { printk(BIOS_ERR, "Full calibration executed without saving parameters. " "Please ensure the blob is built properly.\n"); return -4; } return 0; } static void set_source_to_flash(struct sdram_params *freq_params) { for (u8 shuffle = DRAM_DFS_SHUFFLE_1; shuffle < DRAM_DFS_SHUFFLE_MAX; shuffle++) freq_params[shuffle].source = DRAMC_PARAM_SOURCE_FLASH; } static void init_sdram_params(struct sdram_params *dst, const struct sdram_params *src) { for (u8 shuffle = DRAM_DFS_SHUFFLE_1; shuffle < DRAM_DFS_SHUFFLE_MAX; shuffle++) memcpy(&dst[shuffle], src, sizeof(*dst)); } static void mt_mem_init_run(struct dramc_param_ops *dparam_ops) { struct dramc_param *dparam = dparam_ops->param; u16 config = 0; if (CONFIG(MT8183_DRAM_EMCP)) config |= DRAMC_CONFIG_EMCP; const bool recovery_mode = vboot_recovery_mode_enabled(); /* DRAM DVFS is disabled in recovery mode */ if (CONFIG(MT8183_DRAM_DVFS) && !recovery_mode) config |= DRAMC_CONFIG_DVFS; /* Load calibration params from flash and run fast calibration */ if (recovery_mode) { printk(BIOS_WARNING, "Skip loading cached calibration data\n"); if (get_recovery_mode_retrain_switch()) { printk(BIOS_WARNING, "Retrain memory in next boot\n"); /* Use 0xFF as erased flash data. */ memset(dparam, 0xff, sizeof(*dparam)); dparam_ops->write_to_flash(dparam); } } else if (dparam_ops->read_from_flash(dparam)) { printk(BIOS_INFO, "DRAM-K: Fast Calibration\n"); if (dram_run_fast_calibration(dparam, config) == 0) { printk(BIOS_INFO, "Calibration params loaded from flash\n"); if (mt_set_emi(dparam) == 0 && mt_mem_test() == 0) return; } else { printk(BIOS_ERR, "Failed to apply cached calibration data\n"); } } else { printk(BIOS_WARNING, "Failed to read calibration data from flash\n"); } const struct sdram_params *sdram_cfg = get_sdram_config(); /* Run full calibration */ printk(BIOS_INFO, "DRAM-K: Full Calibration\n"); int err = dram_run_full_calibration(dparam, sdram_cfg->ddr_geometry, config); if (err == 0) { printk(BIOS_INFO, "Successfully loaded DRAM blobs and " "ran DRAM calibration\n"); /* * In recovery mode the system boots in RO but the flash params * should be calibrated for RW so we can't mix them up. */ if (!recovery_mode) { set_source_to_flash(dparam->freq_params); dparam->header.checksum = compute_checksum(dparam); dparam_ops->write_to_flash(dparam); printk(BIOS_DEBUG, "Calibration params saved to flash: " "version=%#x, size=%#x\n", dparam->header.version, dparam->header.size); } return; } printk(BIOS_ERR, "Failed to do full calibration (%d), " "falling back to load default sdram param\n", err); /* Init params from sdram configs and run partial calibration */ printk(BIOS_INFO, "DRAM-K: Partial Calibration\n"); init_sdram_params(dparam->freq_params, sdram_cfg); if (mt_set_emi(dparam) != 0) die("Set emi failed with params from sdram config\n"); if (mt_mem_test() != 0) die("Memory test failed with params from sdram config\n"); } void mt_mem_init(struct dramc_param_ops *dparam_ops) { mt_mem_init_run(dparam_ops); /* After DRAM calibration, restore vcore voltage to default setting */ pmic_set_vcore_vol(800000); }