/* SPDX-License-Identifier: GPL-2.0-or-later */ #include #include #include #include #include #include #include /* We need a region in CMOS to store the RAMTOP address */ #define RAMTOP_SIGNATURE 0x52544F50 /* 'RTOP' */ /* * Address of the ramtop byte in CMOS. Should be reserved * in mainboards' cmos.layout and not covered by checksum. */ #if CONFIG(USE_OPTION_TABLE) #include "option_table.h" #ifndef CMOS_VSTART_ramtop #error "The `ramtop` CMOS entry is missing, please add it to your cmos.layout." #endif #if CMOS_VSTART_ramtop % 8 != 0 #error "The `ramtop` CMOS entry needs to be byte aligned, check your cmos.layout." #endif // CMOS_VSTART_ramtop % 8 != 0 #if CMOS_VLEN_ramtop != (10 * 8) #error "The `ramtop` CMOS entry needs to be 10 bytes long, check your cmos.layout." #endif // CMOS_VLEN_ramtop != (10 * 8) #else #define CMOS_VSTART_ramtop 800 #endif // CONFIG(USE_OPTION_TABLE) struct ramtop_table { uint32_t signature; uint32_t addr; uint16_t checksum; } __packed; /* Read and validate ramtop_table structure from CMOS */ static int ramtop_cmos_read(struct ramtop_table *ramtop) { u8 i, *p; u16 csum; for (p = (u8 *)ramtop, i = 0; i < sizeof(*ramtop); i++, p++) *p = cmos_read((CMOS_VSTART_ramtop / 8) + i); /* Verify signature */ if (ramtop->signature != RAMTOP_SIGNATURE) { printk(BIOS_DEBUG, "ramtop_table invalid signature\n"); return -1; } /* Verify checksum over signature and counter only */ csum = ipchksum(ramtop, offsetof(struct ramtop_table, checksum)); if (csum != ramtop->checksum) { printk(BIOS_DEBUG, "ramtop_table checksum mismatch\n"); return -1; } return 0; } /* Write ramtop_table structure to CMOS */ static void ramtop_cmos_write(struct ramtop_table *ramtop) { u8 i, *p; /* Checksum over signature and counter only */ ramtop->checksum = ipchksum(ramtop, offsetof(struct ramtop_table, checksum)); for (p = (u8 *)ramtop, i = 0; i < sizeof(*ramtop); i++, p++) cmos_write(*p, (CMOS_VSTART_ramtop / 8) + i); } /* Update the RAMTOP if required based on the input top_of_ram address */ void update_ramtop(uint32_t addr) { struct ramtop_table ramtop; /* Read and update ramtop (if required) */ if (ramtop_cmos_read(&ramtop) < 0) { /* Structure invalid, re-initialize */ ramtop.signature = RAMTOP_SIGNATURE; ramtop.addr = 0; } /* Update ramtop if required */ if (ramtop.addr == addr) return; ramtop.addr = addr; /* Write the new top_of_ram address to CMOS */ ramtop_cmos_write(&ramtop); printk(BIOS_DEBUG, "Updated the RAMTOP address into CMOS 0x%x\n", ramtop.addr); } uint32_t get_ramtop_addr(void) { struct ramtop_table ramtop; if (ramtop_cmos_read(&ramtop) < 0) return 0; return ramtop.addr; } /* Early caching of top_of_ram region */ void early_ramtop_enable_cache_range(void) { uint32_t ramtop = get_ramtop_addr(); if (!ramtop) return; int mtrr = get_free_var_mtrr(); if (mtrr == -1) { printk(BIOS_WARNING, "ramtop_table update failure due to no free MTRR available!\n"); return; } /* * Background: Some SoCs have a critical bug inside the NEM logic which is responsible * for mapping cached memory to physical memory during tear down and * eventually malfunctions if the number of cache sets is not a power of two. * This can lead to runtime hangs. * * Workaround: To mitigate this issue on affected SoCs, we force the MTRR type to * WC (Write Combining) unless the cache set count is a power of two. * This change alters caching behavior but prevents the runtime failures. */ unsigned int mtrr_type = MTRR_TYPE_WRCOMB; /* * We need to make sure late romstage (including FSP-M post mem) will be run * cached. Caching 16MB below ramtop is a safe to cover late romstage. */ if (is_cache_sets_power_of_two()) mtrr_type = MTRR_TYPE_WRBACK; set_var_mtrr(mtrr, ramtop - 16 * MiB, 16 * MiB, mtrr_type); }