// SPDX-License-Identifier: GPL-2.0+ BSD-3-Clause /* * Copyright 2018 Google, Inc * Written by Simon Glass */ #define LOG_CATEGORY LOGC_BLOBLIST #include #include #include #include #include #include #include #include #include #include /* * A bloblist is a single contiguous chunk of memory with a header * (struct bloblist_hdr) and a number of blobs in it. * * Each blob starts on a BLOBLIST_ALIGN boundary relative to the start of the * bloblist and consists of a struct bloblist_rec, some padding to the required * alignment for the blog and then the actual data. The padding ensures that the * start address of the data in each blob is aligned as required. Note that * each blob's *data* is aligned to BLOBLIST_ALIGN regardless of the alignment * of the bloblist itself or the blob header. */ DECLARE_GLOBAL_DATA_PTR; static struct tag_name { enum bloblist_tag_t tag; const char *name; } tag_name[] = { { BLOBLISTT_VOID, "(void)" }, /* BLOBLISTT_AREA_FIRMWARE_TOP */ { BLOBLISTT_CONTROL_FDT, "Control FDT" }, { BLOBLISTT_HOB_BLOCK, "HOB block" }, { BLOBLISTT_HOB_LIST, "HOB list" }, { BLOBLISTT_ACPI_TABLES, "ACPI tables for x86" }, { BLOBLISTT_TPM_EVLOG, "TPM event log defined by TCG EFI" }, { BLOBLISTT_TPM_CRB_BASE, "TPM Command Response Buffer address" }, /* BLOBLISTT_AREA_FIRMWARE */ { BLOBLISTT_TPM2_TCG_LOG, "TPM v2 log space" }, { BLOBLISTT_TCPA_LOG, "TPM log space" }, { BLOBLISTT_ACPI_GNVS, "ACPI GNVS" }, /* BLOBLISTT_AREA_TF */ { BLOBLISTT_OPTEE_PAGABLE_PART, "OP-TEE pagable part" }, /* BLOBLISTT_AREA_OTHER */ { BLOBLISTT_INTEL_VBT, "Intel Video-BIOS table" }, { BLOBLISTT_SMBIOS_TABLES, "SMBIOS tables for x86" }, { BLOBLISTT_VBOOT_CTX, "Chrome OS vboot context" }, /* BLOBLISTT_PROJECT_AREA */ { BLOBLISTT_U_BOOT_SPL_HANDOFF, "SPL hand-off" }, { BLOBLISTT_VBE, "VBE" }, { BLOBLISTT_U_BOOT_VIDEO, "SPL video handoff" }, /* BLOBLISTT_VENDOR_AREA */ }; const char *bloblist_tag_name(enum bloblist_tag_t tag) { int i; for (i = 0; i < ARRAY_SIZE(tag_name); i++) { if (tag_name[i].tag == tag) return tag_name[i].name; } return "invalid"; } static struct bloblist_rec *bloblist_first_blob(struct bloblist_hdr *hdr) { if (hdr->used_size <= hdr->hdr_size) return NULL; return (struct bloblist_rec *)((void *)hdr + hdr->hdr_size); } static inline uint rec_hdr_size(struct bloblist_rec *rec) { return (rec->tag_and_hdr_size & BLOBLISTR_HDR_SIZE_MASK) >> BLOBLISTR_HDR_SIZE_SHIFT; } static inline uint rec_tag(struct bloblist_rec *rec) { return (rec->tag_and_hdr_size & BLOBLISTR_TAG_MASK) >> BLOBLISTR_TAG_SHIFT; } static ulong bloblist_blob_end_ofs(struct bloblist_hdr *hdr, struct bloblist_rec *rec) { ulong offset; offset = (void *)rec - (void *)hdr; /* * The data section of next TE should start from an address aligned * to 1 << hdr->align_log2. */ offset += rec_hdr_size(rec) + rec->size; offset = round_up(offset + rec_hdr_size(rec), 1 << hdr->align_log2); offset -= rec_hdr_size(rec); return offset; } static struct bloblist_rec *bloblist_next_blob(struct bloblist_hdr *hdr, struct bloblist_rec *rec) { ulong offset = bloblist_blob_end_ofs(hdr, rec); if (offset >= hdr->used_size) return NULL; return (struct bloblist_rec *)((void *)hdr + offset); } #define foreach_rec(_rec, _hdr) \ for (_rec = bloblist_first_blob(_hdr); \ _rec; \ _rec = bloblist_next_blob(_hdr, _rec)) static struct bloblist_rec *bloblist_findrec(uint tag) { struct bloblist_hdr *hdr = gd->bloblist; struct bloblist_rec *rec; if (!hdr) return NULL; foreach_rec(rec, hdr) { if (rec_tag(rec) == tag) return rec; } return NULL; } static int bloblist_addrec(uint tag, int size, int align_log2, struct bloblist_rec **recp) { struct bloblist_hdr *hdr = gd->bloblist; struct bloblist_rec *rec; int data_start, aligned_start, new_alloced; if (!align_log2) align_log2 = BLOBLIST_BLOB_ALIGN_LOG2; /* Figure out where the new data will start */ data_start = map_to_sysmem(hdr) + hdr->used_size + sizeof(*rec); /* Align the address and then calculate the offset from used size */ aligned_start = ALIGN(data_start, 1U << align_log2) - data_start; /* If we need to create a dummy record, create it */ if (aligned_start) { int void_size = aligned_start - sizeof(*rec); struct bloblist_rec *vrec; int ret; ret = bloblist_addrec(BLOBLISTT_VOID, void_size, 0, &vrec); if (ret) return log_msg_ret("void", ret); /* start the record after that */ data_start = map_to_sysmem(hdr) + hdr->used_size + sizeof(*vrec); } /* Calculate the new allocated total */ new_alloced = data_start - map_to_sysmem(hdr) + ALIGN(size, 1U << align_log2); if (new_alloced > hdr->total_size) { log_err("Failed to allocate %x bytes\n", size); log_err("Used size=%x, total size=%x\n", hdr->used_size, hdr->total_size); return log_msg_ret("bloblist add", -ENOSPC); } rec = (void *)hdr + hdr->used_size; rec->tag_and_hdr_size = tag | sizeof(*rec) << BLOBLISTR_HDR_SIZE_SHIFT; rec->size = size; /* Zero the record data */ memset((void *)rec + rec_hdr_size(rec), '\0', rec->size); hdr->used_size = new_alloced; *recp = rec; return 0; } static int bloblist_ensurerec(uint tag, struct bloblist_rec **recp, int size, int align_log2) { struct bloblist_rec *rec; rec = bloblist_findrec(tag); if (rec) { if (size && size != rec->size) { *recp = rec; return -ESPIPE; } } else { int ret; ret = bloblist_addrec(tag, size, align_log2, &rec); if (ret) return ret; } *recp = rec; return 0; } void *bloblist_find(uint tag, int size) { struct bloblist_rec *rec; rec = bloblist_findrec(tag); if (!rec) return NULL; if (size && size != rec->size) return NULL; return (void *)rec + rec_hdr_size(rec); } void *bloblist_add(uint tag, int size, int align_log2) { struct bloblist_rec *rec; if (bloblist_addrec(tag, size, align_log2, &rec)) return NULL; return (void *)rec + rec_hdr_size(rec); } int bloblist_ensure_size(uint tag, int size, int align_log2, void **blobp) { struct bloblist_rec *rec; int ret; ret = bloblist_ensurerec(tag, &rec, size, align_log2); if (ret) return ret; *blobp = (void *)rec + rec_hdr_size(rec); return 0; } void *bloblist_ensure(uint tag, int size) { struct bloblist_rec *rec; if (bloblist_ensurerec(tag, &rec, size, 0)) return NULL; return (void *)rec + rec_hdr_size(rec); } int bloblist_ensure_size_ret(uint tag, int *sizep, void **blobp) { struct bloblist_rec *rec; int ret; ret = bloblist_ensurerec(tag, &rec, *sizep, 0); if (ret == -ESPIPE) *sizep = rec->size; else if (ret) return ret; *blobp = (void *)rec + rec_hdr_size(rec); return 0; } static int bloblist_resize_rec(struct bloblist_hdr *hdr, struct bloblist_rec *rec, int new_size) { int expand_by; /* Number of bytes to expand by (-ve to contract) */ int new_alloced; ulong next_ofs; /* Offset of the record after @rec */ expand_by = ALIGN(new_size - rec->size, BLOBLIST_BLOB_ALIGN); new_alloced = ALIGN(hdr->used_size + expand_by, BLOBLIST_BLOB_ALIGN); if (new_size < 0) { log_debug("Attempt to shrink blob size below 0 (%x)\n", new_size); return log_msg_ret("size", -EINVAL); } if (new_alloced > hdr->total_size) { log_err("Failed to allocate %x bytes\n", new_size); log_err("Used size=%x, total size=%x\n", hdr->used_size, hdr->total_size); return log_msg_ret("alloc", -ENOSPC); } /* Move the following blobs up or down, if this is not the last */ next_ofs = bloblist_blob_end_ofs(hdr, rec); if (next_ofs != hdr->used_size) { memmove((void *)hdr + next_ofs + expand_by, (void *)hdr + next_ofs, new_alloced - next_ofs); } hdr->used_size = new_alloced; /* Zero the new part of the blob */ if (expand_by > 0) { memset((void *)rec + rec_hdr_size(rec) + rec->size, '\0', new_size - rec->size); } /* Update the size of this blob */ rec->size = new_size; return 0; } int bloblist_resize(uint tag, int new_size) { struct bloblist_hdr *hdr = gd->bloblist; struct bloblist_rec *rec; int ret; rec = bloblist_findrec(tag); if (!rec) return log_msg_ret("find", -ENOENT); ret = bloblist_resize_rec(hdr, rec, new_size); if (ret) return log_msg_ret("resize", ret); return 0; } static u32 bloblist_calc_chksum(struct bloblist_hdr *hdr) { u8 chksum; chksum = table_compute_checksum(hdr, hdr->used_size); chksum += hdr->chksum; return chksum; } int bloblist_new(ulong addr, uint size, uint flags, uint align_log2) { struct bloblist_hdr *hdr; if (size < sizeof(*hdr)) return log_ret(-ENOSPC); if (addr & (BLOBLIST_ALIGN - 1)) return log_ret(-EFAULT); hdr = map_sysmem(addr, size); memset(hdr, '\0', sizeof(*hdr)); hdr->version = BLOBLIST_VERSION; hdr->hdr_size = sizeof(*hdr); hdr->flags = flags; hdr->magic = BLOBLIST_MAGIC; hdr->used_size = hdr->hdr_size; hdr->total_size = size; hdr->align_log2 = align_log2 ? align_log2 : BLOBLIST_BLOB_ALIGN_LOG2; hdr->chksum = 0; gd->bloblist = hdr; return 0; } int bloblist_check(ulong addr, uint size) { struct bloblist_hdr *hdr; u32 chksum; hdr = map_sysmem(addr, sizeof(*hdr)); if (hdr->magic != BLOBLIST_MAGIC) return log_msg_ret("Bad magic", -ENOENT); if (hdr->version != BLOBLIST_VERSION) return log_msg_ret("Bad version", -EPROTONOSUPPORT); if (!hdr->total_size || (size && hdr->total_size > size)) return log_msg_ret("Bad total size", -EFBIG); if (hdr->used_size > hdr->total_size) return log_msg_ret("Bad used size", -ENOENT); if (hdr->hdr_size != sizeof(struct bloblist_hdr)) return log_msg_ret("Bad header size", -ENOENT); chksum = bloblist_calc_chksum(hdr); if (hdr->chksum != chksum) { log_err("Checksum %x != %x\n", hdr->chksum, chksum); return log_msg_ret("Bad checksum", -EIO); } gd->bloblist = hdr; return 0; } int bloblist_finish(void) { struct bloblist_hdr *hdr = gd->bloblist; hdr->chksum = bloblist_calc_chksum(hdr); log_debug("Finished bloblist size %lx at %lx\n", (ulong)hdr->used_size, (ulong)map_to_sysmem(hdr)); return 0; } ulong bloblist_get_base(void) { return map_to_sysmem(gd->bloblist); } ulong bloblist_get_size(void) { struct bloblist_hdr *hdr = gd->bloblist; return hdr->used_size; } ulong bloblist_get_total_size(void) { struct bloblist_hdr *hdr = gd->bloblist; return hdr->total_size; } void bloblist_get_stats(ulong *basep, ulong *tsizep, ulong *usizep) { struct bloblist_hdr *hdr = gd->bloblist; *basep = map_to_sysmem(gd->bloblist); *tsizep = hdr->total_size; *usizep = hdr->used_size; } static void show_value(const char *prompt, ulong value) { printf("%s:%*s %-5lx ", prompt, 10 - (int)strlen(prompt), "", value); print_size(value, "\n"); } void bloblist_show_stats(void) { ulong base, tsize, usize; bloblist_get_stats(&base, &tsize, &usize); printf("base: %lx\n", base); show_value("total size", tsize); show_value("used size", usize); show_value("free", tsize - usize); } void bloblist_show_list(void) { struct bloblist_hdr *hdr = gd->bloblist; struct bloblist_rec *rec; printf("%-8s %8s Tag Name\n", "Address", "Size"); for (rec = bloblist_first_blob(hdr); rec; rec = bloblist_next_blob(hdr, rec)) { printf("%08lx %8x %4x %s\n", (ulong)map_to_sysmem((void *)rec + rec_hdr_size(rec)), rec->size, rec_tag(rec), bloblist_tag_name(rec_tag(rec))); } } int bloblist_reloc(void *to, uint to_size) { struct bloblist_hdr *hdr; if (to_size < gd->bloblist->total_size) return -ENOSPC; memcpy(to, gd->bloblist, gd->bloblist->total_size); hdr = to; hdr->total_size = to_size; gd->bloblist = to; return 0; } /* * Weak default function for getting bloblist from boot args. */ int __weak xferlist_from_boot_arg(ulong __always_unused addr, ulong __always_unused size) { return -ENOENT; } int bloblist_init(void) { bool fixed = IS_ENABLED(CONFIG_BLOBLIST_FIXED); int ret = -ENOENT; ulong addr, size; /* * If U-Boot is not in the first phase, an existing bloblist must be * at a fixed address. */ bool from_addr = fixed && !u_boot_first_phase(); /* * If U-Boot is in the first phase that an arch custom routine should * install the bloblist passed from previous loader to this fixed * address. */ bool from_boot_arg = fixed && u_boot_first_phase(); if (spl_prev_phase() == PHASE_TPL && !IS_ENABLED(CONFIG_TPL_BLOBLIST)) from_addr = false; if (fixed) addr = IF_ENABLED_INT(CONFIG_BLOBLIST_FIXED, CONFIG_BLOBLIST_ADDR); size = CONFIG_BLOBLIST_SIZE; if (from_boot_arg) ret = xferlist_from_boot_arg(addr, size); else if (from_addr) ret = bloblist_check(addr, size); if (ret) log_warning("Bloblist at %lx not found (err=%d)\n", addr, ret); else /* Get the real size */ size = gd->bloblist->total_size; if (ret) { /* * If we don't have a bloblist from a fixed address, or the one * in the fixed address is not valid. we must allocate the * memory for it now. */ if (CONFIG_IS_ENABLED(BLOBLIST_ALLOC)) { void *ptr = memalign(BLOBLIST_ALIGN, size); if (!ptr) return log_msg_ret("alloc", -ENOMEM); addr = map_to_sysmem(ptr); } else if (!fixed) { return log_msg_ret("BLOBLIST_FIXED is not enabled", ret); } log_debug("Creating new bloblist size %lx at %lx\n", size, addr); ret = bloblist_new(addr, size, 0, 0); } else { log_debug("Found existing bloblist size %lx at %lx\n", size, addr); } if (ret) return log_msg_ret("ini", ret); gd->flags |= GD_FLG_BLOBLIST_READY; #ifdef DEBUG bloblist_show_stats(); bloblist_show_list(); #endif return 0; } int bloblist_maybe_init(void) { if (CONFIG_IS_ENABLED(BLOBLIST) && !(gd->flags & GD_FLG_BLOBLIST_READY)) return bloblist_init(); return 0; } int bloblist_check_reg_conv(ulong rfdt, ulong rzero, ulong rsig) { if (rzero || rsig != (BLOBLIST_MAGIC | BLOBLIST_REGCONV_VER) || rfdt != (ulong)bloblist_find(BLOBLISTT_CONTROL_FDT, 0)) { gd->bloblist = NULL; /* Reset the gd bloblist pointer */ return -EIO; } return 0; }