// SPDX-License-Identifier: GPL-2.0 /* Copyright (C) 2019 ARM Limited */ #include #include #include "testcases.h" bool validate_extra_context(struct extra_context *extra, char **err, void **extra_data, size_t *extra_size) { struct _aarch64_ctx *term; if (!extra || !err) return false; fprintf(stderr, "Validating EXTRA...\n"); term = GET_RESV_NEXT_HEAD(&extra->head); if (!term || term->magic || term->size) { *err = "Missing terminator after EXTRA context"; return false; } if (extra->datap & 0x0fUL) *err = "Extra DATAP misaligned"; else if (extra->size & 0x0fUL) *err = "Extra SIZE misaligned"; else if (extra->datap != (uint64_t)term + 0x10UL) *err = "Extra DATAP misplaced (not contiguous)"; if (*err) return false; *extra_data = (void *)extra->datap; *extra_size = extra->size; return true; } bool validate_sve_context(struct sve_context *sve, char **err) { /* Size will be rounded up to a multiple of 16 bytes */ size_t regs_size = ((SVE_SIG_CONTEXT_SIZE(sve_vq_from_vl(sve->vl)) + 15) / 16) * 16; if (!sve || !err) return false; /* Either a bare sve_context or a sve_context followed by regs data */ if ((sve->head.size != sizeof(struct sve_context)) && (sve->head.size != regs_size)) { *err = "bad size for SVE context"; return false; } if (!sve_vl_valid(sve->vl)) { *err = "SVE VL invalid"; return false; } return true; } bool validate_za_context(struct za_context *za, char **err) { /* Size will be rounded up to a multiple of 16 bytes */ size_t regs_size = ((ZA_SIG_CONTEXT_SIZE(sve_vq_from_vl(za->vl)) + 15) / 16) * 16; if (!za || !err) return false; /* Either a bare za_context or a za_context followed by regs data */ if ((za->head.size != sizeof(struct za_context)) && (za->head.size != regs_size)) { *err = "bad size for ZA context"; return false; } if (!sve_vl_valid(za->vl)) { *err = "SME VL in ZA context invalid"; return false; } return true; } bool validate_zt_context(struct zt_context *zt, char **err) { if (!zt || !err) return false; /* If the context is present there should be at least one register */ if (zt->nregs == 0) { *err = "no registers"; return false; } /* Size should agree with the number of registers */ if (zt->head.size != ZT_SIG_CONTEXT_SIZE(zt->nregs)) { *err = "register count does not match size"; return false; } return true; } bool validate_reserved(ucontext_t *uc, size_t resv_sz, char **err) { bool terminated = false; size_t offs = 0; int flags = 0; int new_flags, i; struct extra_context *extra = NULL; struct sve_context *sve = NULL; struct za_context *za = NULL; struct zt_context *zt = NULL; struct _aarch64_ctx *head = (struct _aarch64_ctx *)uc->uc_mcontext.__reserved; void *extra_data = NULL; size_t extra_sz = 0; char magic[4]; if (!err) return false; /* Walk till the end terminator verifying __reserved contents */ while (head && !terminated && offs < resv_sz) { if ((uint64_t)head & 0x0fUL) { *err = "Misaligned HEAD"; return false; } new_flags = 0; switch (head->magic) { case 0: if (head->size) { *err = "Bad size for terminator"; } else if (extra_data) { /* End of main data, walking the extra data */ head = extra_data; resv_sz = extra_sz; offs = 0; extra_data = NULL; extra_sz = 0; continue; } else { terminated = true; } break; case FPSIMD_MAGIC: if (flags & FPSIMD_CTX) *err = "Multiple FPSIMD_MAGIC"; else if (head->size != sizeof(struct fpsimd_context)) *err = "Bad size for fpsimd_context"; new_flags |= FPSIMD_CTX; break; case ESR_MAGIC: if (head->size != sizeof(struct esr_context)) *err = "Bad size for esr_context"; break; case POE_MAGIC: if (head->size != sizeof(struct poe_context)) *err = "Bad size for poe_context"; break; case TPIDR2_MAGIC: if (head->size != sizeof(struct tpidr2_context)) *err = "Bad size for tpidr2_context"; break; case SVE_MAGIC: if (flags & SVE_CTX) *err = "Multiple SVE_MAGIC"; /* Size is validated in validate_sve_context() */ sve = (struct sve_context *)head; new_flags |= SVE_CTX; break; case ZA_MAGIC: if (flags & ZA_CTX) *err = "Multiple ZA_MAGIC"; /* Size is validated in validate_za_context() */ za = (struct za_context *)head; new_flags |= ZA_CTX; break; case ZT_MAGIC: if (flags & ZT_CTX) *err = "Multiple ZT_MAGIC"; /* Size is validated in validate_za_context() */ zt = (struct zt_context *)head; new_flags |= ZT_CTX; break; case FPMR_MAGIC: if (flags & FPMR_CTX) *err = "Multiple FPMR_MAGIC"; else if (head->size != sizeof(struct fpmr_context)) *err = "Bad size for fpmr_context"; new_flags |= FPMR_CTX; break; case GCS_MAGIC: if (flags & GCS_CTX) *err = "Multiple GCS_MAGIC"; if (head->size != sizeof(struct gcs_context)) *err = "Bad size for gcs_context"; new_flags |= GCS_CTX; break; case EXTRA_MAGIC: if (flags & EXTRA_CTX) *err = "Multiple EXTRA_MAGIC"; else if (head->size != sizeof(struct extra_context)) *err = "Bad size for extra_context"; new_flags |= EXTRA_CTX; extra = (struct extra_context *)head; break; case KSFT_BAD_MAGIC: /* * This is a BAD magic header defined * artificially by a testcase and surely * unknown to the Kernel parse_user_sigframe(). * It MUST cause a Kernel induced SEGV */ *err = "BAD MAGIC !"; break; default: /* * A still unknown Magic: potentially freshly added * to the Kernel code and still unknown to the * tests. Magic numbers are supposed to be allocated * as somewhat meaningful ASCII strings so try to * print as such as well as the raw number. */ memcpy(magic, &head->magic, sizeof(magic)); for (i = 0; i < sizeof(magic); i++) if (!isalnum(magic[i])) magic[i] = '?'; fprintf(stdout, "SKIP Unknown MAGIC: 0x%X (%c%c%c%c) - Is KSFT arm64/signal up to date ?\n", head->magic, magic[3], magic[2], magic[1], magic[0]); break; } if (*err) return false; offs += head->size; if (resv_sz < offs + sizeof(*head)) { *err = "HEAD Overrun"; return false; } if (new_flags & EXTRA_CTX) if (!validate_extra_context(extra, err, &extra_data, &extra_sz)) return false; if (new_flags & SVE_CTX) if (!validate_sve_context(sve, err)) return false; if (new_flags & ZA_CTX) if (!validate_za_context(za, err)) return false; if (new_flags & ZT_CTX) if (!validate_zt_context(zt, err)) return false; flags |= new_flags; head = GET_RESV_NEXT_HEAD(head); } if (terminated && !(flags & FPSIMD_CTX)) { *err = "Missing FPSIMD"; return false; } if (terminated && (flags & ZT_CTX) && !(flags & ZA_CTX)) { *err = "ZT context but no ZA context"; return false; } return true; } /* * This function walks through the records inside the provided reserved area * trying to find enough space to fit @need_sz bytes: if not enough space is * available and an extra_context record is present, it throws away the * extra_context record. * * It returns a pointer to a new header where it is possible to start storing * our need_sz bytes. * * @shead: points to the start of reserved area * @need_sz: needed bytes * @resv_sz: reserved area size in bytes * @offset: if not null, this will be filled with the offset of the return * head pointer from @shead * * @return: pointer to a new head where to start storing need_sz bytes, or * NULL if space could not be made available. */ struct _aarch64_ctx *get_starting_head(struct _aarch64_ctx *shead, size_t need_sz, size_t resv_sz, size_t *offset) { size_t offs = 0; struct _aarch64_ctx *head; head = get_terminator(shead, resv_sz, &offs); /* not found a terminator...no need to update offset if any */ if (!head) return head; if (resv_sz - offs < need_sz) { fprintf(stderr, "Low on space:%zd. Discarding extra_context.\n", resv_sz - offs); head = get_header(shead, EXTRA_MAGIC, resv_sz, &offs); if (!head || resv_sz - offs < need_sz) { fprintf(stderr, "Failed to reclaim space on sigframe.\n"); return NULL; } } fprintf(stderr, "Available space:%zd\n", resv_sz - offs); if (offset) *offset = offs; return head; }