/* * Copyright (c) Atmosphère-NX * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "ldr_capabilities.hpp" #include "ldr_content_management.hpp" #include "ldr_development_manager.hpp" #include "ldr_meta.hpp" namespace ams::ldr { namespace { /* Convenience definitions. */ constexpr size_t MetaCacheBufferSize = 0x8000; constexpr inline const char AtmosphereMetaPath[] = ENCODE_ATMOSPHERE_CODE_PATH("/main.npdm"); constexpr inline const char SdOrBaseMetaPath[] = ENCODE_SD_OR_CODE_PATH("/main.npdm"); constexpr inline const char BaseMetaPath[] = ENCODE_CODE_PATH("/main.npdm"); /* Types. */ struct MetaCache { Meta meta; u8 buffer[MetaCacheBufferSize]; }; /* Global storage. */ ncm::ProgramId g_cached_program_id; cfg::OverrideStatus g_cached_override_status; MetaCache g_meta_cache; MetaCache g_original_meta_cache; /* Helpers. */ Result ValidateSubregion(size_t allowed_start, size_t allowed_end, size_t start, size_t size, size_t min_size = 0) { R_UNLESS(size >= min_size, ldr::ResultInvalidMeta()); R_UNLESS(allowed_start <= start, ldr::ResultInvalidMeta()); R_UNLESS(start <= allowed_end, ldr::ResultInvalidMeta()); R_UNLESS(start + size <= allowed_end, ldr::ResultInvalidMeta()); R_SUCCEED(); } Result ValidateNpdm(const Npdm *npdm, size_t size) { /* Validate magic. */ R_UNLESS(npdm->magic == Npdm::Magic, ldr::ResultInvalidMeta()); /* Validate flags. */ constexpr u32 InvalidMetaFlagMask = 0x80000000; R_UNLESS(!(npdm->flags & InvalidMetaFlagMask), ldr::ResultInvalidMeta()); /* Validate Acid extents. */ R_TRY(ValidateSubregion(sizeof(Npdm), size, npdm->acid_offset, npdm->acid_size, sizeof(Acid))); /* Validate Aci extends. */ R_TRY(ValidateSubregion(sizeof(Npdm), size, npdm->aci_offset, npdm->aci_size, sizeof(Aci))); R_SUCCEED(); } Result ValidateAcid(const Acid *acid, size_t size) { /* Validate magic. */ R_UNLESS(acid->magic == Acid::Magic, ldr::ResultInvalidMeta()); /* Validate that the acid is for production if not development. */ if (!IsDevelopmentForAcidProductionCheck()) { R_UNLESS((acid->flags & Acid::AcidFlag_Production) != 0, ldr::ResultInvalidMeta()); } /* Validate that the acid version is correct. */ constexpr u8 SupportedSdkMajorVersion = ams::svc::ConvertToSdkMajorVersion(ams::svc::SupportedKernelMajorVersion); if (acid->unknown_209 < SupportedSdkMajorVersion) { R_UNLESS(acid->version == 0, ldr::ResultInvalidMeta()); R_UNLESS(acid->unknown_209 == 0, ldr::ResultInvalidMeta()); } /* Validate Fac, Sac, Kac. */ R_TRY(ValidateSubregion(sizeof(Acid), size, acid->fac_offset, acid->fac_size)); R_TRY(ValidateSubregion(sizeof(Acid), size, acid->sac_offset, acid->sac_size)); R_TRY(ValidateSubregion(sizeof(Acid), size, acid->kac_offset, acid->kac_size)); R_SUCCEED(); } Result ValidateAci(const Aci *aci, size_t size) { /* Validate magic. */ R_UNLESS(aci->magic == Aci::Magic, ldr::ResultInvalidMeta()); /* Validate Fah, Sac, Kac. */ R_TRY(ValidateSubregion(sizeof(Aci), size, aci->fah_offset, aci->fah_size)); R_TRY(ValidateSubregion(sizeof(Aci), size, aci->sac_offset, aci->sac_size)); R_TRY(ValidateSubregion(sizeof(Aci), size, aci->kac_offset, aci->kac_size)); R_SUCCEED(); } const u8 *GetAcidSignatureModulus(ncm::ContentMetaPlatform platform, u8 key_generation, bool unk_unused) { return fssystem::GetAcidSignatureKeyModulus(platform, !IsDevelopmentForAcidSignatureCheck(), key_generation, unk_unused); } size_t GetAcidSignatureModulusSize(ncm::ContentMetaPlatform platform, bool unk_unused) { return fssystem::GetAcidSignatureKeyModulusSize(platform, unk_unused); } Result ValidateAcidSignature(Meta *meta, ncm::ContentMetaPlatform platform, bool unk_unused) { /* Loader did not check signatures prior to 10.0.0. */ if (hos::GetVersion() < hos::Version_10_0_0) { meta->check_verification_data = false; R_SUCCEED(); } /* Get the signature key generation. */ const auto signature_key_generation = meta->npdm->signature_key_generation; R_UNLESS(fssystem::IsValidSignatureKeyGeneration(platform, signature_key_generation), ldr::ResultInvalidMeta()); /* Verify the signature. */ const u8 *sig = meta->acid->signature; const size_t sig_size = sizeof(meta->acid->signature); const u8 *mod = GetAcidSignatureModulus(platform, signature_key_generation, unk_unused); const size_t mod_size = GetAcidSignatureModulusSize(platform, unk_unused); const u8 *exp = fssystem::GetAcidSignatureKeyPublicExponent(); const size_t exp_size = fssystem::AcidSignatureKeyPublicExponentSize; const u8 *msg = meta->acid->modulus; const size_t msg_size = meta->acid->size; const bool is_signature_valid = crypto::VerifyRsa2048PssSha256(sig, sig_size, mod, mod_size, exp, exp_size, msg, msg_size); R_UNLESS(is_signature_valid || !IsEnabledProgramVerification(), ldr::ResultInvalidAcidSignature()); meta->check_verification_data = is_signature_valid; R_SUCCEED(); } Result LoadMetaFromFile(fs::FileHandle file, MetaCache *cache) { /* Reset cache. */ cache->meta = {}; /* Read from file. */ s64 npdm_size = 0; { /* Get file size. */ R_TRY(fs::GetFileSize(std::addressof(npdm_size), file)); /* Read data into cache buffer. */ R_UNLESS(npdm_size <= static_cast(MetaCacheBufferSize), ldr::ResultMetaOverflow()); R_TRY(fs::ReadFile(file, 0, cache->buffer, npdm_size)); } /* Ensure size is big enough. */ R_UNLESS(npdm_size >= static_cast(sizeof(Npdm)), ldr::ResultInvalidMeta()); /* Validate the meta. */ { Meta *meta = std::addressof(cache->meta); Npdm *npdm = reinterpret_cast(cache->buffer); R_TRY(ValidateNpdm(npdm, npdm_size)); Acid *acid = reinterpret_cast(cache->buffer + npdm->acid_offset); Aci *aci = reinterpret_cast(cache->buffer + npdm->aci_offset); R_TRY(ValidateAcid(acid, npdm->acid_size)); R_TRY(ValidateAci(aci, npdm->aci_size)); /* Set Meta members. */ meta->npdm = npdm; meta->acid = acid; meta->aci = aci; meta->acid_fac = reinterpret_cast(acid) + acid->fac_offset; meta->acid_sac = reinterpret_cast(acid) + acid->sac_offset; meta->acid_kac = reinterpret_cast(acid) + acid->kac_offset; meta->aci_fah = reinterpret_cast(aci) + aci->fah_offset; meta->aci_sac = reinterpret_cast(aci) + aci->sac_offset; meta->aci_kac = reinterpret_cast(aci) + aci->kac_offset; meta->modulus = acid->modulus; } R_SUCCEED(); } } /* API. */ Result LoadMeta(Meta *out_meta, const ncm::ProgramLocation &loc, const cfg::OverrideStatus &status, ncm::ContentMetaPlatform platform, bool unk_unused) { /* Set the cached program id back to zero. */ g_cached_program_id = {}; /* Try to load meta from file. */ fs::FileHandle file; R_TRY(fs::OpenFile(std::addressof(file), AtmosphereMetaPath, fs::OpenMode_Read)); { ON_SCOPE_EXIT { fs::CloseFile(file); }; R_TRY(LoadMetaFromFile(file, std::addressof(g_meta_cache))); } /* Patch meta. Start by setting all program ids to the current program id. */ Meta *meta = std::addressof(g_meta_cache.meta); meta->acid->program_id_min = loc.program_id; meta->acid->program_id_max = loc.program_id; meta->aci->program_id = loc.program_id; /* For HBL, we need to copy some information from the base meta. */ if (status.IsHbl()) { if (R_SUCCEEDED(fs::OpenFile(std::addressof(file), SdOrBaseMetaPath, fs::OpenMode_Read))) { ON_SCOPE_EXIT { fs::CloseFile(file); }; if (R_SUCCEEDED(LoadMetaFromFile(file, std::addressof(g_original_meta_cache)))) { Meta *o_meta = std::addressof(g_original_meta_cache.meta); /* Fix pool partition. */ if (hos::GetVersion() >= hos::Version_5_0_0) { meta->acid->flags = (meta->acid->flags & 0xFFFFFFC3) | (o_meta->acid->flags & 0x0000003C); } /* Fix flags. */ const u16 program_info_flags = MakeProgramInfoFlag(static_cast(o_meta->aci_kac), o_meta->aci->kac_size / sizeof(util::BitPack32)); UpdateProgramInfoFlag(program_info_flags, static_cast(meta->acid_kac), meta->acid->kac_size / sizeof(util::BitPack32)); UpdateProgramInfoFlag(program_info_flags, static_cast(meta->aci_kac), meta->aci->kac_size / sizeof(util::BitPack32)); } } /* Perform address space override. */ if (status.HasOverrideAddressSpace()) { /* Clear the existing address space. */ meta->npdm->flags &= ~Npdm::MetaFlag_AddressSpaceTypeMask; /* Set the new address space flag. */ switch (status.GetOverrideAddressSpaceFlags()) { case cfg::impl::OverrideStatusFlag_AddressSpace32Bit: meta->npdm->flags |= (Npdm::AddressSpaceType_32Bit) << Npdm::MetaFlag_AddressSpaceTypeShift; break; case cfg::impl::OverrideStatusFlag_AddressSpace64BitDeprecated: meta->npdm->flags |= (Npdm::AddressSpaceType_64BitDeprecated) << Npdm::MetaFlag_AddressSpaceTypeShift; break; case cfg::impl::OverrideStatusFlag_AddressSpace32BitWithoutAlias: meta->npdm->flags |= (Npdm::AddressSpaceType_32BitWithoutAlias) << Npdm::MetaFlag_AddressSpaceTypeShift; break; case cfg::impl::OverrideStatusFlag_AddressSpace64Bit: meta->npdm->flags |= (Npdm::AddressSpaceType_64Bit) << Npdm::MetaFlag_AddressSpaceTypeShift; break; AMS_UNREACHABLE_DEFAULT_CASE(); } } /* When hbl is applet, adjust main thread priority. */ if ((MakeProgramInfoFlag(static_cast(meta->aci_kac), meta->aci->kac_size / sizeof(util::BitPack32)) & ProgramInfoFlag_ApplicationTypeMask) == ProgramInfoFlag_Applet) { constexpr auto HblMainThreadPriorityApplication = 44; constexpr auto HblMainThreadPriorityApplet = 40; if (meta->npdm->main_thread_priority == HblMainThreadPriorityApplication) { meta->npdm->main_thread_priority = HblMainThreadPriorityApplet; } } /* Fix the debug capabilities, to prevent needing a hbl recompilation. */ FixDebugCapabilityForHbl(static_cast(meta->acid_kac), meta->acid->kac_size / sizeof(util::BitPack32)); FixDebugCapabilityForHbl(static_cast(meta->aci_kac), meta->aci->kac_size / sizeof(util::BitPack32)); } else if (hos::GetVersion() >= hos::Version_10_0_0) { /* If storage id is none, there is no base code filesystem, and thus it is impossible for us to validate. */ /* However, if we're an application, we are guaranteed a base code filesystem. */ if (static_cast(loc.storage_id) != ncm::StorageId::None || ncm::IsApplicationId(loc.program_id)) { R_TRY(fs::OpenFile(std::addressof(file), BaseMetaPath, fs::OpenMode_Read)); ON_SCOPE_EXIT { fs::CloseFile(file); }; R_TRY(LoadMetaFromFile(file, std::addressof(g_original_meta_cache))); R_TRY(ValidateAcidSignature(std::addressof(g_original_meta_cache.meta), platform, unk_unused)); meta->modulus = g_original_meta_cache.meta.modulus; meta->check_verification_data = g_original_meta_cache.meta.check_verification_data; } } /* Pre-process the capabilities. */ /* This is used to e.g. avoid passing memory region descriptor to older kernels. */ PreProcessCapability(static_cast(meta->acid_kac), meta->acid->kac_size / sizeof(util::BitPack32)); PreProcessCapability(static_cast(meta->aci_kac), meta->aci->kac_size / sizeof(util::BitPack32)); /* Set output. */ g_cached_program_id = loc.program_id; g_cached_override_status = status; *out_meta = *meta; R_SUCCEED(); } Result LoadMetaFromCache(Meta *out_meta, const ncm::ProgramLocation &loc, const cfg::OverrideStatus &status, ncm::ContentMetaPlatform platform) { if (g_cached_program_id != loc.program_id || g_cached_override_status != status) { R_RETURN(LoadMeta(out_meta, loc, status, platform, false)); } *out_meta = g_meta_cache.meta; R_SUCCEED(); } void InvalidateMetaCache() { /* Set the cached program id back to zero. */ g_cached_program_id = {}; } }