Atmosphere/stratosphere/ro/source/ro_registration.cpp

/*
 * Copyright (c) 2018-2019 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 <http://www.gnu.org/licenses/>.
 */

#include <switch.h>
#include <cstdio>
#include <algorithm>
#include <stratosphere.hpp>

#include "ro_registration.hpp"
#include "ro_map.hpp"
#include "ro_nrr.hpp"
#include "ro_patcher.hpp"

/* Declare process contexts as global array. */
static Registration::RoProcessContext g_process_contexts[Registration::MaxSessions] = {};

static bool g_is_development_hardware, g_is_development_function_enabled;

void Registration::Initialize() {
    DoWithSmSession([&]() {
        if (R_FAILED(splInitialize())) {
            std::abort();
        }
    });
    ON_SCOPE_EXIT { splExit(); };

    if (R_FAILED(splIsDevelopment(&g_is_development_hardware))) {
        std::abort();
    }

    {
        u64 out_val = 0;
        if (R_FAILED(splGetConfig(SplConfigItem_IsDebugMode, &out_val))) {
            std::abort();
        }
        g_is_development_function_enabled = out_val != 0;
    }
}

bool Registration::ShouldEaseNroRestriction() {
    bool should_ease = false;

    if (R_FAILED(setsysGetSettingsItemValue("ro", "ease_nro_restriction", &should_ease, sizeof(should_ease)))) {
        return false;
    }

    /* Nintendo only allows easing restriction on dev, we will allow on production, as well. */
    /* should_ease &= g_is_development_function_enabled; */
    return should_ease;
}

Result Registration::RegisterProcess(RoProcessContext **out_context, Handle process_handle, u64 process_id) {
    /* Check if a process context already exists. */
    for (size_t i = 0; i < Registration::MaxSessions; i++) {
        if (g_process_contexts[i].process_id == process_id) {
            return ResultRoInvalidSession;
        }
    }

    /* Find a free process context. */
    for (size_t i = 0; i < Registration::MaxSessions; i++) {
        if (!g_process_contexts[i].in_use) {
            std::memset(&g_process_contexts[i], 0, sizeof(g_process_contexts[i]));
            g_process_contexts[i].process_id = process_id;
            g_process_contexts[i].process_handle = process_handle;
            g_process_contexts[i].in_use = true;
            *out_context = &g_process_contexts[i];
            return ResultSuccess;
        }
    }

    /* Failure to find a free context is actually an abort condition. */
    /* TODO: Should this return an unofficial error code? */
    std::abort();
}

void Registration::UnregisterProcess(RoProcessContext *context) {
    if (context->process_handle != INVALID_HANDLE) {
        for (size_t i = 0; i < Registration::MaxNrrInfos; i++) {
            if (context->nrr_in_use[i]) {
                UnmapNrr(context->process_handle, context->nrr_infos[i].header, context->nrr_infos[i].nrr_heap_address, context->nrr_infos[i].nrr_heap_size, context->nrr_infos[i].mapped_code_address);
            }
        }
        svcCloseHandle(context->process_handle);
    }
    std::memset(context, 0, sizeof(*context));
}

Result Registration::GetProcessModuleInfo(u32 *out_count, LoaderModuleInfo *out_infos, size_t max_out_count, u64 process_id) {
    size_t count = 0;
    for (size_t sess = 0; sess < Registration::MaxSessions; sess++) {
        if (g_process_contexts[sess].process_id == process_id) {
            /* For convenience, helper. */
            const RoProcessContext *context = &g_process_contexts[sess];

            for (size_t i = 0; i < Registration::MaxNroInfos && count < max_out_count; i++) {
                if (!context->nro_in_use[i]) {
                    continue;
                }

                /* Just copy out the info. */
                LoaderModuleInfo *out_info = &out_infos[count++];
                memcpy(out_info->build_id, &context->nro_infos[i].module_id, sizeof(context->nro_infos[i].module_id));
                out_info->base_address = context->nro_infos[i].base_address;
                out_info->size = context->nro_infos[i].nro_heap_size + context->nro_infos[i].bss_heap_size;
            }

            break;
        }
    }

    *out_count = static_cast<u32>(count);
    return ResultSuccess;
}

Result Registration::LoadNrr(RoProcessContext *context, u64 title_id, u64 nrr_address, u64 nrr_size, RoModuleType expected_type, bool enforce_type) {
    /* Validate address/size. */
    if (nrr_address & 0xFFF) {
        return ResultRoInvalidAddress;
    }
    if (nrr_size == 0 || (nrr_size & 0xFFF) || !(nrr_address < nrr_address + nrr_size)) {
        return ResultRoInvalidSize;
    }

    /* Check we have space for a new NRR. */
    size_t slot = 0;
    for (slot = 0; slot < Registration::MaxNrrInfos; slot++) {
        if (!context->nrr_in_use[slot]) {
            break;
        }
    }
    if (slot == Registration::MaxNrrInfos) {
        return ResultRoTooManyNrr;
    }

    NrrInfo *nrr_info = &context->nrr_infos[slot];

    /* Map. */
    NrrHeader *header = nullptr;
    u64 mapped_code_address = 0;
    Result rc = MapAndValidateNrr(&header, &mapped_code_address, context->process_handle, title_id, nrr_address, nrr_size, expected_type, enforce_type);
    if (R_FAILED(rc)) {
        return rc;
    }

    /* Set NRR info. */
    nrr_info->header = header;
    nrr_info->nrr_heap_address = nrr_address;
    nrr_info->nrr_heap_size = nrr_size;
    nrr_info->mapped_code_address = mapped_code_address;
    context->nrr_in_use[slot] = true;

    /* TODO. */
    return ResultSuccess;
}

Result Registration::UnloadNrr(RoProcessContext *context, u64 nrr_address) {
    /* Validate address. */
    if (nrr_address & 0xFFF) {
        return ResultRoInvalidAddress;
    }

    /* Check the NRR is loaded. */
    size_t slot = 0;
    for (slot = 0; slot < Registration::MaxNrrInfos; slot++) {
        if (!context->nrr_in_use[slot]) {
            continue;
        }

        if (context->nrr_infos[slot].nrr_heap_address == nrr_address) {
            break;
        }
    }
    if (slot == Registration::MaxNrrInfos) {
        return ResultRoNotRegistered;
    }

    /* Unmap. */
    const NrrInfo nrr_info = context->nrr_infos[slot];
    {
        /* Nintendo does this unconditionally, whether or not the actual unmap succeeds. */
        context->nrr_in_use[slot] = false;
        std::memset(&context->nrr_infos[slot], 0, sizeof(context->nrr_infos[slot]));
    }
    return UnmapNrr(context->process_handle, nrr_info.header, nrr_info.nrr_heap_address, nrr_info.nrr_heap_size, nrr_info.mapped_code_address);
}


Result Registration::LoadNro(u64 *out_address, RoProcessContext *context, u64 nro_address, u64 nro_size, u64 bss_address, u64 bss_size) {
    /* Validate address/size. */
    if (nro_address & 0xFFF) {
        return ResultRoInvalidAddress;
    }
    if (nro_size == 0 || (nro_size & 0xFFF) || !(nro_address < nro_address + nro_size)) {
        return ResultRoInvalidSize;
    }
    if (bss_address & 0xFFF) {
        return ResultRoInvalidAddress;
    }
    if ((bss_size & 0xFFF) || (bss_size > 0 && !(bss_address < bss_address + bss_size))) {
        return ResultRoInvalidSize;
    }

    const u64 total_size = nro_size + bss_size;
    if (total_size < nro_size || total_size < bss_size) {
        return ResultRoInvalidSize;
    }

    /* Check we have space for a new NRO. */
    size_t slot = 0;
    for (slot = 0; slot < Registration::MaxNroInfos; slot++) {
        if (!context->nro_in_use[slot]) {
            break;
        }
    }
    if (slot == Registration::MaxNroInfos) {
        return ResultRoTooManyNro;
    }

    NroInfo *nro_info = &context->nro_infos[slot];
    nro_info->nro_heap_address = nro_address;
    nro_info->nro_heap_size = nro_size;
    nro_info->bss_heap_address = bss_address;
    nro_info->bss_heap_size = bss_size;

    /* Map the NRO. */
    Result rc = MapNro(&nro_info->base_address, context->process_handle, nro_address, nro_size, bss_address, bss_size);
    if (R_FAILED(rc)) {
        return rc;
    }

    /* Validate the NRO (parsing region extents). */
    u64 rx_size, ro_size, rw_size;
    if (R_FAILED((rc = ValidateNro(&nro_info->module_id, &rx_size, &ro_size, &rw_size, context, nro_info->base_address, nro_size, bss_size)))) {
        UnmapNro(context->process_handle, nro_info->base_address, nro_address, bss_address, bss_size, nro_size, 0);
        return rc;
    }

    /* Set NRO perms. */
    if (R_FAILED((rc = SetNroPerms(context->process_handle, nro_info->base_address, rx_size, ro_size, rw_size + bss_size)))) {
        UnmapNro(context->process_handle, nro_info->base_address, nro_address, bss_address, bss_size, rx_size + ro_size, rw_size);
        return rc;
    }

    nro_info->code_size = rx_size + ro_size;
    nro_info->rw_size = rw_size;
    context->nro_in_use[slot] = true;
    *out_address = nro_info->base_address;
    return ResultSuccess;
}

bool Registration::IsNroHashPresent(RoProcessContext *context, const Sha256Hash *hash) {
    for (size_t i = 0; i < Registration::MaxNrrInfos; i++) {
        if (context->nrr_in_use[i]) {
            const Sha256Hash *nro_hashes = reinterpret_cast<const Sha256Hash *>(reinterpret_cast<uintptr_t>(context->nrr_infos[i].header) + context->nrr_infos[i].header->hash_offset);
            if (std::binary_search(nro_hashes, nro_hashes + context->nrr_infos[i].header->num_hashes, *hash)) {
                return true;
            }
        }
    }
    return false;
}

Result Registration::ValidateNro(ModuleId *out_module_id, u64 *out_rx_size, u64 *out_ro_size, u64 *out_rw_size, RoProcessContext *context, u64 base_address, u64 nro_size, u64 bss_size) {
    /* Find space to map the NRO. */
    u64 map_address;
    if (R_FAILED(MapUtils::LocateSpaceForMap(&map_address, nro_size))) {
        return ResultRoInsufficientAddressSpace;
    }

    /* Actually map the NRO. */
    AutoCloseMap nro_map(map_address, context->process_handle, base_address, nro_size);
    if (!nro_map.IsSuccess()) {
        return nro_map.GetResult();
    }

    /* Validate header. */
    const Registration::NroHeader *header = reinterpret_cast<const Registration::NroHeader *>(map_address);
    if (header->magic != MagicNro0) {
        return ResultRoInvalidNro;
    }
    if (header->nro_size != nro_size || header->bss_size != bss_size) {
        return ResultRoInvalidNro;
    }
    if ((header->text_size & 0xFFF) || (header->ro_size & 0xFFF) || (header->rw_size & 0xFFF) || (header->bss_size & 0xFFF)) {
        return ResultRoInvalidNro;
    }
    if (header->text_offset > header->ro_offset || header->ro_offset > header->rw_offset) {
        return ResultRoInvalidNro;
    }
    if (header->text_offset != 0 || header->text_offset + header->text_size != header->ro_offset || header->ro_offset + header->ro_size != header->rw_offset || header->rw_offset + header->rw_size != header->nro_size) {
        return ResultRoInvalidNro;
    }

    /* Verify NRO hash. */
    {
        Sha256Hash hash;
        sha256CalculateHash(&hash, header, nro_size);
        if (!IsNroHashPresent(context, &hash)) {
            return ResultRoNotAuthorized;
        }
    }

    ModuleId module_id;
    std::memcpy(&module_id, header->build_id, sizeof(module_id));

    /* Check if NRO has already been loaded. */
    for (size_t i = 0; i < Registration::MaxNroInfos; i++) {
        if (context->nro_in_use[i]) {
            if (std::memcmp(&context->nro_infos[i].module_id, &module_id, sizeof(module_id)) == 0) {
                return ResultRoAlreadyLoaded;
            }
        }
    }

    /* Apply patches to NRO. */
    PatchUtils::ApplyPatches(&module_id, reinterpret_cast<u8 *>(map_address), nro_size);

    *out_module_id = module_id;
    *out_rx_size = header->text_size;
    *out_ro_size = header->ro_size;
    *out_rw_size = header->rw_size;
    return ResultSuccess;
}

Result Registration::SetNroPerms(Handle process_handle, u64 base_address, u64 rx_size, u64 ro_size, u64 rw_size) {
    Result rc;
    const u64 rx_offset = 0;
    const u64 ro_offset = rx_offset + rx_size;
    const u64 rw_offset = ro_offset + ro_size;

    if (R_FAILED((rc = svcSetProcessMemoryPermission(process_handle, base_address + rx_offset, rx_size, 5)))) {
        return rc;
    }
    if (R_FAILED((rc = svcSetProcessMemoryPermission(process_handle, base_address + ro_offset, ro_size, 1)))) {
        return rc;
    }
    if (R_FAILED((rc = svcSetProcessMemoryPermission(process_handle, base_address + rw_offset, rw_size, 3)))) {
        return rc;
    }

    return ResultSuccess;
}

Result Registration::UnloadNro(RoProcessContext *context, u64 nro_address) {
    /* Validate address. */
    if (nro_address & 0xFFF) {
        return ResultRoInvalidAddress;
    }

    /* Check the NRO is loaded. */
    size_t slot = 0;
    for (slot = 0; slot < Registration::MaxNroInfos; slot++) {
        if (!context->nro_in_use[slot]) {
            continue;
        }

        if (context->nro_infos[slot].base_address == nro_address) {
            break;
        }
    }
    if (slot == Registration::MaxNroInfos) {
        return ResultRoNotLoaded;
    }

    /* Unmap. */
    const NroInfo nro_info = context->nro_infos[slot];
    {
        /* Nintendo does this unconditionally, whether or not the actual unmap succeeds. */
        context->nro_in_use[slot] = false;
        std::memset(&context->nro_infos[slot], 0, sizeof(context->nro_infos[slot]));
    }
    return UnmapNro(context->process_handle, nro_info.base_address, nro_info.nro_heap_address, nro_info.bss_heap_address, nro_info.bss_heap_size, nro_info.code_size, nro_info.rw_size);
}

Result Registration::MapAndValidateNrr(NrrHeader **out_header, u64 *out_mapped_code_address, Handle process_handle, u64 title_id, u64 nrr_heap_address, u64 nrr_heap_size, RoModuleType expected_type, bool enforce_type) {
    Result rc;
    MappedCodeMemory nrr_mcm;

    /* First, map the NRR. */
    if (R_FAILED((rc = MapUtils::MapCodeMemoryForProcess(nrr_mcm, process_handle, true, nrr_heap_address, nrr_heap_size)))) {
        if (GetRuntimeFirmwareVersion() < FirmwareVersion_300) {
            /* Try mapping as 32-bit, since we might have guessed wrong on < 3.0.0. */
            rc = MapUtils::MapCodeMemoryForProcess(nrr_mcm, process_handle, false, nrr_heap_address, nrr_heap_size);
        }
        if (R_FAILED(rc)) {
            return rc;
        }
    }

    const u64 code_address = nrr_mcm.GetDstAddress();
    u64 map_address;
    if (R_FAILED(MapUtils::LocateSpaceForMap(&map_address, nrr_heap_size))) {
        return ResultRoInsufficientAddressSpace;
    }

    /* Nintendo...does not check the return value of this map. We will check, instead of aborting if it fails. */
    AutoCloseMap nrr_map(map_address, process_handle, code_address, nrr_heap_size);
    if (!nrr_map.IsSuccess()) {
        return nrr_map.GetResult();
    }

    NrrHeader *nrr_header = reinterpret_cast<NrrHeader *>(map_address);
    if (R_FAILED((rc = NrrUtils::ValidateNrr(nrr_header, nrr_heap_size, title_id, expected_type, enforce_type)))) {
        return rc;
    }

    /* Invalidation here actually prevents them from unmapping at scope exit. */
    nrr_map.Invalidate();
    nrr_mcm.Invalidate();

    *out_header = nrr_header;
    *out_mapped_code_address = code_address;
    return ResultSuccess;
}

Result Registration::UnmapNrr(Handle process_handle, const NrrHeader *header, u64 nrr_heap_address, u64 nrr_heap_size, u64 mapped_code_address) {
    Result rc = svcUnmapProcessMemory((void *)header, process_handle, mapped_code_address, nrr_heap_size);
    if (R_FAILED(rc)) {
        return rc;
    }

    return svcUnmapProcessCodeMemory(process_handle, mapped_code_address, nrr_heap_address, nrr_heap_size);
}

Result Registration::MapNro(u64 *out_base_address, Handle process_handle, u64 nro_heap_address, u64 nro_heap_size, u64 bss_heap_address, u64 bss_heap_size) {
    Result rc;
    MappedCodeMemory nro_mcm;
    MappedCodeMemory bss_mcm;
    u64 base_address;

    /* Map the NRO, and map the BSS immediately after it. */
    size_t i = 0;
    for (i = 0; i < MapUtils::LocateRetryCount; i++) {
        MappedCodeMemory tmp_nro_mcm;
        bool is_64_bit = true;
        if (R_FAILED((rc = MapUtils::MapCodeMemoryForProcess(tmp_nro_mcm, process_handle, is_64_bit, nro_heap_address, nro_heap_size)))) {
            if (GetRuntimeFirmwareVersion() < FirmwareVersion_300) {
                /* Try mapping as 32-bit, since we might have guessed wrong on < 3.0.0. */
                is_64_bit = false;
                rc = MapUtils::MapCodeMemoryForProcess(tmp_nro_mcm, process_handle, is_64_bit, nro_heap_address, nro_heap_size);
            }
            if (R_FAILED(rc)) {
                return rc;
            }
        }
        base_address = tmp_nro_mcm.GetDstAddress();

        if (bss_heap_size > 0) {
            MappedCodeMemory tmp_bss_mcm(process_handle, base_address + nro_heap_size, bss_heap_address, bss_heap_size);
            rc = tmp_bss_mcm.GetResult();
            if (rc == ResultKernelInvalidMemoryState) {
                continue;
            }
            if (R_FAILED(rc)) {
                return rc;
            }

            if (!MapUtils::CanAddGuardRegions(process_handle, base_address, nro_heap_size + bss_heap_size)) {
                continue;
            }

            bss_mcm = std::move(tmp_bss_mcm);
        } else {
            if (!MapUtils::CanAddGuardRegions(process_handle, base_address, nro_heap_size)) {
                continue;
            }
        }
        nro_mcm = std::move(tmp_nro_mcm);
        break;
    }
    if (i == MapUtils::LocateRetryCount) {
        return ResultRoInsufficientAddressSpace;
    }

    /* Invalidation here actually prevents them from unmapping at scope exit. */
    nro_mcm.Invalidate();
    bss_mcm.Invalidate();

    *out_base_address = base_address;
    return ResultSuccess;
}

Result Registration::UnmapNro(Handle process_handle, u64 base_address, u64 nro_heap_address, u64 bss_heap_address, u64 bss_heap_size, u64 code_size, u64 rw_size) {
    Result rc;

    /* First, unmap bss. */
    if (bss_heap_size > 0) {
        if (R_FAILED((rc = svcUnmapProcessCodeMemory(process_handle, base_address + code_size + rw_size, bss_heap_address, bss_heap_size)))) {
            return rc;
        }
    }

    /* Next, unmap .rwdata */
    if (rw_size > 0) {
        if (R_FAILED((rc = svcUnmapProcessCodeMemory(process_handle, base_address + code_size, nro_heap_address + code_size, rw_size)))) {
            return rc;
        }
    }

    /* Finally, unmap .text + .rodata. */
    if (R_FAILED((rc = svcUnmapProcessCodeMemory(process_handle, base_address, nro_heap_address, code_size)))) {
        return rc;
    }

    return ResultSuccess;
}