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https://github.com/Atmosphere-NX/Atmosphere.git
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344 lines
19 KiB
C++
344 lines
19 KiB
C++
/*
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* Copyright (c) Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <mesosphere.hpp>
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namespace ams::kern {
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namespace {
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struct BlzSegmentFlags {
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using Offset = util::BitPack16::Field<0, 12, u32>;
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using Size = util::BitPack16::Field<Offset::Next, 4, u32>;
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};
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NOINLINE void BlzUncompress(void *_end) {
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/* Parse the footer, endian agnostic. */
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static_assert(sizeof(u32) == 4);
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static_assert(sizeof(u16) == 2);
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static_assert(sizeof(u8) == 1);
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u8 *end = static_cast<u8 *>(_end);
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const u32 total_size = (end[-12] << 0) | (end[-11] << 8) | (end[-10] << 16) | (end[- 9] << 24);
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const u32 footer_size = (end[- 8] << 0) | (end[- 7] << 8) | (end[- 6] << 16) | (end[- 5] << 24);
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const u32 additional_size = (end[- 4] << 0) | (end[- 3] << 8) | (end[- 2] << 16) | (end[- 1] << 24);
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/* Prepare to decompress. */
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u8 *cmp_start = end - total_size;
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u32 cmp_ofs = total_size - footer_size;
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u32 out_ofs = total_size + additional_size;
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/* Decompress. */
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while (out_ofs) {
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u8 control = cmp_start[--cmp_ofs];
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/* Each bit in the control byte is a flag indicating compressed or not compressed. */
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for (size_t i = 0; i < 8 && out_ofs; ++i, control <<= 1) {
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if (control & 0x80) {
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/* NOTE: Nintendo does not check if it's possible to decompress. */
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/* As such, we will leave the following as a debug assertion, and not a release assertion. */
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MESOSPHERE_AUDIT(cmp_ofs >= sizeof(u16));
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cmp_ofs -= sizeof(u16);
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/* Extract segment bounds. */
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const util::BitPack16 seg_flags{static_cast<u16>((cmp_start[cmp_ofs] << 0) | (cmp_start[cmp_ofs + 1] << 8))};
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const u32 seg_ofs = seg_flags.Get<BlzSegmentFlags::Offset>() + 3;
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const u32 seg_size = std::min(seg_flags.Get<BlzSegmentFlags::Size>() + 3, out_ofs);
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MESOSPHERE_AUDIT(out_ofs + seg_ofs <= total_size + additional_size);
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/* Copy the data. */
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out_ofs -= seg_size;
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for (size_t j = 0; j < seg_size; j++) {
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cmp_start[out_ofs + j] = cmp_start[out_ofs + seg_ofs + j];
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}
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} else {
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/* NOTE: Nintendo does not check if it's possible to copy. */
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/* As such, we will leave the following as a debug assertion, and not a release assertion. */
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MESOSPHERE_AUDIT(cmp_ofs >= sizeof(u8));
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cmp_start[--out_ofs] = cmp_start[--cmp_ofs];
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}
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}
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}
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}
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NOINLINE void LoadInitialProcessSegment(const KPageGroup &pg, size_t seg_offset, size_t seg_size, size_t binary_size, KVirtualAddress data, bool compressed) {
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/* Save the original binary extents, for later use. */
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const KPhysicalAddress binary_phys = KMemoryLayout::GetLinearPhysicalAddress(data);
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/* Create a page group representing the segment. */
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KPageGroup segment_pg(Kernel::GetSystemSystemResource().GetBlockInfoManagerPointer());
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if (size_t remaining_size = util::AlignUp(seg_size, PageSize); remaining_size != 0) {
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/* Find the pages whose data corresponds to the segment. */
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size_t cur_offset = 0;
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for (auto it = pg.begin(); it != pg.end() && remaining_size > 0; ++it) {
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/* Get the current size. */
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const size_t cur_size = it->GetSize();
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/* Determine if the offset is in range. */
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const size_t rel_diff = seg_offset - cur_offset;
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const bool is_before = cur_offset <= seg_offset;
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cur_offset += cur_size;
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if (is_before && seg_offset < cur_offset) {
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/* It is, so add the block. */
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const size_t block_size = std::min<size_t>(cur_size - rel_diff, remaining_size);
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MESOSPHERE_R_ABORT_UNLESS(segment_pg.AddBlock(it->GetAddress() + rel_diff, block_size / PageSize));
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/* Advance. */
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cur_offset = seg_offset + block_size;
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remaining_size -= block_size;
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seg_offset += block_size;
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}
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}
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}
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/* Setup the new page group's memory so that we can load the segment. */
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{
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KVirtualAddress last_block = Null<KVirtualAddress>;
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KVirtualAddress last_data = Null<KVirtualAddress>;
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size_t last_copy_size = 0;
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size_t last_clear_size = 0;
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size_t remaining_copy_size = binary_size;
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for (const auto &block : segment_pg) {
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/* Get the current block extents. */
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const auto block_addr = block.GetAddress();
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const size_t block_size = block.GetSize();
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if (remaining_copy_size > 0) {
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/* Determine if we need to copy anything. */
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const size_t cur_size = std::min<size_t>(block_size, remaining_copy_size);
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/* NOTE: The first block may potentially overlap the binary we want to copy to. */
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/* Consider e.g. the case where the overall compressed image has size 0x40000, seg_offset is 0x30000, and binary_size is > 0x20000. */
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/* Suppose too that data points, say, 0x18000 into the compressed image. */
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/* Suppose finally that we simply naively copy in order. */
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/* The first iteration of this loop will perform an 0x10000 copy from image+0x18000 to image + 0x30000 (as there is no overlap). */
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/* The second iteration will perform a copy from image+0x28000 to <allocated pages>. */
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/* However, the first copy will have trashed the data in the second copy. */
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/* Thus, we must copy the first block after-the-fact to avoid potentially trashing data in the overlap case. */
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/* It is guaranteed by pre-condition that only the very first block can overlap with the physical binary, so we can simply memmove it at the end. */
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if (last_block != Null<KVirtualAddress>) {
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/* This is guaranteed by pre-condition, but for ease of debugging, check for no overlap. */
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MESOSPHERE_ASSERT(!util::HasOverlap(GetInteger(binary_phys), binary_size, GetInteger(block_addr), cur_size));
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MESOSPHERE_UNUSED(binary_phys);
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/* We need to copy. */
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std::memcpy(GetVoidPointer(KMemoryLayout::GetLinearVirtualAddress(block_addr)), GetVoidPointer(data), cur_size);
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/* If we need to, clear past where we're copying. */
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if (cur_size != block_size) {
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std::memset(GetVoidPointer(KMemoryLayout::GetLinearVirtualAddress(block_addr + cur_size)), 0, block_size - cur_size);
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}
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/* Advance. */
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remaining_copy_size -= cur_size;
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data += cur_size;
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} else {
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/* Save the first block, which may potentially overlap, so that we can copy it later. */
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last_block = KMemoryLayout::GetLinearVirtualAddress(block_addr);
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last_data = data;
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last_copy_size = cur_size;
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last_clear_size = block_size - cur_size;
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/* Advance. */
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remaining_copy_size -= cur_size;
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data += cur_size;
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}
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} else {
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/* We don't have data to copy, so we should just clear the pages. */
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std::memset(GetVoidPointer(KMemoryLayout::GetLinearVirtualAddress(block_addr)), 0, block_size);
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}
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}
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/* Handle a last block. */
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if (last_copy_size != 0) {
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if (last_block != last_data) {
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std::memmove(GetVoidPointer(last_block), GetVoidPointer(last_data), last_copy_size);
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}
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if (last_clear_size != 0) {
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std::memset(GetVoidPointer(last_block + last_copy_size), 0, last_clear_size);
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}
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}
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}
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/* If compressed, uncompress the data. */
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if (compressed) {
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/* Get the temporary region. */
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const auto &temp_region = KMemoryLayout::GetTempRegion();
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MESOSPHERE_ABORT_UNLESS(temp_region.GetEndAddress() != 0);
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/* Map the process's memory into the temporary region. */
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KProcessAddress temp_address = Null<KProcessAddress>;
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MESOSPHERE_R_ABORT_UNLESS(Kernel::GetKernelPageTable().MapPageGroup(std::addressof(temp_address), segment_pg, temp_region.GetAddress(), temp_region.GetSize() / PageSize, KMemoryState_Kernel, KMemoryPermission_KernelReadWrite));
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ON_SCOPE_EXIT { MESOSPHERE_R_ABORT_UNLESS(Kernel::GetKernelPageTable().UnmapPageGroup(temp_address, segment_pg, KMemoryState_Kernel)); };
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/* Uncompress the data. */
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BlzUncompress(GetVoidPointer(temp_address + binary_size));
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}
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}
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}
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Result KInitialProcessReader::MakeCreateProcessParameter(ams::svc::CreateProcessParameter *out, bool enable_aslr) const {
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/* Get and validate addresses/sizes. */
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const uintptr_t rx_address = m_kip_header.GetRxAddress();
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const size_t rx_size = m_kip_header.GetRxSize();
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const uintptr_t ro_address = m_kip_header.GetRoAddress();
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const size_t ro_size = m_kip_header.GetRoSize();
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const uintptr_t rw_address = m_kip_header.GetRwAddress();
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const size_t rw_size = m_kip_header.GetRwSize();
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const uintptr_t bss_address = m_kip_header.GetBssAddress();
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const size_t bss_size = m_kip_header.GetBssSize();
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R_UNLESS(util::IsAligned(rx_address, PageSize), svc::ResultInvalidAddress());
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R_UNLESS(util::IsAligned(ro_address, PageSize), svc::ResultInvalidAddress());
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R_UNLESS(util::IsAligned(rw_address, PageSize), svc::ResultInvalidAddress());
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R_UNLESS(rx_address <= rx_address + util::AlignUp(rx_size, PageSize), svc::ResultInvalidAddress());
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R_UNLESS(ro_address <= ro_address + util::AlignUp(ro_size, PageSize), svc::ResultInvalidAddress());
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R_UNLESS(rw_address <= rw_address + util::AlignUp(rw_size, PageSize), svc::ResultInvalidAddress());
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R_UNLESS(bss_address <= bss_address + util::AlignUp(bss_size, PageSize), svc::ResultInvalidAddress());
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R_UNLESS(rx_address + util::AlignUp(rx_size, PageSize) <= ro_address, svc::ResultInvalidAddress());
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R_UNLESS(ro_address + util::AlignUp(ro_size, PageSize) <= rw_address, svc::ResultInvalidAddress());
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R_UNLESS(rw_address + rw_size <= bss_address, svc::ResultInvalidAddress());
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/* Validate the address space. */
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if (this->Is64BitAddressSpace()) {
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R_UNLESS(this->Is64Bit(), svc::ResultInvalidCombination());
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}
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using ASType = KAddressSpaceInfo::Type;
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const uintptr_t start_address = rx_address;
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const uintptr_t end_address = bss_size > 0 ? bss_address + bss_size : rw_address + rw_size;
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const size_t as_width = this->Is64BitAddressSpace() ? ((GetTargetFirmware() >= TargetFirmware_2_0_0) ? 39 : 36) : 32;
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const ASType as_type = this->Is64BitAddressSpace() ? ((GetTargetFirmware() >= TargetFirmware_2_0_0) ? KAddressSpaceInfo::Type_Map39Bit : KAddressSpaceInfo::Type_MapSmall) : KAddressSpaceInfo::Type_MapSmall;
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const uintptr_t map_start = KAddressSpaceInfo::GetAddressSpaceStart(as_width, as_type);
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const size_t map_size = KAddressSpaceInfo::GetAddressSpaceSize(as_width, as_type);
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const uintptr_t map_end = map_start + map_size;
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MESOSPHERE_ABORT_UNLESS(start_address == 0);
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/* Set fields in parameter. */
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out->code_address = map_start + start_address;
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out->code_num_pages = util::AlignUp(end_address - start_address, PageSize) / PageSize;
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out->program_id = m_kip_header.GetProgramId();
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out->version = m_kip_header.GetVersion();
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out->flags = 0;
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out->reslimit = ams::svc::InvalidHandle;
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out->system_resource_num_pages = 0;
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MESOSPHERE_ABORT_UNLESS((out->code_address / PageSize) + out->code_num_pages <= (map_end / PageSize));
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/* Copy name field. */
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m_kip_header.GetName(out->name, sizeof(out->name));
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/* Apply ASLR, if needed. */
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if (enable_aslr) {
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const size_t choices = (map_end / KernelAslrAlignment) - (util::AlignUp(out->code_address + out->code_num_pages * PageSize, KernelAslrAlignment) / KernelAslrAlignment);
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out->code_address += KSystemControl::GenerateRandomRange(0, choices) * KernelAslrAlignment;
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out->flags |= ams::svc::CreateProcessFlag_EnableAslr;
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}
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/* Apply other flags. */
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if (this->Is64Bit()) {
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out->flags |= ams::svc::CreateProcessFlag_Is64Bit;
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}
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if (this->Is64BitAddressSpace()) {
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out->flags |= (GetTargetFirmware() >= TargetFirmware_2_0_0) ? ams::svc::CreateProcessFlag_AddressSpace64Bit : ams::svc::CreateProcessFlag_AddressSpace64BitDeprecated;
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} else {
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out->flags |= ams::svc::CreateProcessFlag_AddressSpace32Bit;
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}
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/* All initial processes should disable device address space merge. */
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out->flags |= ams::svc::CreateProcessFlag_DisableDeviceAddressSpaceMerge;
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R_SUCCEED();
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}
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void KInitialProcessReader::Load(const KPageGroup &pg, KVirtualAddress data) const {
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/* Prepare to layout the data. */
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const KVirtualAddress rx_data = data;
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const KVirtualAddress ro_data = rx_data + m_kip_header.GetRxCompressedSize();
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const KVirtualAddress rw_data = ro_data + m_kip_header.GetRoCompressedSize();
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const size_t rx_size = m_kip_header.GetRxSize();
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const size_t ro_size = m_kip_header.GetRoSize();
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const size_t rw_size = m_kip_header.GetRwSize();
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/* If necessary, setup bss. */
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if (const size_t bss_size = m_kip_header.GetBssSize(); bss_size > 0) {
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/* Determine how many additional pages are needed for bss. */
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const u64 rw_end = util::AlignUp<u64>(m_kip_header.GetRwAddress() + m_kip_header.GetRwSize(), PageSize);
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const u64 bss_end = util::AlignUp<u64>(m_kip_header.GetBssAddress() + m_kip_header.GetBssSize(), PageSize);
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if (rw_end != bss_end) {
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/* Find the pages corresponding to bss. */
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size_t cur_offset = 0;
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size_t remaining_size = bss_end - rw_end;
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size_t bss_offset = rw_end - m_kip_header.GetRxAddress();
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for (auto it = pg.begin(); it != pg.end() && remaining_size > 0; ++it) {
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/* Get the current size. */
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const size_t cur_size = it->GetSize();
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/* Determine if the offset is in range. */
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const size_t rel_diff = bss_offset - cur_offset;
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const bool is_before = cur_offset <= bss_offset;
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cur_offset += cur_size;
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if (is_before && bss_offset < cur_offset) {
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/* It is, so clear the bss range. */
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const size_t block_size = std::min<size_t>(cur_size - rel_diff, remaining_size);
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std::memset(GetVoidPointer(KMemoryLayout::GetLinearVirtualAddress(it->GetAddress() + rel_diff)), 0, block_size);
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/* Advance. */
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cur_offset = bss_offset + block_size;
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remaining_size -= block_size;
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bss_offset += block_size;
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}
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}
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}
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}
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/* Load .rwdata. */
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LoadInitialProcessSegment(pg, m_kip_header.GetRwAddress() - m_kip_header.GetRxAddress(), rw_size, m_kip_header.GetRwCompressedSize(), rw_data, m_kip_header.IsRwCompressed());
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/* Load .rodata. */
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LoadInitialProcessSegment(pg, m_kip_header.GetRoAddress() - m_kip_header.GetRxAddress(), ro_size, m_kip_header.GetRoCompressedSize(), ro_data, m_kip_header.IsRoCompressed());
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/* Load .text. */
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LoadInitialProcessSegment(pg, m_kip_header.GetRxAddress() - m_kip_header.GetRxAddress(), rx_size, m_kip_header.GetRxCompressedSize(), rx_data, m_kip_header.IsRxCompressed());
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}
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Result KInitialProcessReader::SetMemoryPermissions(KProcessPageTable &page_table, const ams::svc::CreateProcessParameter ¶ms) const {
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const size_t rx_size = m_kip_header.GetRxSize();
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const size_t ro_size = m_kip_header.GetRoSize();
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const size_t rw_size = m_kip_header.GetRwSize();
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const size_t bss_size = m_kip_header.GetBssSize();
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/* Set R-X pages. */
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if (rx_size) {
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const uintptr_t start = m_kip_header.GetRxAddress() + params.code_address;
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R_TRY(page_table.SetProcessMemoryPermission(start, util::AlignUp(rx_size, PageSize), ams::svc::MemoryPermission_ReadExecute));
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}
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/* Set R-- pages. */
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if (ro_size) {
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const uintptr_t start = m_kip_header.GetRoAddress() + params.code_address;
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R_TRY(page_table.SetProcessMemoryPermission(start, util::AlignUp(ro_size, PageSize), ams::svc::MemoryPermission_Read));
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}
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/* Set RW- pages. */
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if (rw_size || bss_size) {
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const uintptr_t start = (rw_size ? m_kip_header.GetRwAddress() : m_kip_header.GetBssAddress()) + params.code_address;
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const uintptr_t end = (bss_size ? m_kip_header.GetBssAddress() + bss_size : m_kip_header.GetRwAddress() + rw_size) + params.code_address;
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R_TRY(page_table.SetProcessMemoryPermission(start, util::AlignUp(end - start, PageSize), ams::svc::MemoryPermission_ReadWrite));
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}
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R_SUCCEED();
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}
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}
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