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Atmosphere/libraries/libmesosphere/source/kern_k_initial_process_reader.cpp

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/*
* Copyright (c) 2018-2020 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 <mesosphere.hpp>
namespace ams::kern {
namespace {
struct BlzSegmentFlags {
using Offset = util::BitPack16::Field<0, 12, u32>;
using Size = util::BitPack16::Field<Offset::Next, 4, u32>;
};
NOINLINE void BlzUncompress(void *_end) {
/* Parse the footer, endian agnostic. */
static_assert(sizeof(u32) == 4);
static_assert(sizeof(u16) == 2);
static_assert(sizeof(u8) == 1);
u8 *end = static_cast<u8 *>(_end);
const u32 total_size = (end[-12] << 0) | (end[-11] << 8) | (end[-10] << 16) | (end[- 9] << 24);
const u32 footer_size = (end[- 8] << 0) | (end[- 7] << 8) | (end[- 6] << 16) | (end[- 5] << 24);
const u32 additional_size = (end[- 4] << 0) | (end[- 3] << 8) | (end[- 2] << 16) | (end[- 1] << 24);
/* Prepare to decompress. */
u8 *cmp_start = end - total_size;
u32 cmp_ofs = total_size - footer_size;
u32 out_ofs = total_size + additional_size;
/* Decompress. */
while (out_ofs) {
u8 control = cmp_start[--cmp_ofs];
/* Each bit in the control byte is a flag indicating compressed or not compressed. */
for (size_t i = 0; i < 8 && out_ofs; ++i, control <<= 1) {
if (control & 0x80) {
/* NOTE: Nintendo does not check if it's possible to decompress. */
/* As such, we will leave the following as a debug assertion, and not a release assertion. */
MESOSPHERE_AUDIT(cmp_ofs >= sizeof(u16));
cmp_ofs -= sizeof(u16);
/* Extract segment bounds. */
const util::BitPack16 seg_flags{static_cast<u16>((cmp_start[cmp_ofs] << 0) | (cmp_start[cmp_ofs + 1] << 8))};
const u32 seg_ofs = seg_flags.Get<BlzSegmentFlags::Offset>() + 3;
const u32 seg_size = std::min(seg_flags.Get<BlzSegmentFlags::Size>() + 3, out_ofs);
MESOSPHERE_AUDIT(out_ofs + seg_ofs <= total_size + additional_size);
/* Copy the data. */
out_ofs -= seg_size;
for (size_t j = 0; j < seg_size; j++) {
cmp_start[out_ofs + j] = cmp_start[out_ofs + seg_ofs + j];
}
} else {
/* NOTE: Nintendo does not check if it's possible to copy. */
/* As such, we will leave the following as a debug assertion, and not a release assertion. */
MESOSPHERE_AUDIT(cmp_ofs >= sizeof(u8));
cmp_start[--out_ofs] = cmp_start[--cmp_ofs];
}
}
}
}
}
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Result KInitialProcessReader::MakeCreateProcessParameter(ams::svc::CreateProcessParameter *out, bool enable_aslr) const {
/* Get and validate addresses/sizes. */
const uintptr_t rx_address = this->kip_header->GetRxAddress();
const size_t rx_size = this->kip_header->GetRxSize();
const uintptr_t ro_address = this->kip_header->GetRoAddress();
const size_t ro_size = this->kip_header->GetRoSize();
const uintptr_t rw_address = this->kip_header->GetRwAddress();
const size_t rw_size = this->kip_header->GetRwSize();
const uintptr_t bss_address = this->kip_header->GetBssAddress();
const size_t bss_size = this->kip_header->GetBssSize();
R_UNLESS(util::IsAligned(rx_address, PageSize), svc::ResultInvalidAddress());
R_UNLESS(util::IsAligned(ro_address, PageSize), svc::ResultInvalidAddress());
R_UNLESS(util::IsAligned(rw_address, PageSize), svc::ResultInvalidAddress());
R_UNLESS(rx_address <= rx_address + util::AlignUp(rx_size, PageSize), svc::ResultInvalidAddress());
R_UNLESS(ro_address <= ro_address + util::AlignUp(ro_size, PageSize), svc::ResultInvalidAddress());
R_UNLESS(rw_address <= rw_address + util::AlignUp(rw_size, PageSize), svc::ResultInvalidAddress());
R_UNLESS(bss_address <= bss_address + util::AlignUp(bss_size, PageSize), svc::ResultInvalidAddress());
R_UNLESS(rx_address + util::AlignUp(rx_size, PageSize) <= ro_address, svc::ResultInvalidAddress());
R_UNLESS(ro_address + util::AlignUp(ro_size, PageSize) <= rw_address, svc::ResultInvalidAddress());
R_UNLESS(rw_address + rw_size <= bss_address, svc::ResultInvalidAddress());
/* Validate the address space. */
if (this->Is64BitAddressSpace()) {
R_UNLESS(this->Is64Bit(), svc::ResultInvalidCombination());
}
using ASType = KAddressSpaceInfo::Type;
const uintptr_t start_address = rx_address;
const uintptr_t end_address = bss_size > 0 ? bss_address + bss_size : rw_address + rw_size;
const size_t as_width = this->Is64BitAddressSpace() ? 39 : 32;
const ASType as_type = this->Is64BitAddressSpace() ? KAddressSpaceInfo::Type_Large64Bit : KAddressSpaceInfo::Type_32Bit;
const uintptr_t map_start = KAddressSpaceInfo::GetAddressSpaceStart(as_width, as_type);
const size_t map_size = KAddressSpaceInfo::GetAddressSpaceSize(as_width, as_type);
const uintptr_t map_end = map_start + map_size;
MESOSPHERE_ABORT_UNLESS(start_address == 0);
/* Set fields in parameter. */
out->code_address = map_start + start_address;
out->code_num_pages = util::AlignUp(end_address - start_address, PageSize) / PageSize;
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out->program_id = this->kip_header->GetProgramId();
out->version = this->kip_header->GetVersion();
out->flags = 0;
MESOSPHERE_ABORT_UNLESS((out->code_address / PageSize) + out->code_num_pages <= (map_end / PageSize));
/* Copy name field. */
this->kip_header->GetName(out->name, sizeof(out->name));
/* Apply ASLR, if needed. */
if (enable_aslr) {
const size_t choices = (map_end / KernelAslrAlignment) - (util::AlignUp(out->code_address + out->code_num_pages * PageSize, KernelAslrAlignment) / KernelAslrAlignment);
out->code_address += KSystemControl::GenerateRandomRange(0, choices) * KernelAslrAlignment;
out->flags |= ams::svc::CreateProcessFlag_EnableAslr;
}
/* Apply other flags. */
if (this->Is64Bit()) {
out->flags |= ams::svc::CreateProcessFlag_Is64Bit;
}
if (this->Is64BitAddressSpace()) {
out->flags |= ams::svc::CreateProcessFlag_AddressSpace64Bit;
} else {
out->flags |= ams::svc::CreateProcessFlag_AddressSpace32Bit;
}
return ResultSuccess();
}
Result KInitialProcessReader::Load(KProcessAddress address, const ams::svc::CreateProcessParameter &params) const {
/* Clear memory at the address. */
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std::memset(GetVoidPointer(address), 0, params.code_num_pages * PageSize);
/* Prepare to layout the data. */
const KProcessAddress rx_address = address + this->kip_header->GetRxAddress();
const KProcessAddress ro_address = address + this->kip_header->GetRoAddress();
const KProcessAddress rw_address = address + this->kip_header->GetRwAddress();
const u8 *rx_binary = reinterpret_cast<const u8 *>(this->kip_header + 1);
const u8 *ro_binary = rx_binary + this->kip_header->GetRxCompressedSize();
const u8 *rw_binary = ro_binary + this->kip_header->GetRoCompressedSize();
/* Copy text. */
if (util::AlignUp(this->kip_header->GetRxSize(), PageSize)) {
std::memcpy(GetVoidPointer(rx_address), rx_binary, this->kip_header->GetRxCompressedSize());
if (this->kip_header->IsRxCompressed()) {
BlzUncompress(GetVoidPointer(rx_address + this->kip_header->GetRxCompressedSize()));
}
}
/* Copy rodata. */
if (util::AlignUp(this->kip_header->GetRoSize(), PageSize)) {
std::memcpy(GetVoidPointer(ro_address), ro_binary, this->kip_header->GetRoCompressedSize());
if (this->kip_header->IsRoCompressed()) {
BlzUncompress(GetVoidPointer(ro_address + this->kip_header->GetRoCompressedSize()));
}
}
/* Copy rwdata. */
if (util::AlignUp(this->kip_header->GetRwSize(), PageSize)) {
std::memcpy(GetVoidPointer(rw_address), rw_binary, this->kip_header->GetRwCompressedSize());
if (this->kip_header->IsRwCompressed()) {
BlzUncompress(GetVoidPointer(rw_address + this->kip_header->GetRwCompressedSize()));
}
}
/* Flush caches. */
/* NOTE: official kernel does an entire cache flush by set/way here, which is incorrect as other cores are online. */
/* We will simply flush by virtual address, since that's what ARM says is correct to do. */
MESOSPHERE_R_ABORT_UNLESS(cpu::FlushDataCache(GetVoidPointer(address), params.code_num_pages * PageSize));
cpu::InvalidateEntireInstructionCache();
return ResultSuccess();
}
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}