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Atmosphere/libraries/libmesosphere/source/svc/kern_svc_cache.cpp
SciresM 96f95b9f95
Integrate new result macros. (#1780) 
* result: try out some experimental shenanigans

* result: sketch out some more shenanigans

* result: see what it looks like to convert kernel to use result conds instead of guards

* make rest of kernel use experimental new macro-ing
2022-02-14 14:45:32 -08:00

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/*
* 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 <http://www.gnu.org/licenses/>.
*/
#include <mesosphere.hpp>
namespace ams::kern::svc {
/* ============================= Common ============================= */
namespace {
class CacheOperation {
public:
virtual void Operate(void *address, size_t size) const = 0;
};
Result DoProcessCacheOperation(const CacheOperation &operation, KProcessPageTable &page_table, uintptr_t address, size_t size) {
/* Determine aligned extents. */
const uintptr_t aligned_start = util::AlignDown(address, PageSize);
const uintptr_t aligned_end = util::AlignUp(address + size, PageSize);
/* Iterate over and operate on contiguous ranges. */
uintptr_t cur_address = aligned_start;
size_t remaining = size;
while (remaining > 0) {
/* Get a contiguous range to operate on. */
KPageTableBase::MemoryRange contig_range = { .address = Null<KPhysicalAddress>, .size = 0 };
R_TRY(page_table.OpenMemoryRangeForProcessCacheOperation(std::addressof(contig_range), cur_address, aligned_end - cur_address));
/* Close the range when we're done operating on it. */
ON_SCOPE_EXIT { contig_range.Close(); };
/* Adjust to remain within range. */
KVirtualAddress operate_address = KMemoryLayout::GetLinearVirtualAddress(contig_range.address);
size_t operate_size = contig_range.size;
if (cur_address < address) {
operate_address += (address - cur_address);
operate_size -= (address - cur_address);
}
if (operate_size > remaining) {
operate_size = remaining;
}
/* Operate. */
operation.Operate(GetVoidPointer(operate_address), operate_size);
/* Advance. */
cur_address += contig_range.size;
remaining -= operate_size;
}
MESOSPHERE_ASSERT(remaining == 0);
R_SUCCEED();
}
void FlushEntireDataCache() {
/* Flushing cache takes up to 1ms, so determine our minimum end tick. */
const s64 timeout = KHardwareTimer::GetTick() + ams::svc::Tick(TimeSpan::FromMilliSeconds(1));
/* Flush the entire data cache. */
cpu::FlushEntireDataCache();
/* Wait for 1ms to have passed. */
while (KHardwareTimer::GetTick() < timeout) {
cpu::Yield();
}
}
Result FlushDataCache(uintptr_t address, size_t size) {
/* Succeed if there's nothing to do. */
R_SUCCEED_IF(size == 0);
/* Validate that the region is within range. */
R_UNLESS(GetCurrentProcess().GetPageTable().Contains(address, size), svc::ResultInvalidCurrentMemory());
/* Flush the cache. */
R_TRY(cpu::FlushDataCache(reinterpret_cast<void *>(address), size));
R_SUCCEED();
}
Result InvalidateProcessDataCache(ams::svc::Handle process_handle, uint64_t address, uint64_t size) {
/* Validate address/size. */
R_UNLESS(size > 0, svc::ResultInvalidSize());
R_UNLESS(address == static_cast<uintptr_t>(address), svc::ResultInvalidCurrentMemory());
R_UNLESS(size == static_cast<size_t>(size), svc::ResultInvalidCurrentMemory());
/* Get the process from its handle. */
KScopedAutoObject process = GetCurrentProcess().GetHandleTable().GetObject<KProcess>(process_handle);
R_UNLESS(process.IsNotNull(), svc::ResultInvalidHandle());
/* Invalidate the cache. */
R_TRY(process->GetPageTable().InvalidateProcessDataCache(address, size));
R_SUCCEED();
}
Result StoreProcessDataCache(ams::svc::Handle process_handle, uint64_t address, uint64_t size) {
/* Validate address/size. */
R_UNLESS(size > 0, svc::ResultInvalidSize());
R_UNLESS(address == static_cast<uintptr_t>(address), svc::ResultInvalidCurrentMemory());
R_UNLESS(size == static_cast<size_t>(size), svc::ResultInvalidCurrentMemory());
/* Get the process from its handle. */
KScopedAutoObject process = GetCurrentProcess().GetHandleTable().GetObject<KProcess>(process_handle);
R_UNLESS(process.IsNotNull(), svc::ResultInvalidHandle());
/* Verify the region is within range. */
auto &page_table = process->GetPageTable();
R_UNLESS(page_table.Contains(address, size), svc::ResultInvalidCurrentMemory());
/* Perform the operation. */
if (process.GetPointerUnsafe() == GetCurrentProcessPointer()) {
R_RETURN(cpu::StoreDataCache(reinterpret_cast<void *>(address), size));
} else {
class StoreCacheOperation : public CacheOperation {
public:
virtual void Operate(void *address, size_t size) const override { cpu::StoreDataCache(address, size); }
} operation;
R_RETURN(DoProcessCacheOperation(operation, page_table, address, size));
}
}
Result FlushProcessDataCache(ams::svc::Handle process_handle, uint64_t address, uint64_t size) {
/* Validate address/size. */
R_UNLESS(size > 0, svc::ResultInvalidSize());
R_UNLESS(address == static_cast<uintptr_t>(address), svc::ResultInvalidCurrentMemory());
R_UNLESS(size == static_cast<size_t>(size), svc::ResultInvalidCurrentMemory());
/* Get the process from its handle. */
KScopedAutoObject process = GetCurrentProcess().GetHandleTable().GetObject<KProcess>(process_handle);
R_UNLESS(process.IsNotNull(), svc::ResultInvalidHandle());
/* Verify the region is within range. */
auto &page_table = process->GetPageTable();
R_UNLESS(page_table.Contains(address, size), svc::ResultInvalidCurrentMemory());
/* Perform the operation. */
if (process.GetPointerUnsafe() == GetCurrentProcessPointer()) {
R_RETURN(cpu::FlushDataCache(reinterpret_cast<void *>(address), size));
} else {
class FlushCacheOperation : public CacheOperation {
public:
virtual void Operate(void *address, size_t size) const override { cpu::FlushDataCache(address, size); }
} operation;
R_RETURN(DoProcessCacheOperation(operation, page_table, address, size));
}
}
}
/* ============================= 64 ABI ============================= */
void FlushEntireDataCache64() {
return FlushEntireDataCache();
}
Result FlushDataCache64(ams::svc::Address address, ams::svc::Size size) {
R_RETURN(FlushDataCache(address, size));
}
Result InvalidateProcessDataCache64(ams::svc::Handle process_handle, uint64_t address, uint64_t size) {
R_RETURN(InvalidateProcessDataCache(process_handle, address, size));
}
Result StoreProcessDataCache64(ams::svc::Handle process_handle, uint64_t address, uint64_t size) {
R_RETURN(StoreProcessDataCache(process_handle, address, size));
}
Result FlushProcessDataCache64(ams::svc::Handle process_handle, uint64_t address, uint64_t size) {
R_RETURN(FlushProcessDataCache(process_handle, address, size));
}
/* ============================= 64From32 ABI ============================= */
void FlushEntireDataCache64From32() {
return FlushEntireDataCache();
}
Result FlushDataCache64From32(ams::svc::Address address, ams::svc::Size size) {
R_RETURN(FlushDataCache(address, size));
}
Result InvalidateProcessDataCache64From32(ams::svc::Handle process_handle, uint64_t address, uint64_t size) {
R_RETURN(InvalidateProcessDataCache(process_handle, address, size));
}
Result StoreProcessDataCache64From32(ams::svc::Handle process_handle, uint64_t address, uint64_t size) {
R_RETURN(StoreProcessDataCache(process_handle, address, size));
}
Result FlushProcessDataCache64From32(ams::svc::Handle process_handle, uint64_t address, uint64_t size) {
R_RETURN(FlushProcessDataCache(process_handle, address, size));
}
}
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