general: rework usages of UNREACHABLE macro
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903705043d
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c80ed6d81f
@ -34,7 +34,7 @@ MAP_MEMBER_CONST()::FlatAddressSpaceMap(VaType va_limit_,
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std::function<void(VaType, VaType)> unmap_callback_)
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std::function<void(VaType, VaType)> unmap_callback_)
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: va_limit{va_limit_}, unmap_callback{std::move(unmap_callback_)} {
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: va_limit{va_limit_}, unmap_callback{std::move(unmap_callback_)} {
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if (va_limit > VaMaximum) {
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if (va_limit > VaMaximum) {
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UNREACHABLE_MSG("Invalid VA limit!");
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ASSERT_MSG(false, "Invalid VA limit!");
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}
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}
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}
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}
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@ -42,14 +42,14 @@ MAP_MEMBER(void)::MapLocked(VaType virt, PaType phys, VaType size, ExtraBlockInf
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VaType virt_end{virt + size};
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VaType virt_end{virt + size};
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if (virt_end > va_limit) {
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if (virt_end > va_limit) {
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UNREACHABLE_MSG(
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ASSERT_MSG(false,
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"Trying to map a block past the VA limit: virt_end: 0x{:X}, va_limit: 0x{:X}", virt_end,
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"Trying to map a block past the VA limit: virt_end: 0x{:X}, va_limit: 0x{:X}",
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va_limit);
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virt_end, va_limit);
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}
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}
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auto block_end_successor{std::lower_bound(blocks.begin(), blocks.end(), virt_end)};
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auto block_end_successor{std::lower_bound(blocks.begin(), blocks.end(), virt_end)};
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if (block_end_successor == blocks.begin()) {
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if (block_end_successor == blocks.begin()) {
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UNREACHABLE_MSG("Trying to map a block before the VA start: virt_end: 0x{:X}", virt_end);
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ASSERT_MSG(false, "Trying to map a block before the VA start: virt_end: 0x{:X}", virt_end);
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}
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}
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auto block_end_predecessor{std::prev(block_end_successor)};
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auto block_end_predecessor{std::prev(block_end_successor)};
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@ -124,7 +124,7 @@ MAP_MEMBER(void)::MapLocked(VaType virt, PaType phys, VaType size, ExtraBlockInf
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// Check that the start successor is either the end block or something in between
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// Check that the start successor is either the end block or something in between
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if (block_start_successor->virt > virt_end) {
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if (block_start_successor->virt > virt_end) {
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UNREACHABLE_MSG("Unsorted block in AS map: virt: 0x{:X}", block_start_successor->virt);
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ASSERT_MSG(false, "Unsorted block in AS map: virt: 0x{:X}", block_start_successor->virt);
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} else if (block_start_successor->virt == virt_end) {
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} else if (block_start_successor->virt == virt_end) {
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// We need to create a new block as there are none spare that we would overwrite
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// We need to create a new block as there are none spare that we would overwrite
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blocks.insert(block_start_successor, Block(virt, phys, extra_info));
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blocks.insert(block_start_successor, Block(virt, phys, extra_info));
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@ -149,14 +149,15 @@ MAP_MEMBER(void)::UnmapLocked(VaType virt, VaType size) {
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VaType virt_end{virt + size};
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VaType virt_end{virt + size};
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if (virt_end > va_limit) {
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if (virt_end > va_limit) {
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UNREACHABLE_MSG(
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ASSERT_MSG(false,
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"Trying to map a block past the VA limit: virt_end: 0x{:X}, va_limit: 0x{:X}", virt_end,
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"Trying to map a block past the VA limit: virt_end: 0x{:X}, va_limit: 0x{:X}",
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va_limit);
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virt_end, va_limit);
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}
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}
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auto block_end_successor{std::lower_bound(blocks.begin(), blocks.end(), virt_end)};
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auto block_end_successor{std::lower_bound(blocks.begin(), blocks.end(), virt_end)};
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if (block_end_successor == blocks.begin()) {
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if (block_end_successor == blocks.begin()) {
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UNREACHABLE_MSG("Trying to unmap a block before the VA start: virt_end: 0x{:X}", virt_end);
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ASSERT_MSG(false, "Trying to unmap a block before the VA start: virt_end: 0x{:X}",
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virt_end);
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}
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}
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auto block_end_predecessor{std::prev(block_end_successor)};
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auto block_end_predecessor{std::prev(block_end_successor)};
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@ -190,7 +191,7 @@ MAP_MEMBER(void)::UnmapLocked(VaType virt, VaType size) {
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if (eraseEnd != blocks.end() &&
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if (eraseEnd != blocks.end() &&
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(eraseEnd == block_start_successor ||
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(eraseEnd == block_start_successor ||
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(block_start_predecessor->Unmapped() && eraseEnd->Unmapped()))) {
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(block_start_predecessor->Unmapped() && eraseEnd->Unmapped()))) {
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UNREACHABLE_MSG("Multiple contiguous unmapped regions are unsupported!");
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ASSERT_MSG(false, "Multiple contiguous unmapped regions are unsupported!");
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}
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}
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blocks.erase(block_start_successor, eraseEnd);
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blocks.erase(block_start_successor, eraseEnd);
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@ -217,7 +218,7 @@ MAP_MEMBER(void)::UnmapLocked(VaType virt, VaType size) {
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return; // The region is unmapped here and doesn't need splitting, bail out early
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return; // The region is unmapped here and doesn't need splitting, bail out early
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} else if (block_end_successor == blocks.end()) {
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} else if (block_end_successor == blocks.end()) {
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// This should never happen as the end should always follow an unmapped block
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// This should never happen as the end should always follow an unmapped block
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UNREACHABLE_MSG("Unexpected Memory Manager state!");
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ASSERT_MSG(false, "Unexpected Memory Manager state!");
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} else if (block_end_successor->virt != virt_end) {
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} else if (block_end_successor->virt != virt_end) {
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// If one block is directly in front then we don't have to add a tail
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// If one block is directly in front then we don't have to add a tail
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@ -256,7 +257,7 @@ MAP_MEMBER(void)::UnmapLocked(VaType virt, VaType size) {
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auto block_start_successor{std::next(block_start_predecessor)};
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auto block_start_successor{std::next(block_start_predecessor)};
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if (block_start_successor->virt > virt_end) {
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if (block_start_successor->virt > virt_end) {
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UNREACHABLE_MSG("Unsorted block in AS map: virt: 0x{:X}", block_start_successor->virt);
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ASSERT_MSG(false, "Unsorted block in AS map: virt: 0x{:X}", block_start_successor->virt);
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} else if (block_start_successor->virt == virt_end) {
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} else if (block_start_successor->virt == virt_end) {
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// There are no blocks between the start and the end that would let us skip inserting a new
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// There are no blocks between the start and the end that would let us skip inserting a new
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// one for head
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// one for head
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@ -298,7 +299,7 @@ ALLOC_MEMBER(VaType)::Allocate(VaType size) {
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auto alloc_end_successor{
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auto alloc_end_successor{
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std::lower_bound(this->blocks.begin(), this->blocks.end(), alloc_end)};
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std::lower_bound(this->blocks.begin(), this->blocks.end(), alloc_end)};
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if (alloc_end_successor == this->blocks.begin()) {
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if (alloc_end_successor == this->blocks.begin()) {
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UNREACHABLE_MSG("First block in AS map is invalid!");
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ASSERT_MSG(false, "First block in AS map is invalid!");
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}
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}
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auto alloc_end_predecessor{std::prev(alloc_end_successor)};
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auto alloc_end_predecessor{std::prev(alloc_end_successor)};
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@ -332,7 +333,7 @@ ALLOC_MEMBER(VaType)::Allocate(VaType size) {
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current_linear_alloc_end = alloc_start + size;
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current_linear_alloc_end = alloc_start + size;
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} else { // If linear allocation overflows the AS then find a gap
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} else { // If linear allocation overflows the AS then find a gap
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if (this->blocks.size() <= 2) {
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if (this->blocks.size() <= 2) {
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UNREACHABLE_MSG("Unexpected allocator state!");
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ASSERT_MSG(false, "Unexpected allocator state!");
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}
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}
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auto search_predecessor{this->blocks.begin()};
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auto search_predecessor{this->blocks.begin()};
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@ -29,7 +29,7 @@ SyncpointManager::~SyncpointManager() = default;
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u32 SyncpointManager::ReserveSyncpoint(u32 id, bool clientManaged) {
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u32 SyncpointManager::ReserveSyncpoint(u32 id, bool clientManaged) {
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if (syncpoints.at(id).reserved) {
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if (syncpoints.at(id).reserved) {
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UNREACHABLE_MSG("Requested syncpoint is in use");
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ASSERT_MSG(false, "Requested syncpoint is in use");
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return 0;
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return 0;
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}
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}
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@ -45,7 +45,7 @@ u32 SyncpointManager::FindFreeSyncpoint() {
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return i;
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return i;
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}
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}
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}
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}
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UNREACHABLE_MSG("Failed to find a free syncpoint!");
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ASSERT_MSG(false, "Failed to find a free syncpoint!");
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return 0;
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return 0;
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}
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}
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@ -68,7 +68,7 @@ bool SyncpointManager::HasSyncpointExpired(u32 id, u32 threshold) {
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const SyncpointInfo& syncpoint{syncpoints.at(id)};
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const SyncpointInfo& syncpoint{syncpoints.at(id)};
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if (!syncpoint.reserved) {
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if (!syncpoint.reserved) {
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UNREACHABLE();
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ASSERT(false);
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return 0;
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return 0;
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}
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}
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@ -83,7 +83,7 @@ bool SyncpointManager::HasSyncpointExpired(u32 id, u32 threshold) {
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u32 SyncpointManager::IncrementSyncpointMaxExt(u32 id, u32 amount) {
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u32 SyncpointManager::IncrementSyncpointMaxExt(u32 id, u32 amount) {
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if (!syncpoints.at(id).reserved) {
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if (!syncpoints.at(id).reserved) {
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UNREACHABLE();
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ASSERT(false);
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return 0;
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return 0;
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}
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}
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@ -92,7 +92,7 @@ u32 SyncpointManager::IncrementSyncpointMaxExt(u32 id, u32 amount) {
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u32 SyncpointManager::ReadSyncpointMinValue(u32 id) {
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u32 SyncpointManager::ReadSyncpointMinValue(u32 id) {
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if (!syncpoints.at(id).reserved) {
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if (!syncpoints.at(id).reserved) {
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UNREACHABLE();
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ASSERT(false);
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return 0;
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return 0;
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}
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}
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@ -101,7 +101,7 @@ u32 SyncpointManager::ReadSyncpointMinValue(u32 id) {
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u32 SyncpointManager::UpdateMin(u32 id) {
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u32 SyncpointManager::UpdateMin(u32 id) {
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if (!syncpoints.at(id).reserved) {
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if (!syncpoints.at(id).reserved) {
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UNREACHABLE();
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ASSERT(false);
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return 0;
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return 0;
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}
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}
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@ -111,7 +111,7 @@ u32 SyncpointManager::UpdateMin(u32 id) {
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NvFence SyncpointManager::GetSyncpointFence(u32 id) {
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NvFence SyncpointManager::GetSyncpointFence(u32 id) {
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if (!syncpoints.at(id).reserved) {
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if (!syncpoints.at(id).reserved) {
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UNREACHABLE();
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ASSERT(false);
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return NvFence{};
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return NvFence{};
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}
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}
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@ -96,7 +96,7 @@ NvResult nvhost_as_gpu::AllocAsEx(const std::vector<u8>& input, std::vector<u8>&
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std::scoped_lock lock(mutex);
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std::scoped_lock lock(mutex);
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if (vm.initialised) {
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if (vm.initialised) {
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UNREACHABLE_MSG("Cannot initialise an address space twice!");
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ASSERT_MSG(false, "Cannot initialise an address space twice!");
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return NvResult::InvalidState;
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return NvResult::InvalidState;
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}
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}
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@ -174,7 +174,7 @@ NvResult nvhost_as_gpu::AllocateSpace(const std::vector<u8>& input, std::vector<
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} else {
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} else {
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params.offset = static_cast<u64>(allocator.Allocate(params.pages)) << page_size_bits;
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params.offset = static_cast<u64>(allocator.Allocate(params.pages)) << page_size_bits;
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if (!params.offset) {
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if (!params.offset) {
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UNREACHABLE_MSG("Failed to allocate free space in the GPU AS!");
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ASSERT_MSG(false, "Failed to allocate free space in the GPU AS!");
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return NvResult::InsufficientMemory;
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return NvResult::InsufficientMemory;
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}
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}
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}
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}
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@ -372,7 +372,7 @@ NvResult nvhost_as_gpu::MapBufferEx(const std::vector<u8>& input, std::vector<u8
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else if (Common::IsAligned(handle->align, VM::YUZU_PAGESIZE))
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else if (Common::IsAligned(handle->align, VM::YUZU_PAGESIZE))
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return false;
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return false;
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else {
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else {
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UNREACHABLE();
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ASSERT(false);
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return false;
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return false;
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}
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}
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}()};
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}()};
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@ -382,7 +382,7 @@ NvResult nvhost_as_gpu::MapBufferEx(const std::vector<u8>& input, std::vector<u8
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if (alloc-- == allocation_map.begin() ||
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if (alloc-- == allocation_map.begin() ||
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(params.offset - alloc->first) + size > alloc->second.size) {
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(params.offset - alloc->first) + size > alloc->second.size) {
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UNREACHABLE_MSG("Cannot perform a fixed mapping into an unallocated region!");
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ASSERT_MSG(false, "Cannot perform a fixed mapping into an unallocated region!");
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return NvResult::BadValue;
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return NvResult::BadValue;
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}
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}
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@ -403,7 +403,7 @@ NvResult nvhost_as_gpu::MapBufferEx(const std::vector<u8>& input, std::vector<u8
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static_cast<u32>(Common::AlignUp(size, page_size) >> page_size_bits)))
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static_cast<u32>(Common::AlignUp(size, page_size) >> page_size_bits)))
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<< page_size_bits;
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<< page_size_bits;
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if (!params.offset) {
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if (!params.offset) {
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UNREACHABLE_MSG("Failed to allocate free space in the GPU AS!");
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ASSERT_MSG(false, "Failed to allocate free space in the GPU AS!");
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return NvResult::InsufficientMemory;
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return NvResult::InsufficientMemory;
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}
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}
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