mirror of
https://github.com/skyline-emu/skyline.git
synced 2024-11-26 07:54:15 +01:00
Optimise GPFIFO command processing for higher throughput
Using a u32 for the loop index prevents masking on all increments, giving a moderate performance increase. Passing methods as u32 parameters and stopping subChannel being passed gives quite a significant increase when combined with the inlining allowed by subchannel based engine selection.
This commit is contained in:
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67149ef7fb
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@ -16,16 +16,6 @@ namespace skyline::soc::gm20b {
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MaxwellDma = 0xB0B5,
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};
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/**
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* @brief The parameters of a GPU engine method call
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*/
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struct MethodParams {
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u16 method;
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u32 argument;
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u32 subChannel;
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bool lastCall; //!< If this is the last call in the pushbuffer entry to this specific macro
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};
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namespace engine {
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/**
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* @brief The Engine class provides an interface that can be used to communicate with the GPU's internal engines
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@ -37,13 +27,11 @@ namespace skyline::soc::gm20b {
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public:
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Engine(const DeviceState &state) : state(state) {}
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virtual ~Engine() = default;
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/**
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* @brief Calls an engine method with the given parameters
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*/
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virtual void CallMethod(MethodParams params) {
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state.logger->Warn("Called method in unimplemented engine: 0x{:X} args: 0x{:X}", params.method, params.argument);
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void CallMethod(u32 method, u32 argument, bool lastCall) {
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state.logger->Warn("Called method in unimplemented engine: 0x{:X} args: 0x{:X}", method, argument);
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};
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};
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}
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@ -167,10 +167,10 @@ namespace skyline::soc::gm20b::engine {
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public:
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GPFIFO(const DeviceState &state) : Engine(state) {}
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void CallMethod(MethodParams params) override {
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state.logger->Debug("Called method in GPFIFO: 0x{:X} args: 0x{:X}", params.method, params.argument);
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void CallMethod(u32 method, u32 argument, bool lastCall) {
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state.logger->Debug("Called method in GPFIFO: 0x{:X} args: 0x{:X}", method, argument);
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registers.raw[params.method] = params.argument;
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registers.raw[method] = argument;
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};
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};
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}
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@ -193,7 +193,7 @@ namespace skyline::soc::gm20b::engine::maxwell3d {
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}
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FORCE_INLINE void MacroInterpreter::Send(u32 pArgument) {
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maxwell3D.CallMethod(MethodParams{methodAddress.address, pArgument, 0, true});
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maxwell3D.CallMethod(methodAddress.address, pArgument, true);
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methodAddress.address += methodAddress.increment;
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}
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@ -72,48 +72,62 @@ namespace skyline::soc::gm20b::engine::maxwell3d {
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registers.viewportTransformEnable = true;
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}
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void Maxwell3D::CallMethod(MethodParams params) {
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state.logger->Debug("Called method in Maxwell 3D: 0x{:X} args: 0x{:X}", params.method, params.argument);
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void Maxwell3D::CallMethod(u32 method, u32 argument, bool lastCall) {
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state.logger->Debug("Called method in Maxwell 3D: 0x{:X} args: 0x{:X}", method, argument);
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// Methods that are greater than the register size are for macro control
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if (params.method > RegisterCount) {
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if (!(params.method & 1))
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macroInvocation.index = ((params.method - RegisterCount) >> 1) % macroPositions.size();
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macroInvocation.arguments.push_back(params.argument);
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// Macros are always executed on the last method call in a pushbuffer entry
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if (params.lastCall) {
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if (method > RegisterCount) [[unlikely]] {
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// Starting a new macro at index 'method - RegisterCount'
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if (!(method & 1)) {
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if (macroInvocation.index != -1) {
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// Flush the current macro as we are switching to another one
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macroInterpreter.Execute(macroPositions[macroInvocation.index], macroInvocation.arguments);
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macroInvocation.arguments.clear();
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macroInvocation.index = 0;
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}
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// Setup for the new macro index
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macroInvocation.index = ((method - RegisterCount) >> 1) % macroPositions.size();
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}
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macroInvocation.arguments.emplace_back(argument);
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// Flush macro after all of the data in the method call has been sent
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if (lastCall && macroInvocation.index != -1) {
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macroInterpreter.Execute(macroPositions[macroInvocation.index], macroInvocation.arguments);
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macroInvocation.arguments.clear();
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macroInvocation.index = -1;
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}
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// Bail out early
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return;
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}
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registers.raw[params.method] = params.argument;
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registers.raw[method] = argument;
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if (shadowRegisters.mme.shadowRamControl == Registers::MmeShadowRamControl::MethodTrack || shadowRegisters.mme.shadowRamControl == Registers::MmeShadowRamControl::MethodTrackWithFilter)
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shadowRegisters.raw[params.method] = params.argument;
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shadowRegisters.raw[method] = argument;
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else if (shadowRegisters.mme.shadowRamControl == Registers::MmeShadowRamControl::MethodReplay)
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params.argument = shadowRegisters.raw[params.method];
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argument = shadowRegisters.raw[method];
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switch (params.method) {
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switch (method) {
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case MAXWELL3D_OFFSET(mme.instructionRamLoad):
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if (registers.mme.instructionRamPointer >= macroCode.size())
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throw exception("Macro memory is full!");
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macroCode[registers.mme.instructionRamPointer++] = params.argument;
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macroCode[registers.mme.instructionRamPointer++] = argument;
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// Wraparound writes
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registers.mme.instructionRamPointer %= macroCode.size();
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break;
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case MAXWELL3D_OFFSET(mme.startAddressRamLoad):
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if (registers.mme.startAddressRamPointer >= macroPositions.size())
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throw exception("Maximum amount of macros reached!");
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macroPositions[registers.mme.startAddressRamPointer++] = params.argument;
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macroPositions[registers.mme.startAddressRamPointer++] = argument;
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break;
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case MAXWELL3D_OFFSET(mme.shadowRamControl):
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shadowRegisters.mme.shadowRamControl = static_cast<Registers::MmeShadowRamControl>(params.argument);
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shadowRegisters.mme.shadowRamControl = static_cast<Registers::MmeShadowRamControl>(argument);
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break;
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case MAXWELL3D_OFFSET(syncpointAction):
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state.logger->Debug("Increment syncpoint: {}", static_cast<u16>(registers.syncpointAction.id));
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@ -135,6 +149,8 @@ namespace skyline::soc::gm20b::engine::maxwell3d {
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case MAXWELL3D_OFFSET(firmwareCall[4]):
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registers.raw[0xD00] = 1;
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break;
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default:
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break;
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}
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}
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@ -17,7 +17,7 @@ namespace skyline::soc::gm20b::engine::maxwell3d {
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std::array<size_t, 0x80> macroPositions{}; //!< The positions of each individual macro in macro memory, there can be a maximum of 0x80 macros at any one time
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struct {
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u32 index;
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i32 index;
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std::vector<u32> arguments;
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} macroInvocation{}; //!< Data for a macro that is pending execution
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@ -557,7 +557,7 @@ namespace skyline::soc::gm20b::engine::maxwell3d {
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Registers registers{};
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Registers shadowRegisters{}; //!< The shadow registers, their function is controlled by the 'shadowRamControl' register
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std::array<u32, 0x10000> macroCode{}; //!< This stores GPU macros, the 256KiB size is from Ryujinx
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std::array<u32, 0x2000> macroCode{}; //!< This stores GPU macros, writes to it will wraparound on overflow
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Maxwell3D(const DeviceState &state);
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@ -566,6 +566,6 @@ namespace skyline::soc::gm20b::engine::maxwell3d {
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*/
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void ResetRegs();
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void CallMethod(MethodParams params) override;
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void CallMethod(u32 method, u32 argument, bool lastCall);
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};
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}
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@ -5,41 +5,90 @@
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#include <loader/loader.h>
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#include <kernel/types/KProcess.h>
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#include <soc.h>
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#include <os.h>
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namespace skyline::soc::gm20b {
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void GPFIFO::Send(MethodParams params) {
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state.logger->Debug("Called GPU method - method: 0x{:X} argument: 0x{:X} subchannel: 0x{:X} last: {}", params.method, params.argument, params.subChannel, params.lastCall);
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/**
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* @brief A single pushbuffer method header that describes a compressed method sequence
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* @url https://github.com/NVIDIA/open-gpu-doc/blob/ab27fc22db5de0d02a4cabe08e555663b62db4d4/manuals/volta/gv100/dev_ram.ref.txt#L850
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* @url https://github.com/NVIDIA/open-gpu-doc/blob/ab27fc22db5de0d02a4cabe08e555663b62db4d4/classes/host/clb06f.h#L179
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*/
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union PushBufferMethodHeader {
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u32 raw;
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if (params.method == 0) {
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switch (static_cast<EngineID>(params.argument)) {
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case EngineID::Fermi2D:
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subchannels.at(params.subChannel) = &state.soc->gm20b.fermi2D;
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enum class TertOp : u8 {
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Grp0IncMethod = 0,
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Grp0SetSubDevMask = 1,
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Grp0StoreSubDevMask = 2,
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Grp0UseSubDevMask = 3,
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Grp2NonIncMethod = 0,
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};
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enum class SecOp : u8 {
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Grp0UseTert = 0,
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IncMethod = 1,
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Grp2UseTert = 2,
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NonIncMethod = 3,
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ImmdDataMethod = 4,
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OneInc = 5,
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Reserved6 = 6,
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EndPbSegment = 7,
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};
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u16 methodAddress : 12;
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struct {
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u8 _pad0_ : 4;
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u16 subDeviceMask : 12;
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};
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struct {
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u16 _pad1_ : 13;
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u8 methodSubChannel : 3;
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union {
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TertOp tertOp : 3;
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u16 methodCount : 13;
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u16 immdData : 13;
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};
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};
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struct {
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u32 _pad2_ : 29;
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SecOp secOp : 3;
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};
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};
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static_assert(sizeof(PushBufferMethodHeader) == sizeof(u32));
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void GPFIFO::Send(u32 method, u32 argument, u32 subChannel, bool lastCall) {
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constexpr u32 ThreeDSubChannel{0};
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constexpr u32 ComputeSubChannel{1};
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constexpr u32 Inline2MemorySubChannel{2};
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constexpr u32 TwoDSubChannel{3};
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constexpr u32 CopySubChannel{4}; // HW forces a memory flush on a switch from this subchannel to others
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state.logger->Debug("Called GPU method - method: 0x{:X} argument: 0x{:X} subchannel: 0x{:X} last: {}", method, argument, subChannel, lastCall);
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if (method < engine::GPFIFO::RegisterCount) {
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gpfifoEngine.CallMethod(method, argument, lastCall);
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} else {
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switch (subChannel) {
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case ThreeDSubChannel:
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state.soc->gm20b.maxwell3D.CallMethod(method, argument, lastCall);
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break;
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case EngineID::KeplerMemory:
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subchannels.at(params.subChannel) = &state.soc->gm20b.keplerMemory;
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case ComputeSubChannel:
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state.soc->gm20b.maxwellCompute.CallMethod(method, argument, lastCall);
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break;
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case EngineID::Maxwell3D:
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subchannels.at(params.subChannel) = &state.soc->gm20b.maxwell3D;
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case Inline2MemorySubChannel:
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state.soc->gm20b.keplerMemory.CallMethod(method, argument, lastCall);
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break;
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case EngineID::MaxwellCompute:
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subchannels.at(params.subChannel) = &state.soc->gm20b.maxwellCompute;
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case TwoDSubChannel:
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state.soc->gm20b.fermi2D.CallMethod(method, argument, lastCall);
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break;
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case EngineID::MaxwellDma:
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subchannels.at(params.subChannel) = &state.soc->gm20b.maxwellDma;
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case CopySubChannel:
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state.soc->gm20b.maxwellDma.CallMethod(method, argument, lastCall);
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break;
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default:
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throw exception("Unknown engine 0x{:X} cannot be bound to subchannel {}", params.argument, params.subChannel);
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throw exception("Tried to call into a software subchannel: {}!", subChannel);
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}
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state.logger->Info("Bound GPU engine 0x{:X} to subchannel {}", params.argument, params.subChannel);
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return;
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} else if (params.method < engine::GPFIFO::RegisterCount) {
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gpfifoEngine.CallMethod(params);
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} else {
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if (subchannels.at(params.subChannel) == nullptr)
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throw exception("Calling method on unbound channel");
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subchannels.at(params.subChannel)->CallMethod(params);
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}
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}
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@ -66,22 +115,22 @@ namespace skyline::soc::gm20b {
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PushBufferMethodHeader methodHeader{.raw = *entry};
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switch (methodHeader.secOp) {
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case PushBufferMethodHeader::SecOp::IncMethod:
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for (u16 i{}; i < methodHeader.methodCount; i++)
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Send(MethodParams{static_cast<u16>(methodHeader.methodAddress + i), *++entry, methodHeader.methodSubChannel, i == methodHeader.methodCount - 1});
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for (u32 i{}; i < methodHeader.methodCount; i++)
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Send(methodHeader.methodAddress + i, *++entry, methodHeader.methodSubChannel, i == methodHeader.methodCount - 1);
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break;
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case PushBufferMethodHeader::SecOp::NonIncMethod:
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for (u16 i{}; i < methodHeader.methodCount; i++)
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Send(MethodParams{methodHeader.methodAddress, *++entry, methodHeader.methodSubChannel, i == methodHeader.methodCount - 1});
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for (u32 i{}; i < methodHeader.methodCount; i++)
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Send(methodHeader.methodAddress, *++entry, methodHeader.methodSubChannel, i == methodHeader.methodCount - 1);
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break;
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case PushBufferMethodHeader::SecOp::OneInc:
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for (u16 i{}; i < methodHeader.methodCount; i++)
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Send(MethodParams{static_cast<u16>(methodHeader.methodAddress + static_cast<bool>(i)), *++entry, methodHeader.methodSubChannel, i == methodHeader.methodCount - 1});
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for (u32 i{}; i < methodHeader.methodCount; i++)
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Send(methodHeader.methodAddress + !!i, *++entry, methodHeader.methodSubChannel, i == methodHeader.methodCount - 1);
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break;
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case PushBufferMethodHeader::SecOp::ImmdDataMethod:
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Send(MethodParams{methodHeader.methodAddress, methodHeader.immdData, methodHeader.methodSubChannel, true});
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Send(methodHeader.methodAddress, methodHeader.immdData, methodHeader.methodSubChannel, true);
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break;
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case PushBufferMethodHeader::SecOp::EndPbSegment:
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@ -72,56 +72,6 @@ namespace skyline::soc::gm20b {
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};
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static_assert(sizeof(GpEntry) == sizeof(u64));
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/**
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* @brief A single pushbuffer method header that describes a compressed method sequence
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* @url https://github.com/NVIDIA/open-gpu-doc/blob/ab27fc22db5de0d02a4cabe08e555663b62db4d4/manuals/volta/gv100/dev_ram.ref.txt#L850
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* @url https://github.com/NVIDIA/open-gpu-doc/blob/ab27fc22db5de0d02a4cabe08e555663b62db4d4/classes/host/clb06f.h#L179
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*/
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union PushBufferMethodHeader {
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u32 raw;
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enum class TertOp : u8 {
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Grp0IncMethod = 0,
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Grp0SetSubDevMask = 1,
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Grp0StoreSubDevMask = 2,
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Grp0UseSubDevMask = 3,
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Grp2NonIncMethod = 0,
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};
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enum class SecOp : u8 {
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Grp0UseTert = 0,
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IncMethod = 1,
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Grp2UseTert = 2,
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NonIncMethod = 3,
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ImmdDataMethod = 4,
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OneInc = 5,
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Reserved6 = 6,
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EndPbSegment = 7,
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};
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u16 methodAddress : 12;
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struct {
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u8 _pad0_ : 4;
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u16 subDeviceMask : 12;
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};
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struct {
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u16 _pad1_ : 13;
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u8 methodSubChannel : 3;
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union {
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TertOp tertOp : 3;
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u16 methodCount : 13;
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u16 immdData : 13;
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};
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};
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struct {
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u32 _pad2_ : 29;
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SecOp secOp : 3;
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};
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};
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static_assert(sizeof(PushBufferMethodHeader) == sizeof(u32));
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/**
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* @brief The GPFIFO class handles creating pushbuffers from GP entries and then processing them
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* @note This class doesn't perfectly map to any particular hardware component on the X1, it does a mix of the GPU Host PBDMA (With and handling the GPFIFO entries
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@ -138,7 +88,7 @@ namespace skyline::soc::gm20b {
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/**
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* @brief Sends a method call to the GPU hardware
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*/
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void Send(MethodParams params);
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void Send(u32 method, u32 argument, u32 subchannel, bool lastCall);
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/**
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* @brief Processes the pushbuffer contained within the given GpEntry, calling methods as needed
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