mirror of
https://git.suyu.dev/suyu/suyu.git
synced 2024-11-26 00:32:48 +01:00
- removed HLE mem "hack" and replaced with kernel mem region
- added a helper function for getting command buffer for services - fixed bug where GSP DMA was incorrectly being done in DataSynchronizationBarrier (instead of gsp_TriggerCmdReqQueue)
This commit is contained in:
parent
f23e99bb85
commit
72622a1b5a
8 changed files with 100 additions and 116 deletions
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@ -9,39 +9,15 @@
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namespace HLE {
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namespace HLE {
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enum {
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CMD_GX_REQUEST_DMA = 0x00000000,
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};
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/// Data synchronization barrier
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/// Data synchronization barrier
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u32 DataSynchronizationBarrier(u32* command_buffer) {
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u32 DataSynchronizationBarrier() {
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u32 command = command_buffer[0];
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switch (command) {
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case CMD_GX_REQUEST_DMA:
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{
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u32* src = (u32*)Memory::GetPointer(command_buffer[1]);
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u32* dst = (u32*)Memory::GetPointer(command_buffer[2]);
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u32 size = command_buffer[3];
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memcpy(dst, src, size);
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}
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break;
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default:
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ERROR_LOG(OSHLE, "MRC::DataSynchronizationBarrier unknown command 0x%08X", command);
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return -1;
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}
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return 0;
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return 0;
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}
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}
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/// Returns the coprocessor (in this case, syscore) command buffer pointer
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/// Returns the coprocessor (in this case, syscore) command buffer pointer
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Addr GetThreadCommandBuffer() {
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Addr GetThreadCommandBuffer() {
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// Called on insruction: mrc p15, 0, r0, c13, c0, 3
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// Called on insruction: mrc p15, 0, r0, c13, c0, 3
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// Returns an address in OSHLE memory for the CPU to read/write to
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return Memory::KERNEL_MEMORY_VADDR;
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RETURN(CMD_BUFFER_ADDR);
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return CMD_BUFFER_ADDR;
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}
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}
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/// Call an MCR (move to coprocessor from ARM register) instruction in HLE
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/// Call an MCR (move to coprocessor from ARM register) instruction in HLE
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@ -49,7 +25,7 @@ s32 CallMCR(u32 instruction, u32 value) {
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CoprocessorOperation operation = (CoprocessorOperation)((instruction >> 20) & 0xFF);
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CoprocessorOperation operation = (CoprocessorOperation)((instruction >> 20) & 0xFF);
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ERROR_LOG(OSHLE, "unimplemented MCR instruction=0x%08X, operation=%02X, value=%08X",
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ERROR_LOG(OSHLE, "unimplemented MCR instruction=0x%08X, operation=%02X, value=%08X",
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instruction, operation, value);
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instruction, operation, value);
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return -1;
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return 0;
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}
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}
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/// Call an MRC (move to ARM register from coprocessor) instruction in HLE
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/// Call an MRC (move to ARM register from coprocessor) instruction in HLE
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@ -59,7 +35,7 @@ s32 CallMRC(u32 instruction) {
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switch (operation) {
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switch (operation) {
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case DATA_SYNCHRONIZATION_BARRIER:
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case DATA_SYNCHRONIZATION_BARRIER:
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return DataSynchronizationBarrier((u32*)Memory::GetPointer(PARAM(0)));
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return DataSynchronizationBarrier();
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case CALL_GET_THREAD_COMMAND_BUFFER:
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case CALL_GET_THREAD_COMMAND_BUFFER:
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return GetThreadCommandBuffer();
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return GetThreadCommandBuffer();
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@ -68,7 +44,7 @@ s32 CallMRC(u32 instruction) {
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ERROR_LOG(OSHLE, "unimplemented MRC instruction 0x%08X", instruction);
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ERROR_LOG(OSHLE, "unimplemented MRC instruction 0x%08X", instruction);
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break;
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break;
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}
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}
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return -1;
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return 0;
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}
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}
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} // namespace
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} // namespace
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@ -15,49 +15,6 @@ namespace HLE {
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static std::vector<ModuleDef> g_module_db;
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static std::vector<ModuleDef> g_module_db;
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u8* g_command_buffer = NULL; ///< Command buffer used for sharing between appcore and syscore
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// Read from memory used by CTROS HLE functions
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template <typename T>
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inline void Read(T &var, const u32 addr) {
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if (addr >= HLE::CMD_BUFFER_ADDR && addr < HLE::CMD_BUFFER_ADDR_END) {
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var = *((const T*)&g_command_buffer[addr & CMD_BUFFER_MASK]);
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} else {
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ERROR_LOG(HLE, "unknown read from address %08X", addr);
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}
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}
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// Write to memory used by CTROS HLE functions
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template <typename T>
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inline void Write(u32 addr, const T data) {
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if (addr >= HLE::CMD_BUFFER_ADDR && addr < HLE::CMD_BUFFER_ADDR_END) {
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*(T*)&g_command_buffer[addr & CMD_BUFFER_MASK] = data;
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} else {
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ERROR_LOG(HLE, "unknown write to address %08X", addr);
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}
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}
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u8 *GetPointer(const u32 addr) {
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if (addr >= HLE::CMD_BUFFER_ADDR && addr < HLE::CMD_BUFFER_ADDR_END) {
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return g_command_buffer + (addr & CMD_BUFFER_MASK);
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} else {
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ERROR_LOG(HLE, "unknown pointer from address %08X", addr);
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return 0;
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}
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}
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// Explicitly instantiate template functions because we aren't defining this in the header:
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template void Read<u64>(u64 &var, const u32 addr);
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template void Read<u32>(u32 &var, const u32 addr);
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template void Read<u16>(u16 &var, const u32 addr);
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template void Read<u8>(u8 &var, const u32 addr);
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template void Write<u64>(u32 addr, const u64 data);
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template void Write<u32>(u32 addr, const u32 data);
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template void Write<u16>(u32 addr, const u16 data);
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template void Write<u8>(u32 addr, const u8 data);
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const FunctionDef* GetSyscallInfo(u32 opcode) {
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const FunctionDef* GetSyscallInfo(u32 opcode) {
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u32 func_num = opcode & 0xFFFFFF; // 8 bits
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u32 func_num = opcode & 0xFFFFFF; // 8 bits
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if (func_num > 0xFF) {
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if (func_num > 0xFF) {
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void Init() {
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void Init() {
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Service::Init();
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Service::Init();
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g_command_buffer = new u8[CMD_BUFFER_SIZE];
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RegisterAllModules();
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RegisterAllModules();
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@ -102,8 +57,6 @@ void Init() {
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void Shutdown() {
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void Shutdown() {
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Service::Shutdown();
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Service::Shutdown();
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delete g_command_buffer;
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g_module_db.clear();
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g_module_db.clear();
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NOTICE_LOG(HLE, "shutdown OK");
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NOTICE_LOG(HLE, "shutdown OK");
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@ -17,13 +17,6 @@
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namespace HLE {
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namespace HLE {
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enum {
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CMD_BUFFER_ADDR = 0xA0010000, ///< Totally arbitrary unused address space
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CMD_BUFFER_SIZE = 0x10000,
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CMD_BUFFER_MASK = (CMD_BUFFER_SIZE - 1),
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CMD_BUFFER_ADDR_END = (CMD_BUFFER_ADDR + CMD_BUFFER_SIZE),
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};
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typedef u32 Addr;
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typedef u32 Addr;
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typedef void (*Func)();
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typedef void (*Func)();
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const FunctionDef* func_table;
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const FunctionDef* func_table;
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};
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};
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// Read from memory used by CTROS HLE functions
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template <typename T>
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inline void Read(T &var, const u32 addr);
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// Write to memory used by CTROS HLE functions
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template <typename T>
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inline void Write(u32 addr, const T data);
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u8* GetPointer(const u32 Address);
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inline const char* GetCharPointer(const u32 address) {
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return (const char *)GetPointer(address);
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}
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void RegisterModule(std::string name, int num_functions, const FunctionDef *func_table);
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void RegisterModule(std::string name, int num_functions, const FunctionDef *func_table);
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void CallSyscall(u32 opcode);
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void CallSyscall(u32 opcode);
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}
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}
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void GetLockHandle(Service::Interface* self) {
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void GetLockHandle(Service::Interface* self) {
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u32* cmd_buff = (u32*)HLE::GetPointer(HLE::CMD_BUFFER_ADDR + Service::kCommandHeaderOffset);
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u32* cmd_buff = Service::GetCommandBuffer();
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cmd_buff[5] = 0x00000000; // TODO: This should be an actual mutex handle
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cmd_buff[5] = 0x00000000; // TODO: This should be an actual mutex handle
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}
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}
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#include "common/log.h"
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#include "common/log.h"
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#include "common/bit_field.h"
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#include "core/mem_map.h"
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#include "core/mem_map.h"
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#include "core/hle/hle.h"
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#include "core/hle/hle.h"
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#include "core/hw/lcd.h"
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#include "core/hw/lcd.h"
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////////////////////////////////////////////////////////////////////////////////////////////////////
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/// GSP shared memory GX command buffer header
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union GX_CmdBufferHeader {
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u32 hex;
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// Current command index. This index is updated by GSP module after loading the command data,
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// right before the command is processed. When this index is updated by GSP module, the total
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// commands field is decreased by one as well.
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BitField<0,8,u32> index;
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// Total commands to process, must not be value 0 when GSP module handles commands. This must be
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// <=15 when writing a command to shared memory. This is incremented by the application when
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// writing a command to shared memory, after increasing this value TriggerCmdReqQueue is only
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// used if this field is value 1.
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BitField<8,8,u32> number_commands;
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// Must not be value 1. When the error-code u32 is set, this u8 is set to value 0x80.
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BitField<16,8,u32> unk_0;
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// Bit 0 must not be set
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BitField<24,8,u32> unk_1;
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};
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/// Gets the address of the start (header) of a command buffer in GSP shared memory
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static inline u32 GX_GetCmdBufferAddress(u32 thread_id) {
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return (0x10002000 + 0x800 + (thread_id * 0x200));
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}
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/// Gets a pointer to the start (header) of a command buffer in GSP shared memory
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static inline u8* GX_GetCmdBufferPointer(u32 thread_id, u32 offset=0) {
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return Memory::GetPointer(GX_GetCmdBufferAddress(thread_id) + offset);
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}
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/// Finishes execution of a GSP command
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void GX_FinishCommand(u32 thread_id) {
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GX_CmdBufferHeader* header = (GX_CmdBufferHeader*)GX_GetCmdBufferPointer(thread_id);
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header->number_commands = header->number_commands - 1;
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////////////////////////////////////
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// Namespace GSP_GPU
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// Namespace GSP_GPU
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namespace GSP_GPU {
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namespace GSP_GPU {
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u32 g_thread_id = 0;
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enum {
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CMD_GX_REQUEST_DMA = 0x00000000,
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};
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enum {
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enum {
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REG_FRAMEBUFFER_1 = 0x00400468,
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REG_FRAMEBUFFER_1 = 0x00400468,
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REG_FRAMEBUFFER_2 = 0x00400494,
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REG_FRAMEBUFFER_2 = 0x00400494,
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static const u32 framebuffer_1[] = {LCD::PADDR_VRAM_TOP_LEFT_FRAME1, LCD::PADDR_VRAM_TOP_RIGHT_FRAME1};
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static const u32 framebuffer_1[] = {LCD::PADDR_VRAM_TOP_LEFT_FRAME1, LCD::PADDR_VRAM_TOP_RIGHT_FRAME1};
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static const u32 framebuffer_2[] = {LCD::PADDR_VRAM_TOP_LEFT_FRAME2, LCD::PADDR_VRAM_TOP_RIGHT_FRAME2};
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static const u32 framebuffer_2[] = {LCD::PADDR_VRAM_TOP_LEFT_FRAME2, LCD::PADDR_VRAM_TOP_RIGHT_FRAME2};
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u32* cmd_buff = (u32*)HLE::GetPointer(HLE::CMD_BUFFER_ADDR + Service::kCommandHeaderOffset);
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u32* cmd_buff = Service::GetCommandBuffer();
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u32 reg_addr = cmd_buff[1];
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u32 reg_addr = cmd_buff[1];
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u32 size = cmd_buff[2];
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u32 size = cmd_buff[2];
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u32* dst = (u32*)Memory::GetPointer(cmd_buff[0x41]);
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u32* dst = (u32*)Memory::GetPointer(cmd_buff[0x41]);
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break;
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break;
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default:
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default:
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ERROR_LOG(OSHLE, "GSP_GPU::ReadHWRegs unknown register read at address %08X", reg_addr);
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ERROR_LOG(GSP, "ReadHWRegs unknown register read at address %08X", reg_addr);
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}
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}
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}
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}
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void RegisterInterruptRelayQueue(Service::Interface* self) {
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void RegisterInterruptRelayQueue(Service::Interface* self) {
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u32* cmd_buff = (u32*)HLE::GetPointer(HLE::CMD_BUFFER_ADDR + Service::kCommandHeaderOffset);
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u32* cmd_buff = Service::GetCommandBuffer();
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u32 flags = cmd_buff[1];
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u32 flags = cmd_buff[1];
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u32 event_handle = cmd_buff[3]; // TODO(bunnei): Implement event handling
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u32 event_handle = cmd_buff[3]; // TODO(bunnei): Implement event handling
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cmd_buff[2] = g_thread_id; // ThreadID
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cmd_buff[4] = self->NewHandle();
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cmd_buff[4] = self->NewHandle();
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}
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return;
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/// This triggers handling of the GX command written to the command buffer in shared memory.
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void TriggerCmdReqQueue(Service::Interface* self) {
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GX_CmdBufferHeader* header = (GX_CmdBufferHeader*)GX_GetCmdBufferPointer(g_thread_id);
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u32* cmd_buff = (u32*)GX_GetCmdBufferPointer(g_thread_id, 0x20 + (header->index * 0x20));
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switch (cmd_buff[0]) {
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// GX request DMA - typically used for copying memory from GSP heap to VRAM
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case CMD_GX_REQUEST_DMA:
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memcpy(Memory::GetPointer(cmd_buff[2]), Memory::GetPointer(cmd_buff[1]), cmd_buff[3]);
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break;
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default:
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ERROR_LOG(GSP, "TriggerCmdReqQueue unknown command 0x%08X", cmd_buff[0]);
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}
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GX_FinishCommand(g_thread_id);
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}
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}
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const Interface::FunctionInfo FunctionTable[] = {
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const Interface::FunctionInfo FunctionTable[] = {
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{0x00090082, NULL, "InvalidateDataCache"},
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{0x00090082, NULL, "InvalidateDataCache"},
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{0x000A0044, NULL, "RegisterInterruptEvents"},
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{0x000A0044, NULL, "RegisterInterruptEvents"},
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{0x000B0040, NULL, "SetLcdForceBlack"},
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{0x000B0040, NULL, "SetLcdForceBlack"},
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{0x000C0000, NULL, "TriggerCmdReqQueue"},
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{0x000C0000, TriggerCmdReqQueue, "TriggerCmdReqQueue"},
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{0x000D0140, NULL, "SetDisplayTransfer"},
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{0x000D0140, NULL, "SetDisplayTransfer"},
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{0x000E0180, NULL, "SetTextureCopy"},
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{0x000E0180, NULL, "SetTextureCopy"},
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{0x000F0200, NULL, "SetMemoryFill"},
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{0x000F0200, NULL, "SetMemoryFill"},
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#include "common/common.h"
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#include "common/common.h"
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#include "common/common_types.h"
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#include "common/common_types.h"
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#include "core/mem_map.h"
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#include "core/hle/syscall.h"
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#include "core/hle/syscall.h"
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////////////////////////////////////////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////////////////////////////////////
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@ -22,6 +23,15 @@ typedef s32 NativeUID; ///< Native handle for a service
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static const int kMaxPortSize = 0x08; ///< Maximum size of a port name (8 characters)
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static const int kMaxPortSize = 0x08; ///< Maximum size of a port name (8 characters)
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static const int kCommandHeaderOffset = 0x80; ///< Offset into command buffer of header
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static const int kCommandHeaderOffset = 0x80; ///< Offset into command buffer of header
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/**
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* Returns a pointer to the command buffer in kernel memory
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* @param offset Optional offset into command buffer
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* @return Pointer to command buffer
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*/
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||||||
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inline static u32* GetCommandBuffer(const int offset=0) {
|
||||||
|
return (u32*)Memory::GetPointer(Memory::KERNEL_MEMORY_VADDR + kCommandHeaderOffset + offset);
|
||||||
|
}
|
||||||
|
|
||||||
class Manager;
|
class Manager;
|
||||||
|
|
||||||
/// Interface to a CTROS service
|
/// Interface to a CTROS service
|
||||||
|
@ -81,7 +91,7 @@ public:
|
||||||
* @return Return result of svcSendSyncRequest passed back to user app
|
* @return Return result of svcSendSyncRequest passed back to user app
|
||||||
*/
|
*/
|
||||||
Syscall::Result Sync() {
|
Syscall::Result Sync() {
|
||||||
u32* cmd_buff = (u32*)HLE::GetPointer(HLE::CMD_BUFFER_ADDR + kCommandHeaderOffset);
|
u32* cmd_buff = GetCommandBuffer();
|
||||||
auto itr = m_functions.find(cmd_buff[0]);
|
auto itr = m_functions.find(cmd_buff[0]);
|
||||||
|
|
||||||
if (itr == m_functions.end()) {
|
if (itr == m_functions.end()) {
|
||||||
|
|
|
@ -18,7 +18,7 @@ void Initialize(Service::Interface* self) {
|
||||||
|
|
||||||
void GetServiceHandle(Service::Interface* self) {
|
void GetServiceHandle(Service::Interface* self) {
|
||||||
Syscall::Result res = 0;
|
Syscall::Result res = 0;
|
||||||
u32* cmd_buff = (u32*)HLE::GetPointer(HLE::CMD_BUFFER_ADDR + Service::kCommandHeaderOffset);
|
u32* cmd_buff = Service::GetCommandBuffer();
|
||||||
|
|
||||||
std::string port_name = std::string((const char*)&cmd_buff[1], 0, Service::kMaxPortSize);
|
std::string port_name = std::string((const char*)&cmd_buff[1], 0, Service::kMaxPortSize);
|
||||||
Service::Interface* service = Service::g_manager->FetchFromPortName(port_name);
|
Service::Interface* service = Service::g_manager->FetchFromPortName(port_name);
|
||||||
|
|
|
@ -48,11 +48,9 @@ inline void _Read(T &var, const u32 addr) {
|
||||||
|
|
||||||
const u32 vaddr = _VirtualAddress(addr);
|
const u32 vaddr = _VirtualAddress(addr);
|
||||||
|
|
||||||
// Memory allocated for HLE use that can be addressed from the emulated application
|
// Kernel memory command buffer
|
||||||
// The primary use of this is sharing a commandbuffer between the HLE OS (syscore) and the LLE
|
if (vaddr >= KERNEL_MEMORY_VADDR && vaddr < KERNEL_MEMORY_VADDR_END) {
|
||||||
// core running the user application (appcore)
|
var = *((const T*)&g_kernel_mem[vaddr & KERNEL_MEMORY_MASK]);
|
||||||
if (vaddr >= HLE::CMD_BUFFER_ADDR && vaddr < HLE::CMD_BUFFER_ADDR_END) {
|
|
||||||
HLE::Read<T>(var, vaddr);
|
|
||||||
|
|
||||||
// Hardware I/O register reads
|
// Hardware I/O register reads
|
||||||
// 0x10XXXXXX- is physical address space, 0x1EXXXXXX is virtual address space
|
// 0x10XXXXXX- is physical address space, 0x1EXXXXXX is virtual address space
|
||||||
|
@ -92,11 +90,9 @@ template <typename T>
|
||||||
inline void _Write(u32 addr, const T data) {
|
inline void _Write(u32 addr, const T data) {
|
||||||
u32 vaddr = _VirtualAddress(addr);
|
u32 vaddr = _VirtualAddress(addr);
|
||||||
|
|
||||||
// Memory allocated for HLE use that can be addressed from the emulated application
|
// Kernel memory command buffer
|
||||||
// The primary use of this is sharing a commandbuffer between the HLE OS (syscore) and the LLE
|
if (vaddr >= KERNEL_MEMORY_VADDR && vaddr < KERNEL_MEMORY_VADDR_END) {
|
||||||
// core running the user application (appcore)
|
*(T*)&g_kernel_mem[vaddr & KERNEL_MEMORY_MASK] = data;
|
||||||
if (vaddr >= HLE::CMD_BUFFER_ADDR && vaddr < HLE::CMD_BUFFER_ADDR_END) {
|
|
||||||
HLE::Write<T>(vaddr, data);
|
|
||||||
|
|
||||||
// Hardware I/O register writes
|
// Hardware I/O register writes
|
||||||
// 0x10XXXXXX- is physical address space, 0x1EXXXXXX is virtual address space
|
// 0x10XXXXXX- is physical address space, 0x1EXXXXXX is virtual address space
|
||||||
|
@ -140,8 +136,12 @@ inline void _Write(u32 addr, const T data) {
|
||||||
u8 *GetPointer(const u32 addr) {
|
u8 *GetPointer(const u32 addr) {
|
||||||
const u32 vaddr = _VirtualAddress(addr);
|
const u32 vaddr = _VirtualAddress(addr);
|
||||||
|
|
||||||
|
// Kernel memory command buffer
|
||||||
|
if (vaddr >= KERNEL_MEMORY_VADDR && vaddr < KERNEL_MEMORY_VADDR_END) {
|
||||||
|
return g_kernel_mem + (vaddr & KERNEL_MEMORY_MASK);
|
||||||
|
|
||||||
// ExeFS:/.code is loaded here
|
// ExeFS:/.code is loaded here
|
||||||
if ((vaddr >= EXEFS_CODE_VADDR) && (vaddr < EXEFS_CODE_VADDR_END)) {
|
} else if ((vaddr >= EXEFS_CODE_VADDR) && (vaddr < EXEFS_CODE_VADDR_END)) {
|
||||||
return g_exefs_code + (vaddr & EXEFS_CODE_MASK);
|
return g_exefs_code + (vaddr & EXEFS_CODE_MASK);
|
||||||
|
|
||||||
// FCRAM - GSP heap
|
// FCRAM - GSP heap
|
||||||
|
|
Loading…
Reference in a new issue