//\r
// Amount of space that is not used in the stack\r
//\r
-#define STACK_REMAIN_SIZE (1024 * 4)\r
+#define STACK_REMAIN_SIZE (1024 * 4)\r
\r
#pragma pack(1)\r
typedef struct {\r
} EBC_INSTRUCTION_BUFFER;\r
#pragma pack()\r
\r
-extern CONST EBC_INSTRUCTION_BUFFER mEbcInstructionBufferTemplate;\r
+extern CONST EBC_INSTRUCTION_BUFFER mEbcInstructionBufferTemplate;\r
\r
/**\r
Begin executing an EBC image.\r
**/\r
VOID\r
PushU64 (\r
- IN VM_CONTEXT *VmPtr,\r
- IN UINT64 Arg\r
+ IN VM_CONTEXT *VmPtr,\r
+ IN UINT64 Arg\r
)\r
{\r
//\r
// Advance the VM stack down, and then copy the argument to the stack.\r
// Hope it's aligned.\r
//\r
- VmPtr->Gpr[0] -= sizeof (UINT64);\r
- *(UINT64 *) VmPtr->Gpr[0] = Arg;\r
+ VmPtr->Gpr[0] -= sizeof (UINT64);\r
+ *(UINT64 *)VmPtr->Gpr[0] = Arg;\r
return;\r
}\r
\r
-\r
/**\r
Begin executing an EBC image.\r
\r
//\r
// Now clear out our context\r
//\r
- ZeroMem ((VOID *) &VmContext, sizeof (VM_CONTEXT));\r
+ ZeroMem ((VOID *)&VmContext, sizeof (VM_CONTEXT));\r
\r
//\r
// Set the VM instruction pointer to the correct location in memory.\r
//\r
- VmContext.Ip = (VMIP) Addr;\r
+ VmContext.Ip = (VMIP)Addr;\r
\r
//\r
// Initialize the stack pointer for the EBC. Get the current system stack\r
// Adjust the VM's stack pointer down.\r
//\r
\r
- Status = GetEBCStack((EFI_HANDLE)(UINTN)-1, &VmContext.StackPool, &StackIndex);\r
- if (EFI_ERROR(Status)) {\r
+ Status = GetEBCStack ((EFI_HANDLE)(UINTN)-1, &VmContext.StackPool, &StackIndex);\r
+ if (EFI_ERROR (Status)) {\r
return Status;\r
}\r
- VmContext.StackTop = (UINT8*)VmContext.StackPool + (STACK_REMAIN_SIZE);\r
- VmContext.Gpr[0] = (UINT64) ((UINT8*)VmContext.StackPool + STACK_POOL_SIZE);\r
- VmContext.HighStackBottom = (UINTN) VmContext.Gpr[0];\r
- VmContext.Gpr[0] -= sizeof (UINTN);\r
+\r
+ VmContext.StackTop = (UINT8 *)VmContext.StackPool + (STACK_REMAIN_SIZE);\r
+ VmContext.Gpr[0] = (UINT64)((UINT8 *)VmContext.StackPool + STACK_POOL_SIZE);\r
+ VmContext.HighStackBottom = (UINTN)VmContext.Gpr[0];\r
+ VmContext.Gpr[0] -= sizeof (UINTN);\r
\r
//\r
// Align the stack on a natural boundary.\r
//\r
// Put a magic value in the stack gap, then adjust down again.\r
//\r
- *(UINTN *) (UINTN) (VmContext.Gpr[0]) = (UINTN) VM_STACK_KEY_VALUE;\r
- VmContext.StackMagicPtr = (UINTN *) (UINTN) VmContext.Gpr[0];\r
+ *(UINTN *)(UINTN)(VmContext.Gpr[0]) = (UINTN)VM_STACK_KEY_VALUE;\r
+ VmContext.StackMagicPtr = (UINTN *)(UINTN)VmContext.Gpr[0];\r
\r
//\r
// The stack upper to LowStackTop is belong to the VM.\r
//\r
- VmContext.LowStackTop = (UINTN) VmContext.Gpr[0];\r
+ VmContext.LowStackTop = (UINTN)VmContext.Gpr[0];\r
\r
//\r
// For the worst case, assume there are 4 arguments passed in registers, store\r
// them to VM's stack.\r
//\r
- PushU64 (&VmContext, (UINT64) Args9_16[7]);\r
- PushU64 (&VmContext, (UINT64) Args9_16[6]);\r
- PushU64 (&VmContext, (UINT64) Args9_16[5]);\r
- PushU64 (&VmContext, (UINT64) Args9_16[4]);\r
- PushU64 (&VmContext, (UINT64) Args9_16[3]);\r
- PushU64 (&VmContext, (UINT64) Args9_16[2]);\r
- PushU64 (&VmContext, (UINT64) Args9_16[1]);\r
- PushU64 (&VmContext, (UINT64) Args9_16[0]);\r
- PushU64 (&VmContext, (UINT64) Arg8);\r
- PushU64 (&VmContext, (UINT64) Arg7);\r
- PushU64 (&VmContext, (UINT64) Arg6);\r
- PushU64 (&VmContext, (UINT64) Arg5);\r
- PushU64 (&VmContext, (UINT64) Arg4);\r
- PushU64 (&VmContext, (UINT64) Arg3);\r
- PushU64 (&VmContext, (UINT64) Arg2);\r
- PushU64 (&VmContext, (UINT64) Arg1);\r
+ PushU64 (&VmContext, (UINT64)Args9_16[7]);\r
+ PushU64 (&VmContext, (UINT64)Args9_16[6]);\r
+ PushU64 (&VmContext, (UINT64)Args9_16[5]);\r
+ PushU64 (&VmContext, (UINT64)Args9_16[4]);\r
+ PushU64 (&VmContext, (UINT64)Args9_16[3]);\r
+ PushU64 (&VmContext, (UINT64)Args9_16[2]);\r
+ PushU64 (&VmContext, (UINT64)Args9_16[1]);\r
+ PushU64 (&VmContext, (UINT64)Args9_16[0]);\r
+ PushU64 (&VmContext, (UINT64)Arg8);\r
+ PushU64 (&VmContext, (UINT64)Arg7);\r
+ PushU64 (&VmContext, (UINT64)Arg6);\r
+ PushU64 (&VmContext, (UINT64)Arg5);\r
+ PushU64 (&VmContext, (UINT64)Arg4);\r
+ PushU64 (&VmContext, (UINT64)Arg3);\r
+ PushU64 (&VmContext, (UINT64)Arg2);\r
+ PushU64 (&VmContext, (UINT64)Arg1);\r
\r
//\r
// Interpreter assumes 64-bit return address is pushed on the stack.\r
// AArch64 does not do this so pad the stack accordingly.\r
//\r
- PushU64 (&VmContext, (UINT64) 0);\r
- PushU64 (&VmContext, (UINT64) 0x1234567887654321ULL);\r
+ PushU64 (&VmContext, (UINT64)0);\r
+ PushU64 (&VmContext, (UINT64)0x1234567887654321ULL);\r
\r
//\r
// For AArch64, this is where we say our return address is\r
//\r
- VmContext.StackRetAddr = (UINT64) VmContext.Gpr[0];\r
+ VmContext.StackRetAddr = (UINT64)VmContext.Gpr[0];\r
\r
//\r
// We need to keep track of where the EBC stack starts. This way, if the EBC\r
//\r
// Return the value in R[7] unless there was an error\r
//\r
- ReturnEBCStack(StackIndex);\r
- return (UINT64) VmContext.Gpr[7];\r
+ ReturnEBCStack (StackIndex);\r
+ return (UINT64)VmContext.Gpr[7];\r
}\r
\r
-\r
/**\r
Begin executing an EBC image.\r
\r
UINT64\r
EFIAPI\r
ExecuteEbcImageEntryPoint (\r
- IN EFI_HANDLE ImageHandle,\r
- IN EFI_SYSTEM_TABLE *SystemTable,\r
- IN UINTN EntryPoint\r
+ IN EFI_HANDLE ImageHandle,\r
+ IN EFI_SYSTEM_TABLE *SystemTable,\r
+ IN UINTN EntryPoint\r
)\r
{\r
//\r
//\r
// Now clear out our context\r
//\r
- ZeroMem ((VOID *) &VmContext, sizeof (VM_CONTEXT));\r
+ ZeroMem ((VOID *)&VmContext, sizeof (VM_CONTEXT));\r
\r
//\r
// Save the image handle so we can track the thunks created for this image\r
//\r
// Set the VM instruction pointer to the correct location in memory.\r
//\r
- VmContext.Ip = (VMIP) Addr;\r
+ VmContext.Ip = (VMIP)Addr;\r
\r
//\r
// Initialize the stack pointer for the EBC. Get the current system stack\r
// pointer and adjust it down by the max needed for the interpreter.\r
//\r
\r
- Status = GetEBCStack(ImageHandle, &VmContext.StackPool, &StackIndex);\r
- if (EFI_ERROR(Status)) {\r
+ Status = GetEBCStack (ImageHandle, &VmContext.StackPool, &StackIndex);\r
+ if (EFI_ERROR (Status)) {\r
return Status;\r
}\r
- VmContext.StackTop = (UINT8*)VmContext.StackPool + (STACK_REMAIN_SIZE);\r
- VmContext.Gpr[0] = (UINT64) ((UINT8*)VmContext.StackPool + STACK_POOL_SIZE);\r
- VmContext.HighStackBottom = (UINTN) VmContext.Gpr[0];\r
- VmContext.Gpr[0] -= sizeof (UINTN);\r
\r
+ VmContext.StackTop = (UINT8 *)VmContext.StackPool + (STACK_REMAIN_SIZE);\r
+ VmContext.Gpr[0] = (UINT64)((UINT8 *)VmContext.StackPool + STACK_POOL_SIZE);\r
+ VmContext.HighStackBottom = (UINTN)VmContext.Gpr[0];\r
+ VmContext.Gpr[0] -= sizeof (UINTN);\r
\r
//\r
// Put a magic value in the stack gap, then adjust down again\r
//\r
- *(UINTN *) (UINTN) (VmContext.Gpr[0]) = (UINTN) VM_STACK_KEY_VALUE;\r
- VmContext.StackMagicPtr = (UINTN *) (UINTN) VmContext.Gpr[0];\r
+ *(UINTN *)(UINTN)(VmContext.Gpr[0]) = (UINTN)VM_STACK_KEY_VALUE;\r
+ VmContext.StackMagicPtr = (UINTN *)(UINTN)VmContext.Gpr[0];\r
\r
//\r
// Align the stack on a natural boundary\r
- VmContext.Gpr[0] &= ~(VM_REGISTER)(sizeof(UINTN) - 1);\r
+ VmContext.Gpr[0] &= ~(VM_REGISTER)(sizeof (UINTN) - 1);\r
//\r
- VmContext.LowStackTop = (UINTN) VmContext.Gpr[0];\r
+ VmContext.LowStackTop = (UINTN)VmContext.Gpr[0];\r
\r
//\r
// Simply copy the image handle and system table onto the EBC stack.\r
// Greatly simplifies things by not having to spill the args.\r
//\r
- PushU64 (&VmContext, (UINT64) SystemTable);\r
- PushU64 (&VmContext, (UINT64) ImageHandle);\r
+ PushU64 (&VmContext, (UINT64)SystemTable);\r
+ PushU64 (&VmContext, (UINT64)ImageHandle);\r
\r
//\r
// VM pushes 16-bytes for return address. Simulate that here.\r
//\r
- PushU64 (&VmContext, (UINT64) 0);\r
- PushU64 (&VmContext, (UINT64) 0x1234567887654321ULL);\r
+ PushU64 (&VmContext, (UINT64)0);\r
+ PushU64 (&VmContext, (UINT64)0x1234567887654321ULL);\r
\r
//\r
// For AArch64, this is where we say our return address is\r
//\r
- VmContext.StackRetAddr = (UINT64) VmContext.Gpr[0];\r
+ VmContext.StackRetAddr = (UINT64)VmContext.Gpr[0];\r
\r
//\r
// Entry function needn't access high stack context, simply\r
//\r
// Return the value in R[7] unless there was an error\r
//\r
- ReturnEBCStack(StackIndex);\r
- return (UINT64) VmContext.Gpr[7];\r
+ ReturnEBCStack (StackIndex);\r
+ return (UINT64)VmContext.Gpr[7];\r
}\r
\r
-\r
/**\r
Create thunks for an EBC image entry point, or an EBC protocol service.\r
\r
**/\r
EFI_STATUS\r
EbcCreateThunks (\r
- IN EFI_HANDLE ImageHandle,\r
- IN VOID *EbcEntryPoint,\r
- OUT VOID **Thunk,\r
- IN UINT32 Flags\r
+ IN EFI_HANDLE ImageHandle,\r
+ IN VOID *EbcEntryPoint,\r
+ OUT VOID **Thunk,\r
+ IN UINT32 Flags\r
)\r
{\r
- EBC_INSTRUCTION_BUFFER *InstructionBuffer;\r
+ EBC_INSTRUCTION_BUFFER *InstructionBuffer;\r
\r
//\r
// Check alignment of pointer to EBC code\r
//\r
- if ((UINT32) (UINTN) EbcEntryPoint & 0x01) {\r
+ if ((UINT32)(UINTN)EbcEntryPoint & 0x01) {\r
return EFI_INVALID_PARAMETER;\r
}\r
\r
//\r
// Copy whole thunk instruction buffer template\r
//\r
- CopyMem (InstructionBuffer, &mEbcInstructionBufferTemplate,\r
- sizeof (EBC_INSTRUCTION_BUFFER));\r
+ CopyMem (\r
+ InstructionBuffer,\r
+ &mEbcInstructionBufferTemplate,\r
+ sizeof (EBC_INSTRUCTION_BUFFER)\r
+ );\r
\r
//\r
// Patch EbcEntryPoint and EbcLLEbcInterpret\r
// Add the thunk to the list for this image. Do this last since the add\r
// function flushes the cache for us.\r
//\r
- EbcAddImageThunk (ImageHandle, InstructionBuffer,\r
- sizeof (EBC_INSTRUCTION_BUFFER));\r
+ EbcAddImageThunk (\r
+ ImageHandle,\r
+ InstructionBuffer,\r
+ sizeof (EBC_INSTRUCTION_BUFFER)\r
+ );\r
\r
return EFI_SUCCESS;\r
}\r
\r
-\r
/**\r
This function is called to execute an EBC CALLEX instruction.\r
The function check the callee's content to see whether it is common native\r
**/\r
VOID\r
EbcLLCALLEX (\r
- IN VM_CONTEXT *VmPtr,\r
- IN UINTN FuncAddr,\r
- IN UINTN NewStackPointer,\r
- IN VOID *FramePtr,\r
- IN UINT8 Size\r
+ IN VM_CONTEXT *VmPtr,\r
+ IN UINTN FuncAddr,\r
+ IN UINTN NewStackPointer,\r
+ IN VOID *FramePtr,\r
+ IN UINT8 Size\r
)\r
{\r
- CONST EBC_INSTRUCTION_BUFFER *InstructionBuffer;\r
+ CONST EBC_INSTRUCTION_BUFFER *InstructionBuffer;\r
\r
//\r
// Processor specific code to check whether the callee is a thunk to EBC.\r
//\r
InstructionBuffer = (EBC_INSTRUCTION_BUFFER *)FuncAddr;\r
\r
- if (CompareMem (InstructionBuffer, &mEbcInstructionBufferTemplate,\r
- sizeof(EBC_INSTRUCTION_BUFFER) - 2 * sizeof (UINT64)) == 0) {\r
+ if (CompareMem (\r
+ InstructionBuffer,\r
+ &mEbcInstructionBufferTemplate,\r
+ sizeof (EBC_INSTRUCTION_BUFFER) - 2 * sizeof (UINT64)\r
+ ) == 0)\r
+ {\r
//\r
// The callee is a thunk to EBC, adjust the stack pointer down 16 bytes and\r
// put our return address and frame pointer on the VM stack.\r
// Then set the VM's IP to new EBC code.\r
//\r
VmPtr->Gpr[0] -= 8;\r
- VmWriteMemN (VmPtr, (UINTN) VmPtr->Gpr[0], (UINTN) FramePtr);\r
- VmPtr->FramePtr = (VOID *) (UINTN) VmPtr->Gpr[0];\r
- VmPtr->Gpr[0] -= 8;\r
- VmWriteMem64 (VmPtr, (UINTN) VmPtr->Gpr[0], (UINT64) (UINTN) (VmPtr->Ip + Size));\r
+ VmWriteMemN (VmPtr, (UINTN)VmPtr->Gpr[0], (UINTN)FramePtr);\r
+ VmPtr->FramePtr = (VOID *)(UINTN)VmPtr->Gpr[0];\r
+ VmPtr->Gpr[0] -= 8;\r
+ VmWriteMem64 (VmPtr, (UINTN)VmPtr->Gpr[0], (UINT64)(UINTN)(VmPtr->Ip + Size));\r
\r
- VmPtr->Ip = (VMIP) InstructionBuffer->EbcEntryPoint;\r
+ VmPtr->Ip = (VMIP)InstructionBuffer->EbcEntryPoint;\r
} else {\r
//\r
// The callee is not a thunk to EBC, call native code,\r
VmPtr->Ip += Size;\r
}\r
}\r
-\r
projects / mirror_edk2.git / blobdiff