xt-sys/exectos
3
5
Fork 2
Code Issues 3 Pull Requests 1 Actions Projects 1 Releases Wiki Activity

Replace all occurrences of NULL with NULLPTR for unified C and C++ null pointer handling
Some checks failed
Builds / ExectOS (amd64, release) (push) Failing after 24s
Details
Builds / ExectOS (amd64, debug) (push) Successful in 27s
Details
Builds / ExectOS (i686, debug) (push) Successful in 27s
Details
Builds / ExectOS (i686, release) (push) Failing after 25s
Details

Browse Source
This commit is contained in:
Aiken Harris
2025-09-16 15:59:56 +02:00
parent ba9e5b1b88
commit fabf3a3a5e
46 changed files with 294 additions and 288 deletions
Download Patch File Download Diff File Expand all files Collapse all files

8
sdk/xtdk/xtcompat.h
View File

@@ -11,10 +11,18 @@
#ifdef __cplusplus #ifdef __cplusplus
/* C++ definitions */
#define XTCLINK extern "C" #define XTCLINK extern "C"
#define NULLPTR nullptr
/* C++ types */
typedef wchar_t wchar; typedef wchar_t wchar;
#else #else
/* C definitions */
#define XTCLINK #define XTCLINK
#define NULLPTR ((void *)0)
/* C types */
typedef unsigned short wchar; typedef unsigned short wchar;
#endif #endif

4
sdk/xtdk/xtdefs.h
View File

@@ -29,10 +29,6 @@
#define UNION union #define UNION union
#define VOLATILE volatile #define VOLATILE volatile
/* NULL values */
#define NULL ((PVOID) 0)
#define NULL64 ((VOID * PVOID) 0)
/* Type limits */ /* Type limits */
#define MINCHAR 0x80 #define MINCHAR 0x80
#define MAXCHAR 0x7F #define MAXCHAR 0x7F

2
xtldr/arch/amd64/memory.c
View File

@@ -296,7 +296,7 @@ BlpGetNextPageTable(IN PXTBL_PAGE_MAPPING PageMap,
} }
/* Add new memory mapping */ /* Add new memory mapping */
Status = BlMapVirtualMemory(PageMap, NULL, (PVOID)(UINT_PTR)Address, 1, LoaderMemoryData); Status = BlMapVirtualMemory(PageMap, NULLPTR, (PVOID)(UINT_PTR)Address, 1, LoaderMemoryData);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Memory mapping failure */ /* Memory mapping failure */

2
xtldr/arch/i686/memory.c
View File

@@ -357,7 +357,7 @@ BlpGetNextPageTable(IN PXTBL_PAGE_MAPPING PageMap,
} }
/* Add new memory mapping */ /* Add new memory mapping */
Status = BlMapVirtualMemory(PageMap, NULL, (PVOID)(UINT_PTR)Address, 1, LoaderMemoryData); Status = BlMapVirtualMemory(PageMap, NULLPTR, (PVOID)(UINT_PTR)Address, 1, LoaderMemoryData);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Memory mapping failure */ /* Memory mapping failure */

2
xtldr/bootutil.c
View File

@@ -31,7 +31,7 @@ BlGetBooleanParameter(IN CONST PWCHAR Parameters,
SIZE_T NeedleLength, TokenLength; SIZE_T NeedleLength, TokenLength;
/* Validate input data and ensure the option is not an empty string */ /* Validate input data and ensure the option is not an empty string */
if(Parameters == NULL || Needle == NULL || *Needle == L'\0') if(Parameters == NULLPTR || Needle == NULLPTR || *Needle == L'\0')
{ {
/* One of the parameters was invalid */ /* One of the parameters was invalid */
return FALSE; return FALSE;

30
xtldr/config.c
View File

@@ -38,7 +38,7 @@ BlGetBootOptionValue(IN PLIST_ENTRY Options,
EFI_STATUS Status; EFI_STATUS Status;
/* Assume the option will not be found */ /* Assume the option will not be found */
*OptionValue = NULL; *OptionValue = NULLPTR;
/* Get the length of the option name we are looking for */ /* Get the length of the option name we are looking for */
KeyLength = RtlWideStringLength(OptionName, 0); KeyLength = RtlWideStringLength(OptionName, 0);
@@ -62,7 +62,7 @@ BlGetBootOptionValue(IN PLIST_ENTRY Options,
{ {
/* Memory allocation failure, print debug message and return status code */ /* Memory allocation failure, print debug message and return status code */
BlDebugPrint(L"ERROR: Memory allocation failure (Status Code: 0x%zX)\n", Status); BlDebugPrint(L"ERROR: Memory allocation failure (Status Code: 0x%zX)\n", Status);
*OptionValue = NULL; *OptionValue = NULLPTR;
return Status; return Status;
} }
@@ -121,7 +121,7 @@ BlGetConfigBooleanValue(IN CONST PWCHAR ConfigName)
* @param ConfigName * @param ConfigName
* Specifies the configuration key to return its value. * Specifies the configuration key to return its value.
* *
* @return This routine returns a pointer to the configuration value, or NULL if key was not found. * @return This routine returns a pointer to the configuration value, or NULLPTR if key was not found.
* *
* @since XT 1.0 * @since XT 1.0
*/ */
@@ -137,7 +137,7 @@ BlGetConfigValue(IN CONST PWCHAR ConfigName,
PWCHAR Value; PWCHAR Value;
/* Assume the option will not be found */ /* Assume the option will not be found */
*ConfigValue = NULL; *ConfigValue = NULLPTR;
/* Get config entry name length */ /* Get config entry name length */
KeyLength = RtlWideStringLength(ConfigName, 0); KeyLength = RtlWideStringLength(ConfigName, 0);
@@ -159,7 +159,7 @@ BlGetConfigValue(IN CONST PWCHAR ConfigName,
Status = BlAllocateMemoryPool((ValueLength + 1) * sizeof(WCHAR), (PVOID *)&Value); Status = BlAllocateMemoryPool((ValueLength + 1) * sizeof(WCHAR), (PVOID *)&Value);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Memory allocation failure, return NULL */ /* Memory allocation failure, return NULLPTR */
BlDebugPrint(L"ERROR: Memory allocation failure (Status Code: 0x%zX)\n", Status); BlDebugPrint(L"ERROR: Memory allocation failure (Status Code: 0x%zX)\n", Status);
return Status; return Status;
} }
@@ -175,7 +175,7 @@ BlGetConfigValue(IN CONST PWCHAR ConfigName,
ConfigListEntry = ConfigListEntry->Flink; ConfigListEntry = ConfigListEntry->Flink;
} }
/* Config entry not found, return NULL */ /* Config entry not found, return NULLPTR */
return STATUS_EFI_NOT_FOUND; return STATUS_EFI_NOT_FOUND;
} }
@@ -504,7 +504,7 @@ BlpParseCommandLine(VOID)
Argument = RtlTokenizeWideString(LoadedImage->LoadOptions, L" ", &LastArg); Argument = RtlTokenizeWideString(LoadedImage->LoadOptions, L" ", &LastArg);
/* Iterate over all arguments passed to boot loader */ /* Iterate over all arguments passed to boot loader */
while(Argument != NULL) while(Argument != NULLPTR)
{ {
/* Store key name */ /* Store key name */
Key = Argument; Key = Argument;
@@ -573,7 +573,7 @@ BlpParseCommandLine(VOID)
RtlInsertTailList(&Config, &Option->Flink); RtlInsertTailList(&Config, &Option->Flink);
/* Take next argument */ /* Take next argument */
Argument = RtlTokenizeWideString(NULL, L" ", &LastArg); Argument = RtlTokenizeWideString(NULLPTR, L" ", &LastArg);
} }
/* Update global configuration */ /* Update global configuration */
@@ -611,11 +611,11 @@ BlpParseConfigFile(IN CONST PCHAR RawConfig,
/* Initialize pointers */ /* Initialize pointers */
InputData = RawConfig; InputData = RawConfig;
Section = NULL; Section = NULLPTR;
Option = NULL; Option = NULLPTR;
SectionName = NULL; SectionName = NULLPTR;
Key = NULL; Key = NULLPTR;
Value = NULL; Value = NULLPTR;
/* Analyze configuration data until end of file is reached */ /* Analyze configuration data until end of file is reached */
while(*InputData != '\0') while(*InputData != '\0')
@@ -812,7 +812,7 @@ BlpReadConfigFile(IN CONST PWCHAR ConfigDirectory,
SIZE_T FileSize; SIZE_T FileSize;
/* Open EFI volume */ /* Open EFI volume */
Status = BlOpenVolume(NULL, &DiskHandle, &FsHandle); Status = BlOpenVolume(NULLPTR, &DiskHandle, &FsHandle);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Failed to open a volume */ /* Failed to open a volume */
@@ -872,7 +872,7 @@ BlpUpdateConfiguration(IN PLIST_ENTRY NewConfig)
/* Make sure config entry does not exist yet */ /* Make sure config entry does not exist yet */
BlGetConfigValue(ConfigEntry->Name, &ConfigValue); BlGetConfigValue(ConfigEntry->Name, &ConfigValue);
if(ConfigValue == NULL) if(ConfigValue == NULLPTR)
{ {
/* Remove new config entry from input list and put it into global config list */ /* Remove new config entry from input list and put it into global config list */
RtlRemoveEntryList(&ConfigEntry->Flink); RtlRemoveEntryList(&ConfigEntry->Flink);

4
xtldr/debug.c
View File

@@ -111,7 +111,7 @@ BlpInitializeDebugConsole()
DebugPort = RtlTokenizeWideString(DebugConfiguration, L";", &LastPort); DebugPort = RtlTokenizeWideString(DebugConfiguration, L";", &LastPort);
/* Iterate over all debug ports */ /* Iterate over all debug ports */
while(DebugPort != NULL) while(DebugPort != NULLPTR)
{ {
/* Check what port is set for debugging */ /* Check what port is set for debugging */
if(RtlCompareWideStringInsensitive(DebugPort, L"COM", 3) == 0) if(RtlCompareWideStringInsensitive(DebugPort, L"COM", 3) == 0)
@@ -183,7 +183,7 @@ BlpInitializeDebugConsole()
} }
/* Take next debug port */ /* Take next debug port */
DebugPort = RtlTokenizeWideString(NULL, L";", &LastPort); DebugPort = RtlTokenizeWideString(NULLPTR, L";", &LastPort);
} }
/* Check if serial debug port is enabled */ /* Check if serial debug port is enabled */

20
xtldr/efiutils.c
View File

@@ -144,7 +144,7 @@ BlGetConfigurationTable(IN PEFI_GUID TableGuid,
} }
/* Table not found */ /* Table not found */
*Table = NULL; *Table = NULLPTR;
return STATUS_EFI_NOT_FOUND; return STATUS_EFI_NOT_FOUND;
} }
@@ -184,7 +184,7 @@ BlGetEfiVariable(IN PEFI_GUID Vendor,
} }
/* Attempt to get variable value */ /* Attempt to get variable value */
Status = EfiSystemTable->RuntimeServices->GetVariable(VariableName, Vendor, NULL, &Size, Buffer); Status = EfiSystemTable->RuntimeServices->GetVariable(VariableName, Vendor, NULLPTR, &Size, Buffer);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Failed to get variable, probably not found such one */ /* Failed to get variable, probably not found such one */
@@ -239,12 +239,12 @@ BlGetSecureBootStatus()
Size = sizeof(VarValue); Size = sizeof(VarValue);
if(EfiSystemTable->RuntimeServices->GetVariable(L"SecureBoot", &VarGuid, if(EfiSystemTable->RuntimeServices->GetVariable(L"SecureBoot", &VarGuid,
NULL, &Size, &VarValue) == STATUS_EFI_SUCCESS) NULLPTR, &Size, &VarValue) == STATUS_EFI_SUCCESS)
{ {
SecureBootStatus = (INT_PTR)VarValue; SecureBootStatus = (INT_PTR)VarValue;
if((EfiSystemTable->RuntimeServices->GetVariable(L"SetupMode", &VarGuid, if((EfiSystemTable->RuntimeServices->GetVariable(L"SetupMode", &VarGuid,
NULL, &Size, &VarValue) == STATUS_EFI_SUCCESS) && VarValue != 0) NULLPTR, &Size, &VarValue) == STATUS_EFI_SUCCESS) && VarValue != 0)
{ {
SecureBootStatus = -1; SecureBootStatus = -1;
} }
@@ -274,11 +274,11 @@ BlInitializeEntropy(PULONGLONG RNGBuffer)
ULONGLONG Seed; ULONGLONG Seed;
/* Initialize variables */ /* Initialize variables */
Rng = NULL; Rng = NULLPTR;
Seed = 0; Seed = 0;
/* Locate RNG protocol */ /* Locate RNG protocol */
Status = EfiSystemTable->BootServices->LocateProtocol(&RngGuid, NULL, (PVOID *)&Rng); Status = EfiSystemTable->BootServices->LocateProtocol(&RngGuid, NULLPTR, (PVOID *)&Rng);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Failed to locate RNG protocol, return status code */ /* Failed to locate RNG protocol, return status code */
@@ -286,7 +286,7 @@ BlInitializeEntropy(PULONGLONG RNGBuffer)
} }
/* Get RNG value using the default algorithm */ /* Get RNG value using the default algorithm */
Status = Rng->GetRNG(Rng, NULL, 8, (PUCHAR)&Seed); Status = Rng->GetRNG(Rng, NULLPTR, 8, (PUCHAR)&Seed);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Failed to get RNG value, return status code */ /* Failed to get RNG value, return status code */
@@ -340,7 +340,7 @@ EFI_STATUS
BlRebootSystem() BlRebootSystem()
{ {
/* Reboot machine */ /* Reboot machine */
return EfiSystemTable->RuntimeServices->ResetSystem(EfiResetCold, STATUS_EFI_SUCCESS, 0, NULL); return EfiSystemTable->RuntimeServices->ResetSystem(EfiResetCold, STATUS_EFI_SUCCESS, 0, NULLPTR);
} }
/** /**
@@ -388,7 +388,7 @@ EFI_STATUS
BlShutdownSystem() BlShutdownSystem()
{ {
/* Shutdown machine */ /* Shutdown machine */
return EfiSystemTable->RuntimeServices->ResetSystem(EfiResetShutdown, STATUS_EFI_SUCCESS, 0, NULL); return EfiSystemTable->RuntimeServices->ResetSystem(EfiResetShutdown, STATUS_EFI_SUCCESS, 0, NULLPTR);
} }
/** /**
@@ -422,7 +422,7 @@ XTCDECL
EFI_STATUS EFI_STATUS
BlStartEfiImage(IN EFI_HANDLE ImageHandle) BlStartEfiImage(IN EFI_HANDLE ImageHandle)
{ {
return EfiSystemTable->BootServices->StartImage(ImageHandle, NULL, NULL); return EfiSystemTable->BootServices->StartImage(ImageHandle, NULLPTR, NULLPTR);
} }
/** /**

4
xtldr/globals.c
View File

@@ -25,7 +25,7 @@ LIST_ENTRY BlpConfigSections;
PWCHAR BlpEditableConfigOptions[] = { PWCHAR BlpEditableConfigOptions[] = {
L"BootModules", L"SystemType", L"SystemPath", L"BootModules", L"SystemType", L"SystemPath",
L"KernelFile", L"InitrdFile", L"HalFile", L"KernelFile", L"InitrdFile", L"HalFile",
L"Parameters", NULL L"Parameters", NULLPTR
}; };
/* XT Boot Loader protocol */ /* XT Boot Loader protocol */
@@ -35,7 +35,7 @@ XTBL_LOADER_PROTOCOL BlpLdrProtocol;
LIST_ENTRY BlpLoadedModules; LIST_ENTRY BlpLoadedModules;
/* XT Boot Loader menu list */ /* XT Boot Loader menu list */
PLIST_ENTRY BlpMenuList = NULL; PLIST_ENTRY BlpMenuList = NULLPTR;
/* XT Boot Loader status data */ /* XT Boot Loader status data */
XTBL_STATUS BlpStatus = {0}; XTBL_STATUS BlpStatus = {0};

6
xtldr/hardware.c
View File

@@ -24,7 +24,7 @@ BlpActivateSerialIOController()
PEFI_PCI_ROOT_BRIDGE_IO_PROTOCOL PciDev; PEFI_PCI_ROOT_BRIDGE_IO_PROTOCOL PciDev;
USHORT Bus, Device, Function, Command; USHORT Bus, Device, Function, Command;
UINT_PTR Index, PciHandleSize; UINT_PTR Index, PciHandleSize;
PEFI_HANDLE PciHandle = NULL; PEFI_HANDLE PciHandle = NULLPTR;
PCI_COMMON_HEADER PciHeader; PCI_COMMON_HEADER PciHeader;
EFI_STATUS Status; EFI_STATUS Status;
ULONGLONG Address; ULONGLONG Address;
@@ -39,7 +39,7 @@ BlpActivateSerialIOController()
} }
/* Get all instances of PciRootBridgeIo */ /* Get all instances of PciRootBridgeIo */
Status = EfiSystemTable->BootServices->LocateHandle(ByProtocol, &PciGuid, NULL, &PciHandleSize, PciHandle); Status = EfiSystemTable->BootServices->LocateHandle(ByProtocol, &PciGuid, NULLPTR, &PciHandleSize, PciHandle);
if(Status == STATUS_EFI_BUFFER_TOO_SMALL) if(Status == STATUS_EFI_BUFFER_TOO_SMALL)
{ {
/* Reallocate more memory as requested by UEFI */ /* Reallocate more memory as requested by UEFI */
@@ -52,7 +52,7 @@ BlpActivateSerialIOController()
} }
/* Second attempt to get instances of PciRootBridgeIo */ /* Second attempt to get instances of PciRootBridgeIo */
Status = EfiSystemTable->BootServices->LocateHandle(ByProtocol, &PciGuid, NULL, &PciHandleSize, PciHandle); Status = EfiSystemTable->BootServices->LocateHandle(ByProtocol, &PciGuid, NULLPTR, &PciHandleSize, PciHandle);
} }
/* Make sure successfully obtained PciRootBridgeIo instances */ /* Make sure successfully obtained PciRootBridgeIo instances */

8
xtldr/library/modproto.c
View File

@@ -32,13 +32,13 @@ BlGetXtLdrProtocol(IN PEFI_SYSTEM_TABLE SystemTable,
OUT PXTBL_LOADER_PROTOCOL *ProtocolHandler) OUT PXTBL_LOADER_PROTOCOL *ProtocolHandler)
{ {
EFI_GUID ProtocolGuid = XT_BOOT_LOADER_PROTOCOL_GUID; EFI_GUID ProtocolGuid = XT_BOOT_LOADER_PROTOCOL_GUID;
PEFI_HANDLE Handles = NULL; PEFI_HANDLE Handles = NULLPTR;
EFI_STATUS Status; EFI_STATUS Status;
UINT_PTR Count; UINT_PTR Count;
UINT Index; UINT Index;
/* Try to locate the handles */ /* Try to locate the handles */
Status = SystemTable->BootServices->LocateHandleBuffer(ByProtocol, &ProtocolGuid, NULL, &Count, &Handles); Status = SystemTable->BootServices->LocateHandleBuffer(ByProtocol, &ProtocolGuid, NULLPTR, &Count, &Handles);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Unable to get handles */ /* Unable to get handles */
@@ -53,7 +53,7 @@ BlGetXtLdrProtocol(IN PEFI_SYSTEM_TABLE SystemTable,
{ {
/* Try to open protocol */ /* Try to open protocol */
Status = SystemTable->BootServices->OpenProtocol(Handles[Index], &ProtocolGuid, Status = SystemTable->BootServices->OpenProtocol(Handles[Index], &ProtocolGuid,
(PVOID*)ProtocolHandler, ImageHandle, NULL, (PVOID*)ProtocolHandler, ImageHandle, NULLPTR,
EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL); EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL);
/* Check if successfully opened the loader protocol */ /* Check if successfully opened the loader protocol */
@@ -69,7 +69,7 @@ BlGetXtLdrProtocol(IN PEFI_SYSTEM_TABLE SystemTable,
SystemTable->BootServices->FreePool(Handles); SystemTable->BootServices->FreePool(Handles);
/* Make sure the loaded protocol has been found */ /* Make sure the loaded protocol has been found */
if(*ProtocolHandler == NULL) if(*ProtocolHandler == NULLPTR)
{ {
/* Protocol not found */ /* Protocol not found */
return STATUS_EFI_NOT_FOUND; return STATUS_EFI_NOT_FOUND;

18
xtldr/memory.c
View File

@@ -130,12 +130,12 @@ BlGetMemoryMap(OUT PEFI_MEMORY_MAP MemoryMap)
{ {
EFI_STATUS Status; EFI_STATUS Status;
if(MemoryMap == NULL) if(MemoryMap == NULLPTR)
{ {
return STATUS_EFI_INVALID_PARAMETER; return STATUS_EFI_INVALID_PARAMETER;
} }
MemoryMap->Map = NULL; MemoryMap->Map = NULLPTR;
MemoryMap->MapSize = 0; MemoryMap->MapSize = 0;
/* Get memory map */ /* Get memory map */
@@ -167,7 +167,7 @@ BlGetMemoryMap(OUT PEFI_MEMORY_MAP MemoryMap)
while(Status == STATUS_EFI_BUFFER_TOO_SMALL); while(Status == STATUS_EFI_BUFFER_TOO_SMALL);
/* Make sure memory map is set */ /* Make sure memory map is set */
if(MemoryMap->Map == NULL) if(MemoryMap->Map == NULLPTR)
{ {
/* Something went wrong */ /* Something went wrong */
return STATUS_EFI_NO_MAPPING; return STATUS_EFI_NO_MAPPING;
@@ -290,7 +290,7 @@ BlMapEfiMemory(IN OUT PXTBL_PAGE_MAPPING PageMap,
VirtualAddress = *MemoryMapAddress; VirtualAddress = *MemoryMapAddress;
/* Check if custom memory type routine is specified */ /* Check if custom memory type routine is specified */
if(GetMemoryTypeRoutine == NULL) if(GetMemoryTypeRoutine == NULLPTR)
{ {
/* Use default memory type routine */ /* Use default memory type routine */
GetMemoryTypeRoutine = BlpGetLoaderMemoryType; GetMemoryTypeRoutine = BlpGetLoaderMemoryType;
@@ -367,7 +367,7 @@ BlMapEfiMemory(IN OUT PXTBL_PAGE_MAPPING PageMap,
else else
{ {
/* Map all other memory as loader free */ /* Map all other memory as loader free */
Status = BlMapVirtualMemory(PageMap, NULL, (PVOID)Descriptor->PhysicalStart, Status = BlMapVirtualMemory(PageMap, NULLPTR, (PVOID)Descriptor->PhysicalStart,
Descriptor->NumberOfPages, LoaderFree); Descriptor->NumberOfPages, LoaderFree);
} }
@@ -384,7 +384,7 @@ BlMapEfiMemory(IN OUT PXTBL_PAGE_MAPPING PageMap,
} }
/* Always map first page */ /* Always map first page */
Status = BlMapVirtualMemory(PageMap, NULL, (PVOID)0, 1, LoaderFirmwarePermanent); Status = BlMapVirtualMemory(PageMap, NULLPTR, (PVOID)0, 1, LoaderFirmwarePermanent);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Mapping failed */ /* Mapping failed */
@@ -392,7 +392,7 @@ BlMapEfiMemory(IN OUT PXTBL_PAGE_MAPPING PageMap,
} }
/* Map BIOS ROM and VRAM */ /* Map BIOS ROM and VRAM */
Status = BlMapVirtualMemory(PageMap, NULL, (PVOID)0xA0000, 0x60, LoaderFirmwarePermanent); Status = BlMapVirtualMemory(PageMap, NULLPTR, (PVOID)0xA0000, 0x60, LoaderFirmwarePermanent);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Mapping failed */ /* Mapping failed */
@@ -500,7 +500,7 @@ BlMapVirtualMemory(IN OUT PXTBL_PAGE_MAPPING PageMap,
/* Set mapping fields and insert it on the top */ /* Set mapping fields and insert it on the top */
Mapping3->PhysicalAddress = (PUCHAR)PhysicalAddressEnd + 1; Mapping3->PhysicalAddress = (PUCHAR)PhysicalAddressEnd + 1;
Mapping3->VirtualAddress = NULL; Mapping3->VirtualAddress = NULLPTR;
Mapping3->NumberOfPages = NumberOfMappedPages; Mapping3->NumberOfPages = NumberOfMappedPages;
Mapping3->MemoryType = Mapping2->MemoryType; Mapping3->MemoryType = Mapping2->MemoryType;
RtlInsertHeadList(&Mapping2->ListEntry, &Mapping3->ListEntry); RtlInsertHeadList(&Mapping2->ListEntry, &Mapping3->ListEntry);
@@ -536,7 +536,7 @@ BlMapVirtualMemory(IN OUT PXTBL_PAGE_MAPPING PageMap,
/* Set mapping fields and insert it on the top */ /* Set mapping fields and insert it on the top */
Mapping3->PhysicalAddress = Mapping1->PhysicalAddress; Mapping3->PhysicalAddress = Mapping1->PhysicalAddress;
Mapping3->VirtualAddress = NULL; Mapping3->VirtualAddress = NULLPTR;
Mapping3->NumberOfPages = NumberOfMappedPages; Mapping3->NumberOfPages = NumberOfMappedPages;
Mapping3->MemoryType = Mapping2->MemoryType; Mapping3->MemoryType = Mapping2->MemoryType;
RtlInsertHeadList(&Mapping2->ListEntry, &Mapping3->ListEntry); RtlInsertHeadList(&Mapping2->ListEntry, &Mapping3->ListEntry);

18
xtldr/modules/acpi/acpi.c
View File

@@ -61,7 +61,7 @@ AcGetAcpiDescriptionPointer(OUT PVOID *AcpiTable)
* Supplies a pointer to the table to start searching from. * Supplies a pointer to the table to start searching from.
* *
* @param AcpiTable * @param AcpiTable
* Supplies a pointer to memory area where ACPI table address will be stored, or NULL if not found. * Supplies a pointer to memory area where ACPI table address will be stored, or NULLPTR if not found.
* *
* @return This routine returns a status code. * @return This routine returns a status code.
* *
@@ -81,8 +81,8 @@ AcGetAcpiTable(IN CONST UINT Signature,
PACPI_RSDT Rsdt; PACPI_RSDT Rsdt;
BOOLEAN Xsdp; BOOLEAN Xsdp;
/* Return NULL address by default if requested table not found */ /* Return NULLPTR by default if requested table not found */
*AcpiTable = NULL; *AcpiTable = NULLPTR;
/* Get Root System Description Table Pointer */ /* Get Root System Description Table Pointer */
Status = AcGetAcpiDescriptionPointer((PVOID)&Rsdp); Status = AcGetAcpiDescriptionPointer((PVOID)&Rsdp);
@@ -127,13 +127,13 @@ AcGetAcpiTable(IN CONST UINT Signature,
} }
/* Check if previous table provided */ /* Check if previous table provided */
if(PreviousTable != NULL) if(PreviousTable != NULLPTR)
{ {
/* Check if this is a table previously found */ /* Check if this is a table previously found */
if(TableHeader == (PVOID)PreviousTable) if(TableHeader == (PVOID)PreviousTable)
{ {
/* Unset previous table */ /* Unset previous table */
PreviousTable = NULL; PreviousTable = NULLPTR;
} }
/* Skip to next ACPI table */ /* Skip to next ACPI table */
@@ -231,7 +231,7 @@ AcGetRsdpTable(OUT PVOID *AcpiTable)
if(Status != STATUS_EFI_SUCCESS || !AcpValidateAcpiTable(RsdpTable, 20)) if(Status != STATUS_EFI_SUCCESS || !AcpValidateAcpiTable(RsdpTable, 20))
{ {
/* RSDP not found or checksum mismatch */ /* RSDP not found or checksum mismatch */
*AcpiTable = NULL; *AcpiTable = NULLPTR;
return STATUS_EFI_NOT_FOUND; return STATUS_EFI_NOT_FOUND;
} }
@@ -263,7 +263,7 @@ AcGetSMBiosTable(OUT PVOID *SmBiosTable)
if(Status != STATUS_EFI_SUCCESS || !AcpValidateAcpiTable(SmBios, SmBios->Length)) if(Status != STATUS_EFI_SUCCESS || !AcpValidateAcpiTable(SmBios, SmBios->Length))
{ {
/* SMBIOS not found or checksum mismatch */ /* SMBIOS not found or checksum mismatch */
*SmBiosTable = NULL; *SmBiosTable = NULLPTR;
return STATUS_EFI_NOT_FOUND; return STATUS_EFI_NOT_FOUND;
} }
@@ -295,7 +295,7 @@ AcGetSMBios3Table(OUT PVOID *SmBiosTable)
if(Status != STATUS_EFI_SUCCESS || !AcpValidateAcpiTable(SmBios, SmBios->Length)) if(Status != STATUS_EFI_SUCCESS || !AcpValidateAcpiTable(SmBios, SmBios->Length))
{ {
/* SMBIOS3 not found or checksum mismatch */ /* SMBIOS3 not found or checksum mismatch */
*SmBiosTable = NULL; *SmBiosTable = NULLPTR;
return STATUS_EFI_NOT_FOUND; return STATUS_EFI_NOT_FOUND;
} }
@@ -327,7 +327,7 @@ AcGetXsdpTable(OUT PVOID *AcpiTable)
if(Status != STATUS_EFI_SUCCESS || !AcpValidateAcpiTable(XsdpTable, 36)) if(Status != STATUS_EFI_SUCCESS || !AcpValidateAcpiTable(XsdpTable, 36))
{ {
/* XSDP not found or checksum mismatch */ /* XSDP not found or checksum mismatch */
*AcpiTable = NULL; *AcpiTable = NULLPTR;
return STATUS_EFI_NOT_FOUND; return STATUS_EFI_NOT_FOUND;
} }

4
xtldr/modules/beep/beep.c
View File

@@ -98,7 +98,7 @@ BpPlayTune(IN PWCHAR Arguments)
Argument = RtlTokenizeWideString(Arguments, L" ", &LastArgument); Argument = RtlTokenizeWideString(Arguments, L" ", &LastArgument);
/* Iterate over all arguments */ /* Iterate over all arguments */
while(Argument != NULL) while(Argument != NULLPTR)
{ {
/* Check if tempo, pitch and duration are set */ /* Check if tempo, pitch and duration are set */
if(Tempo < 0) if(Tempo < 0)
@@ -137,7 +137,7 @@ BpPlayTune(IN PWCHAR Arguments)
} }
/* Get next argument */ /* Get next argument */
Argument = RtlTokenizeWideString(NULL, L" ", &LastArgument); Argument = RtlTokenizeWideString(NULLPTR, L" ", &LastArgument);
} }
/* Stop emitting beep tone */ /* Stop emitting beep tone */

2
xtldr/modules/chainldr/chainldr.c
View File

@@ -39,7 +39,7 @@ ChBootSystem(IN PXTBL_BOOT_PARAMETERS Parameters)
PVOID LoaderData; PVOID LoaderData;
/* Check if image file is provided */ /* Check if image file is provided */
if(Parameters->KernelFile == NULL) if(Parameters->KernelFile == NULLPTR)
{ {
/* No image filename provided, return error code */ /* No image filename provided, return error code */
XtLdrProtocol->Debug.Print(L"ERROR: No EFI image filename provided\n"); XtLdrProtocol->Debug.Print(L"ERROR: No EFI image filename provided\n");

8
xtldr/modules/framebuf/framebuf.c
View File

@@ -185,7 +185,7 @@ FbInitializeDisplay()
} }
/* Query current graphics mode */ /* Query current graphics mode */
QueryMode = FbpDisplayInfo.Driver.Gop->Mode == NULL ? 0 : FbpDisplayInfo.Driver.Gop->Mode->Mode; QueryMode = FbpDisplayInfo.Driver.Gop->Mode == NULLPTR ? 0 : FbpDisplayInfo.Driver.Gop->Mode->Mode;
Status = FbpDisplayInfo.Driver.Gop->QueryMode(FbpDisplayInfo.Driver.Gop, QueryMode, &InfoSize, &GopModeInfo); Status = FbpDisplayInfo.Driver.Gop->QueryMode(FbpDisplayInfo.Driver.Gop, QueryMode, &InfoSize, &GopModeInfo);
if(Status == STATUS_EFI_NOT_STARTED) if(Status == STATUS_EFI_NOT_STARTED)
{ {
@@ -357,7 +357,7 @@ FbSetScreenResolution(IN UINT Width,
{ {
/* Get mode information */ /* Get mode information */
Status = FbpDisplayInfo.Driver.Gop->QueryMode(FbpDisplayInfo.Driver.Gop, Mode, &Size, &ModeInfo); Status = FbpDisplayInfo.Driver.Gop->QueryMode(FbpDisplayInfo.Driver.Gop, Mode, &Size, &ModeInfo);
if(Status == STATUS_EFI_SUCCESS && Size >= sizeof(*ModeInfo) && ModeInfo != NULL) if(Status == STATUS_EFI_SUCCESS && Size >= sizeof(*ModeInfo) && ModeInfo != NULLPTR)
{ {
/* Check if match found */ /* Check if match found */
if(ModeInfo->HorizontalResolution == Width && ModeInfo->VerticalResolution == Height) if(ModeInfo->HorizontalResolution == Width && ModeInfo->VerticalResolution == Height)
@@ -441,7 +441,7 @@ FbpFindFramebufferAddress(OUT PEFI_PHYSICAL_ADDRESS Address)
/* Initialize variables */ /* Initialize variables */
FramebufAddressLength = 0; FramebufAddressLength = 0;
Handles = NULL; Handles = NULLPTR;
/* Locate EFI_PCI_IO_PROTOCOL handles */ /* Locate EFI_PCI_IO_PROTOCOL handles */
Status = XtLdrProtocol->Protocol.LocateHandles(&Handles, &HandlesCount, &PciIoGuid); Status = XtLdrProtocol->Protocol.LocateHandles(&Handles, &HandlesCount, &PciIoGuid);
@@ -488,7 +488,7 @@ FbpFindFramebufferAddress(OUT PEFI_PHYSICAL_ADDRESS Address)
for(UINT Bars = 0; Bars < 6; Bars++) for(UINT Bars = 0; Bars < 6; Bars++)
{ {
/* Get BAR attributes */ /* Get BAR attributes */
Status = IoProtocol->GetBarAttributes(IoProtocol, Bars, NULL, (VOID **)&BarInfo); Status = IoProtocol->GetBarAttributes(IoProtocol, Bars, NULLPTR, (VOID **)&BarInfo);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Failed to get BAR attributes, continue with next BAR */ /* Failed to get BAR attributes, continue with next BAR */

2
xtldr/modules/pecoff/pecoff.c
View File

@@ -400,7 +400,7 @@ PeLoadImage(IN PEFI_FILE_HANDLE FileHandle,
} }
/* Store file size and memory type, nullify data and free up memory */ /* Store file size and memory type, nullify data and free up memory */
ImageData->Data = NULL; ImageData->Data = NULLPTR;
ImageData->FileSize = FileInfo->FileSize; ImageData->FileSize = FileInfo->FileSize;
ImageData->MemoryType = MemoryType; ImageData->MemoryType = MemoryType;
XtLdrProtocol->Memory.FreePool(FileInfo); XtLdrProtocol->Memory.FreePool(FileInfo);

14
xtldr/modules/xtos_o/xtos.c
View File

@@ -260,7 +260,7 @@ XtBootSystem(IN PXTBL_BOOT_PARAMETERS Parameters)
} }
/* Check device path */ /* Check device path */
if(Parameters->DevicePath == NULL) if(Parameters->DevicePath == NULLPTR)
{ {
/* No device path set */ /* No device path set */
XtLdrProtocol->Debug.Print(L"ERROR: No device path provided, unable to boot system\n"); XtLdrProtocol->Debug.Print(L"ERROR: No device path provided, unable to boot system\n");
@@ -268,7 +268,7 @@ XtBootSystem(IN PXTBL_BOOT_PARAMETERS Parameters)
} }
/* Check if system path is set */ /* Check if system path is set */
if(Parameters->SystemPath != NULL) if(Parameters->SystemPath != NULLPTR)
{ {
/* Make sure system path begins with backslash, the only separator supported by EFI */ /* Make sure system path begins with backslash, the only separator supported by EFI */
if(Parameters->SystemPath[0] == '/') if(Parameters->SystemPath[0] == '/')
@@ -300,7 +300,7 @@ XtBootSystem(IN PXTBL_BOOT_PARAMETERS Parameters)
} }
/* Check if kernel file is set */ /* Check if kernel file is set */
if(Parameters->KernelFile == NULL) if(Parameters->KernelFile == NULLPTR)
{ {
/* No kernel filename set, fallback to default */ /* No kernel filename set, fallback to default */
XtLdrProtocol->Debug.Print(L"WARNING: No kernel file specified, falling back to defaults\n"); XtLdrProtocol->Debug.Print(L"WARNING: No kernel file specified, falling back to defaults\n");
@@ -308,7 +308,7 @@ XtBootSystem(IN PXTBL_BOOT_PARAMETERS Parameters)
} }
/* Check if provided any kernel boot arguments */ /* Check if provided any kernel boot arguments */
if(Parameters->Parameters == NULL) if(Parameters->Parameters == NULLPTR)
{ {
/* No argument supplied */ /* No argument supplied */
Parameters->Parameters = L""; Parameters->Parameters = L"";
@@ -382,7 +382,7 @@ XtpBootSequence(IN PEFI_FILE_HANDLE BootDir,
EFI_GUID FrameBufGuid = XT_FRAMEBUFFER_PROTOCOL_GUID; EFI_GUID FrameBufGuid = XT_FRAMEBUFFER_PROTOCOL_GUID;
PKERNEL_INITIALIZATION_BLOCK KernelParameters; PKERNEL_INITIALIZATION_BLOCK KernelParameters;
PXTBL_FRAMEBUFFER_PROTOCOL FrameBufProtocol; PXTBL_FRAMEBUFFER_PROTOCOL FrameBufProtocol;
PPECOFF_IMAGE_CONTEXT ImageContext = NULL; PPECOFF_IMAGE_CONTEXT ImageContext = NULLPTR;
PEFI_LOADED_IMAGE_PROTOCOL ImageProtocol; PEFI_LOADED_IMAGE_PROTOCOL ImageProtocol;
PVOID VirtualAddress, VirtualMemoryArea; PVOID VirtualAddress, VirtualMemoryArea;
PXT_ENTRY_POINT KernelEntryPoint; PXT_ENTRY_POINT KernelEntryPoint;
@@ -412,7 +412,7 @@ XtpBootSequence(IN PEFI_FILE_HANDLE BootDir,
/* Initialize virtual memory mappings */ /* Initialize virtual memory mappings */
XtLdrProtocol->Memory.InitializePageMap(&PageMap, XtpDeterminePagingLevel(Parameters->Parameters), Size4K); XtLdrProtocol->Memory.InitializePageMap(&PageMap, XtpDeterminePagingLevel(Parameters->Parameters), Size4K);
Status = XtLdrProtocol->Memory.MapEfiMemory(&PageMap, &VirtualMemoryArea, NULL); Status = XtLdrProtocol->Memory.MapEfiMemory(&PageMap, &VirtualMemoryArea, NULLPTR);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
return Status; return Status;
@@ -582,7 +582,7 @@ XtpInitializeLoaderBlock(IN PXTBL_PAGE_MAPPING PageMap,
/* Set FirmwareInformation block properties */ /* Set FirmwareInformation block properties */
LoaderBlock->FirmwareInformation.FirmwareType = SystemFirmwareEfi; LoaderBlock->FirmwareInformation.FirmwareType = SystemFirmwareEfi;
LoaderBlock->FirmwareInformation.EfiFirmware.EfiVersion = 0; //EfiSystemTable->Hdr.Revision; LoaderBlock->FirmwareInformation.EfiFirmware.EfiVersion = 0; //EfiSystemTable->Hdr.Revision;
LoaderBlock->FirmwareInformation.EfiFirmware.EfiRuntimeServices = NULL; LoaderBlock->FirmwareInformation.EfiFirmware.EfiRuntimeServices = NULLPTR;
// } // }
// else // else
// { // {

48
xtldr/protocol.c
View File

@@ -27,7 +27,7 @@ EFI_STATUS
BlCloseProtocol(IN PEFI_HANDLE Handle, BlCloseProtocol(IN PEFI_HANDLE Handle,
IN PEFI_GUID ProtocolGuid) IN PEFI_GUID ProtocolGuid)
{ {
return EfiSystemTable->BootServices->CloseProtocol(Handle, ProtocolGuid, EfiImageHandle, NULL); return EfiSystemTable->BootServices->CloseProtocol(Handle, ProtocolGuid, EfiImageHandle, NULLPTR);
} }
/** /**
@@ -97,7 +97,7 @@ BlGetModulesList()
* Specifies a unique protocol GUID. * Specifies a unique protocol GUID.
* *
* @param Interface * @param Interface
* Supplies a pointer to the protocol interface, or NULL if there is no structure associated. * Supplies a pointer to the protocol interface, or NULLPTR if there is no structure associated.
* *
* @return This routine returns a status code. * @return This routine returns a status code.
* *
@@ -108,7 +108,7 @@ EFI_STATUS
BlInstallProtocol(IN PVOID Interface, BlInstallProtocol(IN PVOID Interface,
IN PEFI_GUID Guid) IN PEFI_GUID Guid)
{ {
EFI_HANDLE Handle = NULL; EFI_HANDLE Handle = NULLPTR;
/* Install protocol interface */ /* Install protocol interface */
return EfiSystemTable->BootServices->InstallProtocolInterface(&Handle, Guid, EFI_NATIVE_INTERFACE, Interface); return EfiSystemTable->BootServices->InstallProtocolInterface(&Handle, Guid, EFI_NATIVE_INTERFACE, Interface);
@@ -171,7 +171,7 @@ BlLoadModule(IN PWCHAR ModuleName)
RtlConcatenateWideString(ModuleFileName, L".EFI", 0); RtlConcatenateWideString(ModuleFileName, L".EFI", 0);
/* Open EFI volume */ /* Open EFI volume */
Status = BlOpenVolume(NULL, &DiskHandle, &FsHandle); Status = BlOpenVolume(NULLPTR, &DiskHandle, &FsHandle);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Failed to open a volume */ /* Failed to open a volume */
@@ -264,7 +264,7 @@ BlLoadModule(IN PWCHAR ModuleName)
ModuleDependency = CONTAIN_RECORD(DepsListEntry, XTBL_MODULE_DEPS, Flink); ModuleDependency = CONTAIN_RECORD(DepsListEntry, XTBL_MODULE_DEPS, Flink);
/* Make sure dependency list contains a valid module name */ /* Make sure dependency list contains a valid module name */
if(ModuleDependency->ModuleName == NULL || ModuleDependency->ModuleName[0] == L'\0') if(ModuleDependency->ModuleName == NULLPTR || ModuleDependency->ModuleName[0] == L'\0')
{ {
/* Invalid module name found, just skip this step */ /* Invalid module name found, just skip this step */
break; break;
@@ -320,7 +320,7 @@ BlLoadModule(IN PWCHAR ModuleName)
/* Access module interface for further module type check */ /* Access module interface for further module type check */
Status = EfiSystemTable->BootServices->OpenProtocol(ModuleHandle, &LIPGuid, (PVOID *)&LoadedImage, Status = EfiSystemTable->BootServices->OpenProtocol(ModuleHandle, &LIPGuid, (PVOID *)&LoadedImage,
EfiImageHandle, NULL, EFI_OPEN_PROTOCOL_GET_PROTOCOL); EfiImageHandle, NULLPTR, EFI_OPEN_PROTOCOL_GET_PROTOCOL);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Failed to open LoadedImage protocol */ /* Failed to open LoadedImage protocol */
@@ -335,7 +335,7 @@ BlLoadModule(IN PWCHAR ModuleName)
BlDebugPrint(L"ERROR: Loaded module is not a boot system driver\n"); BlDebugPrint(L"ERROR: Loaded module is not a boot system driver\n");
/* Close protocol and skip module */ /* Close protocol and skip module */
EfiSystemTable->BootServices->CloseProtocol(LoadedImage, &LIPGuid, LoadedImage, NULL); EfiSystemTable->BootServices->CloseProtocol(LoadedImage, &LIPGuid, LoadedImage, NULLPTR);
} }
/* Save additional module information, not found in '.modinfo' section */ /* Save additional module information, not found in '.modinfo' section */
@@ -346,7 +346,7 @@ BlLoadModule(IN PWCHAR ModuleName)
ModuleInfo->UnloadModule = LoadedImage->Unload; ModuleInfo->UnloadModule = LoadedImage->Unload;
/* Close loaded image protocol */ /* Close loaded image protocol */
EfiSystemTable->BootServices->CloseProtocol(LoadedImage, &LIPGuid, LoadedImage, NULL); EfiSystemTable->BootServices->CloseProtocol(LoadedImage, &LIPGuid, LoadedImage, NULLPTR);
/* Start EFI image */ /* Start EFI image */
Status = BlStartEfiImage(ModuleHandle); Status = BlStartEfiImage(ModuleHandle);
@@ -384,13 +384,13 @@ BlLoadModules(IN PWCHAR ModulesList)
/* Set default return value */ /* Set default return value */
ReturnStatus = STATUS_EFI_SUCCESS; ReturnStatus = STATUS_EFI_SUCCESS;
if(ModulesList != NULL) if(ModulesList != NULLPTR)
{ {
/* Tokenize provided list of modules */ /* Tokenize provided list of modules */
Module = RtlTokenizeWideString(ModulesList, L" ", &LastModule); Module = RtlTokenizeWideString(ModulesList, L" ", &LastModule);
/* Iterate over all arguments passed to boot loader */ /* Iterate over all arguments passed to boot loader */
while(Module != NULL) while(Module != NULLPTR)
{ {
Status = BlLoadModule(Module); Status = BlLoadModule(Module);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
@@ -401,7 +401,7 @@ BlLoadModules(IN PWCHAR ModulesList)
} }
/* Take next module from the list */ /* Take next module from the list */
Module = RtlTokenizeWideString(NULL, L" ", &LastModule); Module = RtlTokenizeWideString(NULLPTR, L" ", &LastModule);
} }
} }
@@ -431,7 +431,7 @@ BlLocateProtocolHandles(OUT PEFI_HANDLE *Handles,
OUT PUINT_PTR Count, OUT PUINT_PTR Count,
IN PEFI_GUID ProtocolGuid) IN PEFI_GUID ProtocolGuid)
{ {
return EfiSystemTable->BootServices->LocateHandleBuffer(ByProtocol, ProtocolGuid, NULL, Count, Handles); return EfiSystemTable->BootServices->LocateHandleBuffer(ByProtocol, ProtocolGuid, NULLPTR, Count, Handles);
} }
/** /**
@@ -456,7 +456,7 @@ BlOpenProtocol(OUT PEFI_HANDLE Handle,
OUT PVOID *ProtocolHandler, OUT PVOID *ProtocolHandler,
IN PEFI_GUID ProtocolGuid) IN PEFI_GUID ProtocolGuid)
{ {
PEFI_HANDLE Handles = NULL; PEFI_HANDLE Handles = NULLPTR;
EFI_STATUS Status; EFI_STATUS Status;
UINT_PTR Count; UINT_PTR Count;
UINT Index; UINT Index;
@@ -492,7 +492,7 @@ BlOpenProtocol(OUT PEFI_HANDLE Handle,
EfiSystemTable->BootServices->FreePool(Handles); EfiSystemTable->BootServices->FreePool(Handles);
/* Make sure the loaded protocol has been found */ /* Make sure the loaded protocol has been found */
if(*ProtocolHandler == NULL) if(*ProtocolHandler == NULLPTR)
{ {
/* Protocol not found */ /* Protocol not found */
return STATUS_EFI_NOT_FOUND; return STATUS_EFI_NOT_FOUND;
@@ -525,7 +525,7 @@ BlOpenProtocolHandle(IN EFI_HANDLE Handle,
IN PEFI_GUID ProtocolGuid) IN PEFI_GUID ProtocolGuid)
{ {
return EfiSystemTable->BootServices->OpenProtocol(Handle, ProtocolGuid, ProtocolHandler, EfiImageHandle, return EfiSystemTable->BootServices->OpenProtocol(Handle, ProtocolGuid, ProtocolHandler, EfiImageHandle,
NULL, EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL); NULLPTR, EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL);
} }
/** /**
@@ -689,7 +689,7 @@ BlpGetModuleInformation(IN PWCHAR SectionData,
{ {
/* Tokenize value to get module's single dependency */ /* Tokenize value to get module's single dependency */
Dependency = RtlTokenizeWideString(Strings[Index], L" ", &LastStr); Dependency = RtlTokenizeWideString(Strings[Index], L" ", &LastStr);
while(Dependency != NULL) while(Dependency != NULLPTR)
{ {
/* Allocate memory for module dependency */ /* Allocate memory for module dependency */
Status = BlAllocateMemoryPool(sizeof(XTBL_MODULE_DEPS), (PVOID*)&ModuleDependencies); Status = BlAllocateMemoryPool(sizeof(XTBL_MODULE_DEPS), (PVOID*)&ModuleDependencies);
@@ -704,7 +704,7 @@ BlpGetModuleInformation(IN PWCHAR SectionData,
RtlInsertTailList(&ModuleInfo->Dependencies, &ModuleDependencies->Flink); RtlInsertTailList(&ModuleInfo->Dependencies, &ModuleDependencies->Flink);
/* Get next dependency from single value if available */ /* Get next dependency from single value if available */
Dependency = RtlTokenizeWideString(NULL, L" ", &LastStr); Dependency = RtlTokenizeWideString(NULLPTR, L" ", &LastStr);
} }
} }
else if(RtlCompareWideString(Key, L"version", 7) == 0) else if(RtlCompareWideString(Key, L"version", 7) == 0)
@@ -756,7 +756,7 @@ BlpGetModuleInfoStrings(IN PWCHAR SectionData,
if(!InfoStrings || !SectionSize) if(!InfoStrings || !SectionSize)
{ {
/* Invalid input parameters */ /* Invalid input parameters */
*ModInfo = NULL; *ModInfo = NULLPTR;
*InfoCount = 0; *InfoCount = 0;
return STATUS_EFI_INVALID_PARAMETER; return STATUS_EFI_INVALID_PARAMETER;
} }
@@ -775,7 +775,7 @@ BlpGetModuleInfoStrings(IN PWCHAR SectionData,
if(DataSize < 1) if(DataSize < 1)
{ {
/* No strings found */ /* No strings found */
*ModInfo = NULL; *ModInfo = NULLPTR;
*InfoCount = 0; *InfoCount = 0;
return STATUS_EFI_END_OF_FILE; return STATUS_EFI_END_OF_FILE;
} }
@@ -793,7 +793,7 @@ BlpGetModuleInfoStrings(IN PWCHAR SectionData,
{ {
Index++; Index++;
} }
/* Skip all null terminators */ /* Skip all NULL terminators */
while(Index < DataSize && InfoStrings[Index] == L'\0') while(Index < DataSize && InfoStrings[Index] == L'\0')
{ {
Index++; Index++;
@@ -814,11 +814,11 @@ BlpGetModuleInfoStrings(IN PWCHAR SectionData,
/* Copy the raw string data */ /* Copy the raw string data */
RtlCopyMemory(String, InfoStrings, DataSize * sizeof(WCHAR)); RtlCopyMemory(String, InfoStrings, DataSize * sizeof(WCHAR));
/* Ensure the entire buffer is null-terminated for safety */ /* Ensure the entire buffer is NULL-terminated for safety */
String[DataSize] = L'\0'; String[DataSize] = L'\0';
/* Set the last element of the pointer array to NULL */ /* Set the last element of the pointer array to NULLPTR */
Array[Count] = NULL; Array[Count] = NULLPTR;
/* Populate the array with pointers to the strings within the buffer */ /* Populate the array with pointers to the strings within the buffer */
Index = 0; Index = 0;
@@ -834,7 +834,7 @@ BlpGetModuleInfoStrings(IN PWCHAR SectionData,
Index++; Index++;
} }
/* Skip all null terminators to find the beginning of the next string */ /* Skip all NULL terminators to find the beginning of the next string */
while(Index < DataSize && String[Index] == L'\0') while(Index < DataSize && String[Index] == L'\0')
{ {
Index++; Index++;

48
xtldr/textui.c
View File

@@ -22,7 +22,7 @@ VOID
BlDisplayBootMenu() BlDisplayBootMenu()
{ {
XTBL_DIALOG_HANDLE Handle; XTBL_DIALOG_HANDLE Handle;
PXTBL_BOOTMENU_ITEM MenuEntries = NULL; PXTBL_BOOTMENU_ITEM MenuEntries = NULLPTR;
ULONG Index; ULONG Index;
ULONG HighligtedEntryId, OldHighligtedEntryId, NumberOfEntries, TopVisibleEntry, VisibleEntries; ULONG HighligtedEntryId, OldHighligtedEntryId, NumberOfEntries, TopVisibleEntry, VisibleEntries;
BOOLEAN RedrawBootMenu, RedrawEntries; BOOLEAN RedrawBootMenu, RedrawEntries;
@@ -61,7 +61,7 @@ BlDisplayBootMenu()
TimeOut = -1; TimeOut = -1;
/* Check if timeout is specified */ /* Check if timeout is specified */
if(TimeOutString != NULL) if(TimeOutString != NULLPTR)
{ {
/* Convert timeout string to number */ /* Convert timeout string to number */
TimeOut = 0; TimeOut = 0;
@@ -122,7 +122,7 @@ BlDisplayBootMenu()
} }
/* Create a timer event for controlling the timeout of the boot menu */ /* Create a timer event for controlling the timeout of the boot menu */
Status = EfiSystemTable->BootServices->CreateEvent(EFI_EVENT_TIMER, EFI_TPL_CALLBACK, NULL, NULL, &TimerEvent); Status = EfiSystemTable->BootServices->CreateEvent(EFI_EVENT_TIMER, EFI_TPL_CALLBACK, NULLPTR, NULLPTR, &TimerEvent);
if(Status == STATUS_EFI_SUCCESS) if(Status == STATUS_EFI_SUCCESS)
{ {
/* Setup new EFI timer */ /* Setup new EFI timer */
@@ -444,7 +444,7 @@ BlDisplayEditMenu(IN PXTBL_BOOTMENU_ITEM MenuEntry)
(TopVisibleEntry + Index) == HighligtedOptionId); (TopVisibleEntry + Index) == HighligtedOptionId);
/* Free allocated value string if needed */ /* Free allocated value string if needed */
if(Value != NULL) if(Value != NULLPTR)
{ {
BlFreeMemoryPool(Value); BlFreeMemoryPool(Value);
} }
@@ -465,8 +465,8 @@ BlDisplayEditMenu(IN PXTBL_BOOTMENU_ITEM MenuEntry)
OptionName = EditableOptions[HighligtedOptionId]; OptionName = EditableOptions[HighligtedOptionId];
BlGetBootOptionValue(MenuEntry->Options, OptionName, &OriginalValue); BlGetBootOptionValue(MenuEntry->Options, OptionName, &OriginalValue);
/* If the original value is NULL, use an empty string for editing */ /* If the original value is NULLPTR, use an empty string for editing */
if(OriginalValue == NULL) if(OriginalValue == NULLPTR)
{ {
ValueToEdit = L""; ValueToEdit = L"";
} }
@@ -488,7 +488,7 @@ BlDisplayEditMenu(IN PXTBL_BOOTMENU_ITEM MenuEntry)
} }
/* Free the original value if it was allocated */ /* Free the original value if it was allocated */
if(OriginalValue != NULL) if(OriginalValue != NULLPTR)
{ {
BlFreeMemoryPool(OriginalValue); BlFreeMemoryPool(OriginalValue);
} }
@@ -519,7 +519,7 @@ BlDisplayEditMenu(IN PXTBL_BOOTMENU_ITEM MenuEntry)
BlpDrawEditMenuEntry(&Handle, EditableOptions[OldHighligtedOptionId], Value, OldHighligtedOptionId - TopVisibleEntry, FALSE); BlpDrawEditMenuEntry(&Handle, EditableOptions[OldHighligtedOptionId], Value, OldHighligtedOptionId - TopVisibleEntry, FALSE);
/* Free allocated value string if needed */ /* Free allocated value string if needed */
if(Value != NULL) if(Value != NULLPTR)
{ {
BlFreeMemoryPool(Value); BlFreeMemoryPool(Value);
} }
@@ -529,7 +529,7 @@ BlDisplayEditMenu(IN PXTBL_BOOTMENU_ITEM MenuEntry)
BlpDrawEditMenuEntry(&Handle, EditableOptions[HighligtedOptionId], Value, HighligtedOptionId - TopVisibleEntry, TRUE); BlpDrawEditMenuEntry(&Handle, EditableOptions[HighligtedOptionId], Value, HighligtedOptionId - TopVisibleEntry, TRUE);
/* Free allocated value string if needed */ /* Free allocated value string if needed */
if(Value != NULL) if(Value != NULLPTR)
{ {
BlFreeMemoryPool(Value); BlFreeMemoryPool(Value);
} }
@@ -558,7 +558,7 @@ BlDisplayEditMenu(IN PXTBL_BOOTMENU_ITEM MenuEntry)
BlpDrawEditMenuEntry(&Handle, EditableOptions[OldHighligtedOptionId], Value, OldHighligtedOptionId - TopVisibleEntry, FALSE); BlpDrawEditMenuEntry(&Handle, EditableOptions[OldHighligtedOptionId], Value, OldHighligtedOptionId - TopVisibleEntry, FALSE);
/* Free allocated value string if needed */ /* Free allocated value string if needed */
if(Value != NULL) if(Value != NULLPTR)
{ {
BlFreeMemoryPool(Value); BlFreeMemoryPool(Value);
} }
@@ -568,7 +568,7 @@ BlDisplayEditMenu(IN PXTBL_BOOTMENU_ITEM MenuEntry)
BlpDrawEditMenuEntry(&Handle, EditableOptions[HighligtedOptionId], Value, HighligtedOptionId - TopVisibleEntry, TRUE); BlpDrawEditMenuEntry(&Handle, EditableOptions[HighligtedOptionId], Value, HighligtedOptionId - TopVisibleEntry, TRUE);
/* Free allocated value string if needed */ /* Free allocated value string if needed */
if(Value != NULL) if(Value != NULLPTR)
{ {
BlFreeMemoryPool(Value); BlFreeMemoryPool(Value);
} }
@@ -864,7 +864,7 @@ BlDisplayInputDialog(IN PWCHAR Caption,
RtlMoveMemory(InputFieldBuffer + TextPosition, InputFieldBuffer + TextPosition + 1, RtlMoveMemory(InputFieldBuffer + TextPosition, InputFieldBuffer + TextPosition + 1,
(InputFieldLength - TextPosition) * sizeof(WCHAR)); (InputFieldLength - TextPosition) * sizeof(WCHAR));
/* Decrement length and null terminate string */ /* Decrement length and NULL terminate string */
InputFieldLength--; InputFieldLength--;
InputFieldBuffer[InputFieldLength] = L'\0'; InputFieldBuffer[InputFieldLength] = L'\0';
} }
@@ -882,7 +882,7 @@ BlDisplayInputDialog(IN PWCHAR Caption,
RtlMoveMemory(InputFieldBuffer + TextPosition - 1, InputFieldBuffer + TextPosition, RtlMoveMemory(InputFieldBuffer + TextPosition - 1, InputFieldBuffer + TextPosition,
(InputFieldLength - TextPosition + 1) * sizeof(WCHAR)); (InputFieldLength - TextPosition + 1) * sizeof(WCHAR));
/* Decrement length, position and null terminate string */ /* Decrement length, position and NULL terminate string */
TextPosition--; TextPosition--;
InputFieldLength--; InputFieldLength--;
InputFieldBuffer[InputFieldLength] = L'\0'; InputFieldBuffer[InputFieldLength] = L'\0';
@@ -908,7 +908,7 @@ BlDisplayInputDialog(IN PWCHAR Caption,
(InputFieldLength - TextPosition) * sizeof(WCHAR)); (InputFieldLength - TextPosition) * sizeof(WCHAR));
InputFieldBuffer[TextPosition] = Key.UnicodeChar; InputFieldBuffer[TextPosition] = Key.UnicodeChar;
/* Increment length, position and null terminate string */ /* Increment length, position and NULL terminate string */
TextPosition++; TextPosition++;
InputFieldLength++; InputFieldLength++;
InputFieldBuffer[InputFieldLength] = L'\0'; InputFieldBuffer[InputFieldLength] = L'\0';
@@ -1008,7 +1008,7 @@ BlUpdateProgressBar(IN PXTBL_DIALOG_HANDLE Handle,
IN UCHAR Percentage) IN UCHAR Percentage)
{ {
/* Check if message needs an update */ /* Check if message needs an update */
if(Message != NULL) if(Message != NULLPTR)
{ {
/* Update a message on the dialog box */ /* Update a message on the dialog box */
BlpDrawDialogMessage(Handle, Message); BlpDrawDialogMessage(Handle, Message);
@@ -1185,7 +1185,7 @@ BlpDrawBootMenu(OUT PXTBL_DIALOG_HANDLE Handle)
} }
/* Draw empty dialog box for boot menu */ /* Draw empty dialog box for boot menu */
BlpDrawDialogBox(Handle, NULL, NULL); BlpDrawDialogBox(Handle, NULLPTR, NULLPTR);
/* Print help message below the boot menu */ /* Print help message below the boot menu */
BlSetCursorPosition(0, Handle->PosY + Handle->Height); BlSetCursorPosition(0, Handle->PosY + Handle->Height);
@@ -1305,7 +1305,7 @@ BlpDrawDialogBox(IN OUT PXTBL_DIALOG_HANDLE Handle,
BoxLine[0] = EFI_TEXT_BOX_DOWN_RIGHT; BoxLine[0] = EFI_TEXT_BOX_DOWN_RIGHT;
/* Check if there is a caption for this dialog */ /* Check if there is a caption for this dialog */
if(Caption != NULL) if(Caption != NULLPTR)
{ {
/* Get caption length */ /* Get caption length */
CaptionLength = RtlWideStringLength(Caption, 0); CaptionLength = RtlWideStringLength(Caption, 0);
@@ -1366,7 +1366,7 @@ BlpDrawDialogBox(IN OUT PXTBL_DIALOG_HANDLE Handle,
BoxLine[Handle->Width - 1] = EFI_TEXT_BOX_VERTICAL; BoxLine[Handle->Width - 1] = EFI_TEXT_BOX_VERTICAL;
} }
/* Add null terminator to the end of the line */ /* Add NULL terminator to the end of the line */
BoxLine[Handle->Width] = 0; BoxLine[Handle->Width] = 0;
/* Write the line to the console */ /* Write the line to the console */
@@ -1374,7 +1374,7 @@ BlpDrawDialogBox(IN OUT PXTBL_DIALOG_HANDLE Handle,
} }
/* Make sure there is a caption to print */ /* Make sure there is a caption to print */
if(Caption != NULL) if(Caption != NULLPTR)
{ {
/* Write dialog box caption */ /* Write dialog box caption */
BlSetCursorPosition(Handle->PosX + 3, Handle->PosY); BlSetCursorPosition(Handle->PosX + 3, Handle->PosY);
@@ -1382,7 +1382,7 @@ BlpDrawDialogBox(IN OUT PXTBL_DIALOG_HANDLE Handle,
} }
/* Make sure there is a message to print */ /* Make sure there is a message to print */
if(Message != NULL) if(Message != NULLPTR)
{ {
/* Write a message on the dialog box */ /* Write a message on the dialog box */
BlpDrawDialogMessage(Handle, Message); BlpDrawDialogMessage(Handle, Message);
@@ -1514,7 +1514,7 @@ BlpDrawDialogInputField(IN PXTBL_DIALOG_HANDLE Handle,
InputField[Index] = InputFieldText[Index]; InputField[Index] = InputFieldText[Index];
} }
/* Add null terminator to the end of the line */ /* Add NULL terminator to the end of the line */
InputField[Handle->Width] = 0; InputField[Handle->Width] = 0;
/* Write input field text */ /* Write input field text */
@@ -1592,7 +1592,7 @@ BlpDrawDialogMessage(IN PXTBL_DIALOG_HANDLE Handle,
} }
/* Get next line */ /* Get next line */
MsgLine = RtlTokenizeWideString(NULL, L"\n", &LastMsgLine); MsgLine = RtlTokenizeWideString(NULLPTR, L"\n", &LastMsgLine);
Line++; Line++;
} }
} }
@@ -1699,7 +1699,7 @@ BlpDrawEditMenu(OUT PXTBL_DIALOG_HANDLE Handle)
} }
/* Draw empty dialog box for boot menu */ /* Draw empty dialog box for boot menu */
BlpDrawDialogBox(Handle, L"Edit Options", NULL); BlpDrawDialogBox(Handle, L"Edit Options", NULLPTR);
/* Print help message below the edit menu */ /* Print help message below the edit menu */
BlSetCursorPosition(0, Handle->PosY + Handle->Height); BlSetCursorPosition(0, Handle->PosY + Handle->Height);
@@ -1748,7 +1748,7 @@ BlpDrawEditMenuEntry(IN PXTBL_DIALOG_HANDLE Handle,
Allocation = FALSE; Allocation = FALSE;
/* Set display value depending on input */ /* Set display value depending on input */
DisplayValue = (OptionValue != NULL) ? OptionValue : L""; DisplayValue = (OptionValue != NULLPTR) ? OptionValue : L"";
/* Determine lengths */ /* Determine lengths */
OptionNameLength = RtlWideStringLength(OptionName, 0); OptionNameLength = RtlWideStringLength(OptionName, 0);

54
xtldr/volume.c
View File

@@ -27,10 +27,10 @@ BlCloseVolume(IN PEFI_HANDLE VolumeHandle)
EFI_GUID LIPGuid = EFI_LOADED_IMAGE_PROTOCOL_GUID; EFI_GUID LIPGuid = EFI_LOADED_IMAGE_PROTOCOL_GUID;
/* Make sure a handle specified */ /* Make sure a handle specified */
if(VolumeHandle != NULL) if(VolumeHandle != NULLPTR)
{ {
/* Close a handle */ /* Close a handle */
return EfiSystemTable->BootServices->CloseProtocol(VolumeHandle, &LIPGuid, EfiImageHandle, NULL); return EfiSystemTable->BootServices->CloseProtocol(VolumeHandle, &LIPGuid, EfiImageHandle, NULLPTR);
} }
/* Return success */ /* Return success */
@@ -50,10 +50,10 @@ BlEnumerateBlockDevices()
{ {
EFI_GUID LoadedImageProtocolGuid = EFI_LOADED_IMAGE_PROTOCOL_GUID; EFI_GUID LoadedImageProtocolGuid = EFI_LOADED_IMAGE_PROTOCOL_GUID;
EFI_GUID BlockIoGuid = EFI_BLOCK_IO_PROTOCOL_GUID; EFI_GUID BlockIoGuid = EFI_BLOCK_IO_PROTOCOL_GUID;
EFI_HANDLE BootDeviceHandle = NULL, DeviceHandle = NULL; EFI_HANDLE BootDeviceHandle = NULLPTR, DeviceHandle = NULLPTR;
EFI_LOADED_IMAGE_PROTOCOL* LoadedImage; EFI_LOADED_IMAGE_PROTOCOL* LoadedImage;
PEFI_DEVICE_PATH_PROTOCOL DevicePath = NULL, LastNode = NULL; PEFI_DEVICE_PATH_PROTOCOL DevicePath = NULLPTR, LastNode = NULLPTR;
PEFI_BLOCK_DEVICE_DATA ParentNode = NULL; PEFI_BLOCK_DEVICE_DATA ParentNode = NULLPTR;
PEFI_BLOCK_DEVICE_DATA BlockDeviceData; PEFI_BLOCK_DEVICE_DATA BlockDeviceData;
PEFI_BLOCK_DEVICE BlockDevice; PEFI_BLOCK_DEVICE BlockDevice;
LIST_ENTRY BlockDevices; LIST_ENTRY BlockDevices;
@@ -97,7 +97,7 @@ BlEnumerateBlockDevices()
{ {
/* Get data for the next discovered device. */ /* Get data for the next discovered device. */
BlockDeviceData = CONTAIN_RECORD(ListEntry, EFI_BLOCK_DEVICE_DATA, ListEntry); BlockDeviceData = CONTAIN_RECORD(ListEntry, EFI_BLOCK_DEVICE_DATA, ListEntry);
PartitionGuid = NULL; PartitionGuid = NULLPTR;
/* Find last node */ /* Find last node */
Status = BlpFindLastBlockDeviceNode(BlockDeviceData->DevicePath, &LastNode); Status = BlpFindLastBlockDeviceNode(BlockDeviceData->DevicePath, &LastNode);
@@ -172,11 +172,11 @@ BlEnumerateBlockDevices()
PartitionGuid = (PEFI_GUID)HDPath->Signature; PartitionGuid = (PEFI_GUID)HDPath->Signature;
/* Check if this is the EFI System Partition (ESP) */ /* Check if this is the EFI System Partition (ESP) */
if(BootDeviceHandle != NULL) if(BootDeviceHandle != NULLPTR)
{ {
/* Allocate memory for device path */ /* Allocate memory for device path */
DevicePath = BlpDuplicateDevicePath(BlockDeviceData->DevicePath); DevicePath = BlpDuplicateDevicePath(BlockDeviceData->DevicePath);
if(DevicePath != NULL) if(DevicePath != NULLPTR)
{ {
/* Check if this is the boot device */ /* Check if this is the boot device */
Status = EfiSystemTable->BootServices->LocateDevicePath(&BlockIoGuid, &DevicePath, Status = EfiSystemTable->BootServices->LocateDevicePath(&BlockIoGuid, &DevicePath,
@@ -262,7 +262,7 @@ BlFindVolumeDevicePath(IN PEFI_DEVICE_PATH_PROTOCOL FsHandle,
{ {
EFI_STATUS Status; EFI_STATUS Status;
SIZE_T FsPathLength, DevicePathLength = 0; SIZE_T FsPathLength, DevicePathLength = 0;
PEFI_FILEPATH_DEVICE_PATH FilePath = NULL; PEFI_FILEPATH_DEVICE_PATH FilePath = NULLPTR;
PEFI_DEVICE_PATH_PROTOCOL EndDevicePath; PEFI_DEVICE_PATH_PROTOCOL EndDevicePath;
PEFI_DEVICE_PATH_PROTOCOL DevicePathHandle; PEFI_DEVICE_PATH_PROTOCOL DevicePathHandle;
@@ -405,7 +405,7 @@ BlGetVolumeDevicePath(IN PWCHAR SystemPath,
EFI_STATUS Status; EFI_STATUS Status;
/* Make sure this is not set */ /* Make sure this is not set */
*DevicePath = NULL; *DevicePath = NULLPTR;
/* Find volume path and its length */ /* Find volume path and its length */
Volume = SystemPath; Volume = SystemPath;
@@ -489,7 +489,7 @@ BlGetVolumeDevicePath(IN PWCHAR SystemPath,
} }
/* Check if volume was found */ /* Check if volume was found */
if(*DevicePath == NULL) if(*DevicePath == NULLPTR)
{ {
/* Volume not found */ /* Volume not found */
BlDebugPrint(L"ERROR: Volume (DriveType: %u, DriveNumber: %lu, PartNumber: %lu) not found\n", BlDebugPrint(L"ERROR: Volume (DriveType: %u, DriveNumber: %lu, PartNumber: %lu) not found\n",
@@ -530,7 +530,7 @@ BlOpenVolume(IN PEFI_DEVICE_PATH_PROTOCOL DevicePath,
EFI_STATUS Status; EFI_STATUS Status;
/* Check if device path has been passed or not */ /* Check if device path has been passed or not */
if(DevicePath != NULL) if(DevicePath != NULLPTR)
{ {
/* Locate the device path */ /* Locate the device path */
Status = EfiSystemTable->BootServices->LocateDevicePath(&SFSGuid, &DevicePath, DiskHandle); Status = EfiSystemTable->BootServices->LocateDevicePath(&SFSGuid, &DevicePath, DiskHandle);
@@ -544,7 +544,7 @@ BlOpenVolume(IN PEFI_DEVICE_PATH_PROTOCOL DevicePath,
{ {
/* Open the image protocol if no device path specified */ /* Open the image protocol if no device path specified */
Status = EfiSystemTable->BootServices->OpenProtocol(EfiImageHandle, &LIPGuid, (PVOID *)&ImageProtocol, Status = EfiSystemTable->BootServices->OpenProtocol(EfiImageHandle, &LIPGuid, (PVOID *)&ImageProtocol,
EfiImageHandle, NULL, EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL); EfiImageHandle, NULLPTR, EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Failed to open image protocol */ /* Failed to open image protocol */
@@ -557,7 +557,7 @@ BlOpenVolume(IN PEFI_DEVICE_PATH_PROTOCOL DevicePath,
/* Open the filesystem protocol */ /* Open the filesystem protocol */
Status = EfiSystemTable->BootServices->OpenProtocol(*DiskHandle, &SFSGuid, (PVOID *)&FileSystemProtocol, Status = EfiSystemTable->BootServices->OpenProtocol(*DiskHandle, &SFSGuid, (PVOID *)&FileSystemProtocol,
EfiImageHandle, NULL, EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL); EfiImageHandle, NULLPTR, EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL);
/* Check if filesystem protocol opened successfully */ /* Check if filesystem protocol opened successfully */
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
@@ -718,7 +718,7 @@ BlpDiscoverEfiBlockDevices(OUT PLIST_ENTRY BlockDevices)
PEFI_DEVICE_PATH_PROTOCOL DevicePath; PEFI_DEVICE_PATH_PROTOCOL DevicePath;
PEFI_BLOCK_DEVICE_DATA BlockDevice; PEFI_BLOCK_DEVICE_DATA BlockDevice;
UINT_PTR HandlesCount, Index; UINT_PTR HandlesCount, Index;
PEFI_HANDLE Handles = NULL; PEFI_HANDLE Handles = NULLPTR;
PEFI_BLOCK_IO_PROTOCOL Io; PEFI_BLOCK_IO_PROTOCOL Io;
EFI_STATUS Status; EFI_STATUS Status;
@@ -738,9 +738,9 @@ BlpDiscoverEfiBlockDevices(OUT PLIST_ENTRY BlockDevices)
BlDebugPrint(L"Opening %lu block device from %lu discovered\n", Index + 1, HandlesCount); BlDebugPrint(L"Opening %lu block device from %lu discovered\n", Index + 1, HandlesCount);
/* Open I/O protocol for given handle */ /* Open I/O protocol for given handle */
Io = NULL; Io = NULLPTR;
Status = BlOpenProtocolHandle(Handles[Index], (PVOID *)&Io, &IoGuid); Status = BlOpenProtocolHandle(Handles[Index], (PVOID *)&Io, &IoGuid);
if(Status != STATUS_EFI_SUCCESS || Io == NULL) if(Status != STATUS_EFI_SUCCESS || Io == NULLPTR)
{ {
/* Failed to open I/O protocol, skip it */ /* Failed to open I/O protocol, skip it */
BlDebugPrint(L"WARNING: Failed to open EFI Block I/O protocol (Status Code: 0x%zX)\n", Status); BlDebugPrint(L"WARNING: Failed to open EFI Block I/O protocol (Status Code: 0x%zX)\n", Status);
@@ -756,13 +756,13 @@ BlpDiscoverEfiBlockDevices(OUT PLIST_ENTRY BlockDevices)
} }
/* Check if DevicePath protocol is supported by this handle */ /* Check if DevicePath protocol is supported by this handle */
DevicePath = NULL; DevicePath = NULLPTR;
Status = EfiSystemTable->BootServices->HandleProtocol(Handles[Index], &DevicePathGuid, (PVOID *)&DevicePath); Status = EfiSystemTable->BootServices->HandleProtocol(Handles[Index], &DevicePathGuid, (PVOID *)&DevicePath);
if(Status != STATUS_EFI_SUCCESS || DevicePath == NULL) if(Status != STATUS_EFI_SUCCESS || DevicePath == NULLPTR)
{ {
/* Device failed to handle DP protocol */ /* Device failed to handle DP protocol */
BlDebugPrint(L"WARNING: Unable to open DevicePath protocol (Status Code: 0x%zX)\n", Status); BlDebugPrint(L"WARNING: Unable to open DevicePath protocol (Status Code: 0x%zX)\n", Status);
EfiSystemTable->BootServices->CloseProtocol(Handles[Index], &IoGuid, EfiImageHandle, NULL); EfiSystemTable->BootServices->CloseProtocol(Handles[Index], &IoGuid, EfiImageHandle, NULLPTR);
continue; continue;
} }
@@ -772,8 +772,8 @@ BlpDiscoverEfiBlockDevices(OUT PLIST_ENTRY BlockDevices)
{ {
/* Memory allocation failure */ /* Memory allocation failure */
BlDebugPrint(L"ERROR: Failed to allocate memory pool for block device (Status Code: 0x%zX)\n", Status); BlDebugPrint(L"ERROR: Failed to allocate memory pool for block device (Status Code: 0x%zX)\n", Status);
EfiSystemTable->BootServices->CloseProtocol(Handles[Index], &DevicePathGuid, EfiImageHandle, NULL); EfiSystemTable->BootServices->CloseProtocol(Handles[Index], &DevicePathGuid, EfiImageHandle, NULLPTR);
EfiSystemTable->BootServices->CloseProtocol(Handles[Index], &IoGuid, EfiImageHandle, NULL); EfiSystemTable->BootServices->CloseProtocol(Handles[Index], &IoGuid, EfiImageHandle, NULLPTR);
return Status; return Status;
} }
@@ -983,11 +983,11 @@ BlpDuplicateDevicePath(IN PEFI_DEVICE_PATH_PROTOCOL DevicePath)
EFI_STATUS Status; EFI_STATUS Status;
UINT Length = 0; UINT Length = 0;
/* Check if the input device path is NULL */ /* Check if the input device path is NULL pointer */
if(!DevicePath) if(!DevicePath)
{ {
/* Nothing to duplicate */ /* Nothing to duplicate */
return NULL; return NULLPTR;
} }
/* Start iterating from the beginning of the device path */ /* Start iterating from the beginning of the device path */
@@ -1008,7 +1008,7 @@ BlpDuplicateDevicePath(IN PEFI_DEVICE_PATH_PROTOCOL DevicePath)
if(Length == 0) if(Length == 0)
{ {
/* Nothing to duplicate */ /* Nothing to duplicate */
return NULL; return NULLPTR;
} }
/* Allocate memory for the new device path */ /* Allocate memory for the new device path */
@@ -1017,7 +1017,7 @@ BlpDuplicateDevicePath(IN PEFI_DEVICE_PATH_PROTOCOL DevicePath)
{ {
/* Failed to allocate memory */ /* Failed to allocate memory */
BlDebugPrint(L"ERROR: Failed to allocate memory pool for device path duplicate (Status Code: 0x%zX)\n", Status); BlDebugPrint(L"ERROR: Failed to allocate memory pool for device path duplicate (Status Code: 0x%zX)\n", Status);
return NULL; return NULLPTR;
} }
/* Copy the device path */ /* Copy the device path */
@@ -1051,7 +1051,7 @@ BlpFindLastBlockDeviceNode(IN PEFI_DEVICE_PATH_PROTOCOL DevicePath,
if(DevicePath->Type == EFI_END_DEVICE_PATH) if(DevicePath->Type == EFI_END_DEVICE_PATH)
{ {
/* End reached, nothing to do */ /* End reached, nothing to do */
LastNode = NULL; LastNode = NULLPTR;
return STATUS_EFI_INVALID_PARAMETER; return STATUS_EFI_INVALID_PARAMETER;
} }

8
xtldr/xtldr.c
View File

@@ -146,7 +146,7 @@ BlInitializeBootMenuList(IN ULONG MaxNameLength,
while(MenuEntrySectionList != BlpMenuList) while(MenuEntrySectionList != BlpMenuList)
{ {
/* NULLify menu entry name */ /* NULLify menu entry name */
MenuEntryName = NULL; MenuEntryName = NULLPTR;
/* Get menu section */ /* Get menu section */
MenuEntrySection = CONTAIN_RECORD(MenuEntrySectionList, XTBL_CONFIG_SECTION, Flink); MenuEntrySection = CONTAIN_RECORD(MenuEntrySectionList, XTBL_CONFIG_SECTION, Flink);
@@ -253,7 +253,7 @@ BlInvokeBootProtocol(IN PWCHAR ShortName,
/* Initialize boot parameters and a list of modules */ /* Initialize boot parameters and a list of modules */
RtlZeroMemory(&BootParameters, sizeof(XTBL_BOOT_PARAMETERS)); RtlZeroMemory(&BootParameters, sizeof(XTBL_BOOT_PARAMETERS));
ModulesList = NULL; ModulesList = NULLPTR;
/* Iterate through all options provided by boot menu entry and propagate boot parameters */ /* Iterate through all options provided by boot menu entry and propagate boot parameters */
OptionsListEntry = OptionsList->Flink; OptionsListEntry = OptionsList->Flink;
@@ -440,7 +440,7 @@ BlStartXtLoader(IN EFI_HANDLE ImageHandle,
} }
/* Disable watchdog timer */ /* Disable watchdog timer */
Status = EfiSystemTable->BootServices->SetWatchdogTimer(0, 0x10000, 0, NULL); Status = EfiSystemTable->BootServices->SetWatchdogTimer(0, 0x10000, 0, NULLPTR);
if(Status != STATUS_EFI_SUCCESS) if(Status != STATUS_EFI_SUCCESS)
{ {
/* Failed to disable the timer, print message */ /* Failed to disable the timer, print message */
@@ -479,7 +479,7 @@ BlStartXtLoader(IN EFI_HANDLE ImageHandle,
while(TRUE) while(TRUE)
{ {
/* Check if custom boot menu registered */ /* Check if custom boot menu registered */
if(BlpStatus.BootMenu != NULL) if(BlpStatus.BootMenu != NULLPTR)
{ {
/* Display alternative boot menu */ /* Display alternative boot menu */
BlpStatus.BootMenu(); BlpStatus.BootMenu();

2
xtoskrnl/ar/amd64/cpufunc.cc
View File

@@ -709,7 +709,7 @@ AR::CpuFunc::StoreSegment(IN USHORT Segment,
: "=r" (*(PUINT)Destination)); : "=r" (*(PUINT)Destination));
break; break;
default: default:
Destination = NULL; Destination = NULLPTR;
break; break;
} }
} }

2
xtoskrnl/ar/amd64/procsup.cc
View File

@@ -307,7 +307,7 @@ AR::ProcSup::InitializeProcessorBlock(OUT PKPROCESSOR_BLOCK ProcessorBlock,
ProcessorBlock->Prcb.CurrentThread = &(KE::KThread::GetInitialThread())->ThreadControlBlock; ProcessorBlock->Prcb.CurrentThread = &(KE::KThread::GetInitialThread())->ThreadControlBlock;
ProcessorBlock->Prcb.CurrentThread->ApcState.Process = &(KE::KProcess::GetInitialProcess())->ProcessControlBlock; ProcessorBlock->Prcb.CurrentThread->ApcState.Process = &(KE::KProcess::GetInitialProcess())->ProcessControlBlock;
ProcessorBlock->Prcb.IdleThread = &(KE::KThread::GetInitialThread())->ThreadControlBlock; ProcessorBlock->Prcb.IdleThread = &(KE::KThread::GetInitialThread())->ThreadControlBlock;
ProcessorBlock->Prcb.NextThread = nullptr; ProcessorBlock->Prcb.NextThread = NULLPTR;
/* Set initial MXCSR register value */ /* Set initial MXCSR register value */
ProcessorBlock->Prcb.MxCsr = INITIAL_MXCSR; ProcessorBlock->Prcb.MxCsr = INITIAL_MXCSR;

2
xtoskrnl/ar/i686/cpufunc.cc
View File

@@ -679,7 +679,7 @@ AR::CpuFunc::StoreSegment(IN USHORT Segment,
: "=r" (*(PUINT)Destination)); : "=r" (*(PUINT)Destination));
break; break;
default: default:
Destination = NULL; Destination = NULLPTR;
break; break;
} }
} }

2
xtoskrnl/ar/i686/procsup.cc
View File

@@ -304,7 +304,7 @@ AR::ProcSup::InitializeProcessorBlock(OUT PKPROCESSOR_BLOCK ProcessorBlock,
ProcessorBlock->Prcb.CurrentThread = &(KE::KThread::GetInitialThread())->ThreadControlBlock; ProcessorBlock->Prcb.CurrentThread = &(KE::KThread::GetInitialThread())->ThreadControlBlock;
ProcessorBlock->Prcb.CurrentThread->ApcState.Process = &(KE::KProcess::GetInitialProcess())->ProcessControlBlock; ProcessorBlock->Prcb.CurrentThread->ApcState.Process = &(KE::KProcess::GetInitialProcess())->ProcessControlBlock;
ProcessorBlock->Prcb.IdleThread = &(KE::KThread::GetInitialThread())->ThreadControlBlock; ProcessorBlock->Prcb.IdleThread = &(KE::KThread::GetInitialThread())->ThreadControlBlock;
ProcessorBlock->Prcb.NextThread = nullptr; ProcessorBlock->Prcb.NextThread = NULLPTR;
/* Set initial runlevel */ /* Set initial runlevel */
ProcessorBlock->RunLevel = PASSIVE_LEVEL; ProcessorBlock->RunLevel = PASSIVE_LEVEL;

2
xtoskrnl/ex/rundown.cc
View File

@@ -106,7 +106,7 @@ XTFASTCALL
VOID VOID
EX::Rundown::ReInitializeProtection(IN PEX_RUNDOWN_REFERENCE Descriptor) EX::Rundown::ReInitializeProtection(IN PEX_RUNDOWN_REFERENCE Descriptor)
{ {
RTL::Atomic::ExchangePointer(&Descriptor->Ptr, NULL); RTL::Atomic::ExchangePointer(&Descriptor->Ptr, NULLPTR);
} }
/** /**

18
xtoskrnl/hl/acpi.cc
View File

@@ -71,7 +71,7 @@ HL::Acpi::GetAcpiTable(IN ULONG Signature,
XTSTATUS Status; XTSTATUS Status;
/* Assume ACPI table not found */ /* Assume ACPI table not found */
*AcpiTable = nullptr; *AcpiTable = NULLPTR;
/* Attempt to get ACPI table from the cache */ /* Attempt to get ACPI table from the cache */
Status = QueryAcpiCache(Signature, &Table); Status = QueryAcpiCache(Signature, &Table);
@@ -182,7 +182,7 @@ HL::Acpi::InitializeAcpiSystemDescriptionTable(OUT PACPI_DESCRIPTION_HEADER *Acp
XTSTATUS Status; XTSTATUS Status;
/* Assume ACPI table not found */ /* Assume ACPI table not found */
*AcpiTable = nullptr; *AcpiTable = NULLPTR;
/* Get ACPI system resource */ /* Get ACPI system resource */
Status = KeGetSystemResource(SystemResourceAcpi, &ResourceHeader); Status = KeGetSystemResource(SystemResourceAcpi, &ResourceHeader);
@@ -512,7 +512,7 @@ HL::Acpi::QueryAcpiCache(IN ULONG Signature,
PLIST_ENTRY ListEntry; PLIST_ENTRY ListEntry;
/* Initialize variables */ /* Initialize variables */
TableHeader = nullptr; TableHeader = NULLPTR;
/* Iterate through ACPI tables cache list */ /* Iterate through ACPI tables cache list */
ListEntry = CacheList.Flink; ListEntry = CacheList.Flink;
@@ -534,7 +534,7 @@ HL::Acpi::QueryAcpiCache(IN ULONG Signature,
} }
/* Check if the requested ACPI table was found in the cache */ /* Check if the requested ACPI table was found in the cache */
if(TableHeader == NULL) if(TableHeader == NULLPTR)
{ {
/* ACPI table not found in cache, return error */ /* ACPI table not found in cache, return error */
return STATUS_NOT_FOUND; return STATUS_NOT_FOUND;
@@ -580,7 +580,7 @@ HL::Acpi::QueryAcpiTables(IN ULONG Signature,
} }
/* Ensure that table header is not set before attempting to find ACPI table */ /* Ensure that table header is not set before attempting to find ACPI table */
TableHeader = nullptr; TableHeader = NULLPTR;
/* Check if DSDT or FACS table requested */ /* Check if DSDT or FACS table requested */
if(Signature == ACPI_DSDT_SIGNATURE || Signature == ACPI_FACS_SIGNATURE) if(Signature == ACPI_DSDT_SIGNATURE || Signature == ACPI_FACS_SIGNATURE)
@@ -634,7 +634,7 @@ HL::Acpi::QueryAcpiTables(IN ULONG Signature,
} }
/* Get table count depending on root table type */ /* Get table count depending on root table type */
if(Xsdt != NULL) if(Xsdt != NULLPTR)
{ {
/* Get table count from XSDT */ /* Get table count from XSDT */
TableCount = (Xsdt->Header.Length - sizeof(ACPI_DESCRIPTION_HEADER)) / 8; TableCount = (Xsdt->Header.Length - sizeof(ACPI_DESCRIPTION_HEADER)) / 8;
@@ -649,7 +649,7 @@ HL::Acpi::QueryAcpiTables(IN ULONG Signature,
for(TableIndex = 0; TableIndex < TableCount; TableIndex++) for(TableIndex = 0; TableIndex < TableCount; TableIndex++)
{ {
/* Check if XSDP or RSDT is used */ /* Check if XSDP or RSDT is used */
if(Xsdt != NULL) if(Xsdt != NULLPTR)
{ {
/* Get table header physical address from XSDT */ /* Get table header physical address from XSDT */
TableAddress.QuadPart = Xsdt->Tables[TableIndex]; TableAddress.QuadPart = Xsdt->Tables[TableIndex];
@@ -662,7 +662,7 @@ HL::Acpi::QueryAcpiTables(IN ULONG Signature,
} }
/* Check whether some table is already mapped */ /* Check whether some table is already mapped */
if(TableHeader != NULL) if(TableHeader != NULLPTR)
{ {
/* Unmap previous table */ /* Unmap previous table */
MM::HardwarePool::UnmapHardwareMemory(TableHeader, 2, TRUE); MM::HardwarePool::UnmapHardwareMemory(TableHeader, 2, TRUE);
@@ -689,7 +689,7 @@ HL::Acpi::QueryAcpiTables(IN ULONG Signature,
if(TableHeader->Signature != Signature) if(TableHeader->Signature != Signature)
{ {
/* ACPI table not found, check if cleanup is needed */ /* ACPI table not found, check if cleanup is needed */
if(TableHeader != NULL) if(TableHeader != NULLPTR)
{ {
/* Unmap non-matching ACPI table */ /* Unmap non-matching ACPI table */
MM::HardwarePool::UnmapHardwareMemory(TableHeader, 2, TRUE); MM::HardwarePool::UnmapHardwareMemory(TableHeader, 2, TRUE);

2
xtoskrnl/kd/data.cc
View File

@@ -19,7 +19,7 @@ PKD_INIT_ROUTINE KD::DebugIo::IoProvidersInitRoutines[KDBG_PROVIDERS_COUNT] = {
}; };
/* Pointer to DbgPrint() routine */ /* Pointer to DbgPrint() routine */
PKD_PRINT_ROUTINE KD::DebugIo::KdPrint = nullptr; PKD_PRINT_ROUTINE KD::DebugIo::KdPrint = NULLPTR;
/* List of active I/O providers */ /* List of active I/O providers */
LIST_ENTRY KD::DebugIo::Providers; LIST_ENTRY KD::DebugIo::Providers;

3
xtoskrnl/ke/amd64/krnlinit.cc
View File

@@ -99,7 +99,8 @@ KE::KernelInit::StartKernel(VOID)
CurrentProcess->Quantum = MAXCHAR; CurrentProcess->Quantum = MAXCHAR;
/* Initialize Idle thread */ /* Initialize Idle thread */
KThread::InitializeThread(CurrentProcess, CurrentThread, nullptr, nullptr, nullptr, nullptr, nullptr, AR::ProcSup::GetBootStack(), TRUE); KThread::InitializeThread(CurrentProcess, CurrentThread, NULLPTR, NULLPTR, NULLPTR,
NULLPTR, NULLPTR, AR::ProcSup::GetBootStack(), TRUE);
CurrentThread->NextProcessor = Prcb->CpuNumber; CurrentThread->NextProcessor = Prcb->CpuNumber;
CurrentThread->Priority = THREAD_HIGH_PRIORITY; CurrentThread->Priority = THREAD_HIGH_PRIORITY;
CurrentThread->State = Running; CurrentThread->State = Running;

2
xtoskrnl/ke/amd64/kthread.cc
View File

@@ -99,7 +99,7 @@ KE::KThread::InitializeThreadContext(IN PKTHREAD Thread,
Thread->NpxState = NPX_STATE_UNUSED; Thread->NpxState = NPX_STATE_UNUSED;
/* Set thread start address */ /* Set thread start address */
ThreadFrame->StartFrame.Return = (ULONG64)NULL; ThreadFrame->StartFrame.Return = (ULONG64)NULLPTR;
} }
/* Initialize thread startup information */ /* Initialize thread startup information */

2
xtoskrnl/ke/apc.cc
View File

@@ -83,7 +83,7 @@ KE::Apc::InitializeApc(IN PKAPC Apc,
{ {
/* Set context and mode for special APC */ /* Set context and mode for special APC */
Apc->ApcMode = KernelMode; Apc->ApcMode = KernelMode;
Apc->NormalContext = NULL; Apc->NormalContext = NULLPTR;
} }
/* Mark APC as not inserted yet */ /* Mark APC as not inserted yet */

4
xtoskrnl/ke/bootinfo.cc
View File

@@ -44,7 +44,7 @@ KE::BootInformation::GetFirmwareType(VOID)
* Supplies a pointer to a null-terminated wide string specifying the name of the parameter to search for. * Supplies a pointer to a null-terminated wide string specifying the name of the parameter to search for.
* *
* @param Parameter * @param Parameter
* Supplies a pointer to a variable that receives a pointer to the matching parameter, or NULL if not found. * Supplies a pointer to a variable that receives a pointer to the matching parameter, or NULLPTR if not found.
* *
* @return This routine returns a status code. * @return This routine returns a status code.
* *
@@ -74,7 +74,7 @@ KE::BootInformation::GetKernelParameter(IN PCWSTR ParameterName,
} }
/* Assume the requested parameter is not present in the kernel parameters */ /* Assume the requested parameter is not present in the kernel parameters */
*Parameter = nullptr; *Parameter = NULLPTR;
/* Start searching from the beginning of the list */ /* Start searching from the beginning of the list */
SearchStart = InitializationBlock->KernelParameters; SearchStart = InitializationBlock->KernelParameters;

4
xtoskrnl/ke/dpc.cc
View File

@@ -39,7 +39,7 @@ KE::Dpc::InitializeDpc(IN PKDPC Dpc,
/* Initialize DPC routine and context data */ /* Initialize DPC routine and context data */
Dpc->DeferredContext = DpcContext; Dpc->DeferredContext = DpcContext;
Dpc->DeferredRoutine = DpcRoutine; Dpc->DeferredRoutine = DpcRoutine;
Dpc->DpcData = NULL; Dpc->DpcData = NULLPTR;
} }
/** /**
@@ -72,7 +72,7 @@ KE::Dpc::InitializeThreadedDpc(IN PKDPC Dpc,
/* Initialize DPC routine and context data */ /* Initialize DPC routine and context data */
Dpc->DeferredContext = DpcContext; Dpc->DeferredContext = DpcContext;
Dpc->DeferredRoutine = DpcRoutine; Dpc->DeferredRoutine = DpcRoutine;
Dpc->DpcData = NULL; Dpc->DpcData = NULLPTR;
} }
/** /**

3
xtoskrnl/ke/i686/krnlinit.cc
View File

@@ -99,7 +99,8 @@ KE::KernelInit::StartKernel(VOID)
CurrentProcess->Quantum = MAXCHAR; CurrentProcess->Quantum = MAXCHAR;
/* Initialize Idle thread */ /* Initialize Idle thread */
KThread::InitializeThread(CurrentProcess, CurrentThread, nullptr, nullptr, nullptr, nullptr, nullptr, AR::ProcSup::GetBootStack(), TRUE); KThread::InitializeThread(CurrentProcess, CurrentThread, NULLPTR, NULLPTR, NULLPTR,
NULLPTR, NULLPTR, AR::ProcSup::GetBootStack(), TRUE);
CurrentThread->NextProcessor = Prcb->CpuNumber; CurrentThread->NextProcessor = Prcb->CpuNumber;
CurrentThread->Priority = THREAD_HIGH_PRIORITY; CurrentThread->Priority = THREAD_HIGH_PRIORITY;
CurrentThread->State = Running; CurrentThread->State = Running;

2
xtoskrnl/ke/krnlinit.cc
View File

@@ -47,7 +47,7 @@ KeStartXtSystem(IN PKERNEL_INITIALIZATION_BLOCK Parameters)
} }
/* Initialize boot CPU */ /* Initialize boot CPU */
AR::ProcSup::InitializeProcessor(NULL); AR::ProcSup::InitializeProcessor(NULLPTR);
/* Initialize system resources */ /* Initialize system resources */
SystemResources::InitializeResources(); SystemResources::InitializeResources();

6
xtoskrnl/ke/kthread.cc
View File

@@ -131,7 +131,7 @@ KE::KThread::InitializeThread(IN PKPROCESS Process,
/* Initialize kernel-mode suspend APC */ /* Initialize kernel-mode suspend APC */
Apc::InitializeApc(&Thread->SuspendApc, Thread, OriginalApcEnvironment, SuspendNop, Apc::InitializeApc(&Thread->SuspendApc, Thread, OriginalApcEnvironment, SuspendNop,
SuspendRundown, SuspendThread, KernelMode, NULL); SuspendRundown, SuspendThread, KernelMode, NULLPTR);
/* Initialize suspend semaphore */ /* Initialize suspend semaphore */
Semaphore::InitializeSemaphore(&Thread->SuspendSemaphore, 0, 2); Semaphore::InitializeSemaphore(&Thread->SuspendSemaphore, 0, 2);
@@ -179,8 +179,8 @@ KE::KThread::InitializeThread(IN PKPROCESS Process,
{ {
/* Deallocate stack */ /* Deallocate stack */
MM::KernelPool::FreeKernelStack(Stack, FALSE); MM::KernelPool::FreeKernelStack(Stack, FALSE);
Thread->InitialStack = NULL; Thread->InitialStack = NULLPTR;
Thread->StackBase = NULL; Thread->StackBase = NULLPTR;
} }
/* Thread initialization failed */ /* Thread initialization failed */

4
xtoskrnl/ke/sysres.cc
View File

@@ -104,8 +104,8 @@ KE::SystemResources::GetSystemResource(IN SYSTEM_RESOURCE_TYPE ResourceType,
/* Check if resource was found */ /* Check if resource was found */
if(ListEntry == &ResourcesListHead) if(ListEntry == &ResourcesListHead)
{ {
/* Resource not found, return NULL */ /* Resource not found, return NULLPTR */
Resource = nullptr; Resource = NULLPTR;
Status = STATUS_NOT_FOUND; Status = STATUS_NOT_FOUND;
} }

2
xtoskrnl/mm/amd64/pagemap.cc
View File

@@ -36,7 +36,7 @@ MM::PageMap::ClearPte(PHARDWARE_PTE PtePointer)
* @param Address * @param Address
* Specifies the virtual address for which to retrieve the corresponding P5E. * Specifies the virtual address for which to retrieve the corresponding P5E.
* *
* @return This routine returns the address of the P5E, or NULL if LA57 is not enabled. * @return This routine returns the address of the P5E, or NULLPTR if LA57 is not enabled.
* *
* @since XT 1.0 * @since XT 1.0
*/ */

4
xtoskrnl/mm/hlpool.cc
View File

@@ -176,13 +176,13 @@ MM::HardwarePool::MapHardwareMemory(IN PHYSICAL_ADDRESS PhysicalAddress,
BaseAddress = HardwareHeapStart; BaseAddress = HardwareHeapStart;
MappedPages = 0; MappedPages = 0;
ReturnAddress = BaseAddress; ReturnAddress = BaseAddress;
*VirtualAddress = NULL; *VirtualAddress = NULLPTR;
/* Iterate through all pages */ /* Iterate through all pages */
while(MappedPages < PageCount) while(MappedPages < PageCount)
{ {
/* Check if address overflows */ /* Check if address overflows */
if(BaseAddress == NULL) if(BaseAddress == NULLPTR)
{ {
/* Not enough free pages, return error */ /* Not enough free pages, return error */
return STATUS_INSUFFICIENT_RESOURCES; return STATUS_INSUFFICIENT_RESOURCES;

10
xtoskrnl/rtl/atomic.cc
View File

@@ -524,7 +524,7 @@ RTL::Atomic::ExchangePointer(IN PVOID *Address,
* @param Header * @param Header
* Supplies a pointer to the header of linked list. * Supplies a pointer to the header of linked list.
* *
* @return This routine returns a pointer to the original list, or NULL if the list was already empty. * @return This routine returns a pointer to the original list, or NULLPTR if the list was already empty.
* *
* @since XT 1.0 * @since XT 1.0
*/ */
@@ -532,7 +532,7 @@ XTFASTCALL
PSINGLE_LIST_ENTRY PSINGLE_LIST_ENTRY
RTL::Atomic::FlushSingleList(IN PSINGLE_LIST_HEADER Header) RTL::Atomic::FlushSingleList(IN PSINGLE_LIST_HEADER Header)
{ {
return (PSINGLE_LIST_ENTRY)Exchange64((PLONG_PTR)&Header->Alignment, (LONGLONG)NULL); return (PSINGLE_LIST_ENTRY)Exchange64((PLONG_PTR)&Header->Alignment, (LONGLONG)NULLPTR);
} }
/** /**
@@ -693,7 +693,7 @@ RTL::Atomic::Or64(IN PLONG_PTR Address,
* @param Header * @param Header
* Supplies a pointer to the header of a single linked list. * Supplies a pointer to the header of a single linked list.
* *
* @return This routine returns a pointer to the removed element, or NULL if the list was empty. * @return This routine returns a pointer to the removed element, or NULLPTR if the list was empty.
* *
* @since XT 1.0 * @since XT 1.0
*/ */
@@ -712,7 +712,7 @@ RTL::Atomic::PopEntrySingleList(IN PSINGLE_LIST_HEADER Header)
if(!FirstEntry) if(!FirstEntry)
{ {
/* Empty list */ /* Empty list */
return nullptr; return NULLPTR;
} }
/* Update link */ /* Update link */
@@ -737,7 +737,7 @@ RTL::Atomic::PopEntrySingleList(IN PSINGLE_LIST_HEADER Header)
* @param Entry * @param Entry
* Supplies a pointer to entry, that will be inserted into linked list. * Supplies a pointer to entry, that will be inserted into linked list.
* *
* @return This routine returns a pointer to original heading, or NULL if the list was originally empty. * @return This routine returns a pointer to original heading, or NULLPTR if the list was originally empty.
* *
* @since XT 1.0 * @since XT 1.0
*/ */

42
xtoskrnl/rtl/exports.cc
View File

@@ -256,10 +256,10 @@ RtlCompareWideStringInsensitive(IN PCWSTR String1,
* Appends a copy of the source string to the end of the destination string. * Appends a copy of the source string to the end of the destination string.
* *
* @param Destination * @param Destination
* Supplies a pointer to the null-terminated string to append to. * Supplies a pointer to the NULL-terminated string to append to.
* *
* @param Source * @param Source
* Supplies a pointer to the null-terminated string to copy from. * Supplies a pointer to the NULL-terminated string to copy from.
* *
* @param Count * @param Count
* Sets a maximum number of characters to copy. If no limit set, appends whole string. * Sets a maximum number of characters to copy. If no limit set, appends whole string.
@@ -282,10 +282,10 @@ RtlConcatenateString(OUT PCHAR Destination,
* Appends a copy of the source wide string to the end of the destination wide string. * Appends a copy of the source wide string to the end of the destination wide string.
* *
* @param Destination * @param Destination
* Supplies a pointer to the null-terminated wide string to append to. * Supplies a pointer to the NULL-terminated wide string to append to.
* *
* @param Source * @param Source
* Supplies a pointer to the null-terminated wide string to copy from. * Supplies a pointer to the NULL-terminated wide string to copy from.
* *
* @param Count * @param Count
* Sets a maximum number of wide characters to copy. If no limit set, appends whole wide string. * Sets a maximum number of wide characters to copy. If no limit set, appends whole wide string.
@@ -967,12 +967,12 @@ RtlSetMemory(OUT PVOID Destination,
* Calculates the length of a given string. * Calculates the length of a given string.
* *
* @param String * @param String
* Pointer to the null-terminated string to be examined. * Pointer to the NULL-terminated string to be examined.
* *
* @param MaxLength * @param MaxLength
* Maximum number of characters to examine. If no limit set, it examines whole string. * Maximum number of characters to examine. If no limit set, it examines whole string.
* *
* @return The length of the null-terminated string. * @return The length of the NULL-terminated string.
* *
* @since: XT 1.0 * @since: XT 1.0
*/ */
@@ -1034,13 +1034,13 @@ RtlTestBit(IN PRTL_BITMAP BitMap,
} }
/** /**
* Finds the next token in a null-terminated string. * Finds the next token in a NULL-terminated string.
* *
* @param String * @param String
* Pointer to the null-terminated string to tokenize. * Pointer to the NULL-terminated string to tokenize.
* *
* @param Delimiter * @param Delimiter
* Pointer to the null-terminated string identifying delimiters. * Pointer to the NULL-terminated string identifying delimiters.
* *
* @param SavePtr * @param SavePtr
* Pointer to an object used to store routine internal state. * Pointer to an object used to store routine internal state.
@@ -1060,18 +1060,18 @@ RtlTokenizeString(IN PCHAR String,
} }
/** /**
* Finds the next token in a null-terminated wide string. * Finds the next token in a NULL-terminated wide string.
* *
* @param String * @param String
* Pointer to the null-terminated wide string to tokenize. * Pointer to the NULL-terminated wide string to tokenize.
* *
* @param Delimiter * @param Delimiter
* Pointer to the null-terminated wide string identifying delimiters. * Pointer to the NULL-terminated wide string identifying delimiters.
* *
* @param SavePtr * @param SavePtr
* Pointer to an object used to store routine internal state. * Pointer to an object used to store routine internal state.
* *
* @return Pointer to the beginning of the next token or NULL if there are no more tokens. * @return Pointer to the beginning of the next token or NULLPTR if there are no more tokens.
* *
* @since: XT 1.0 * @since: XT 1.0
*/ */
@@ -1161,7 +1161,7 @@ RtlToUpperWideCharacter(IN WCHAR Character)
* Removes certain characters from a beginning of the string. * Removes certain characters from a beginning of the string.
* *
* @param String * @param String
* Pointer to the null-terminated string to be trimmed. * Pointer to the NULL-terminated string to be trimmed.
* *
* @return This routine returns a pointer to the left-trimmed string. * @return This routine returns a pointer to the left-trimmed string.
* *
@@ -1179,7 +1179,7 @@ RtlTrimLeftString(IN PCHAR String)
* Removes certain characters from a beginning of the wide string. * Removes certain characters from a beginning of the wide string.
* *
* @param String * @param String
* Pointer to the null-terminated wide string to be trimmed. * Pointer to the NULL-terminated wide string to be trimmed.
* *
* @return This routine returns a pointer to the left-trimmed wide string. * @return This routine returns a pointer to the left-trimmed wide string.
* *
@@ -1197,7 +1197,7 @@ RtlTrimLeftWideString(IN PWCHAR String)
* Removes certain characters from the end of the string. * Removes certain characters from the end of the string.
* *
* @param String * @param String
* Pointer to the null-terminated string to be trimmed. * Pointer to the NULL-terminated string to be trimmed.
* *
* @return This routine returns a pointer to the right-trimmed string. * @return This routine returns a pointer to the right-trimmed string.
* *
@@ -1215,7 +1215,7 @@ RtlTrimRightString(IN PCHAR String)
* Removes certain characters from the end of the wide string. * Removes certain characters from the end of the wide string.
* *
* @param String * @param String
* Pointer to the null-terminated wide string to be trimmed. * Pointer to the NULL-terminated wide string to be trimmed.
* *
* @return This routine returns a pointer to the right-trimmed wide string. * @return This routine returns a pointer to the right-trimmed wide string.
* *
@@ -1233,7 +1233,7 @@ RtlTrimRightWideString(IN PWCHAR String)
* Removes certain characters from the beginning and the end of the string. * Removes certain characters from the beginning and the end of the string.
* *
* @param String * @param String
* Pointer to the null-terminated string to be trimmed. * Pointer to the NULL-terminated string to be trimmed.
* *
* @return This routine returns a pointer to the trimmed string. * @return This routine returns a pointer to the trimmed string.
* *
@@ -1251,7 +1251,7 @@ RtlTrimString(IN PCHAR String)
* Removes certain characters from the beginning and the end of the wide string. * Removes certain characters from the beginning and the end of the wide string.
* *
* @param String * @param String
* Pointer to the null-terminated wide string to be trimmed. * Pointer to the NULL-terminated wide string to be trimmed.
* *
* @return This routine returns a pointer to the trimmed wide string. * @return This routine returns a pointer to the trimmed wide string.
* *
@@ -1269,12 +1269,12 @@ RtlTrimWideString(IN PWCHAR String)
* Calculates the length of a given wide string. * Calculates the length of a given wide string.
* *
* @param String * @param String
* Pointer to the null-terminated wide string to be examined. * Pointer to the NULL-terminated wide string to be examined.
* *
* @param MaxLength * @param MaxLength
* Maximum number of wide characters to examine. If no limit set, it examines whole string. * Maximum number of wide characters to examine. If no limit set, it examines whole string.
* *
* @return The length of the null-terminated wide string. * @return The length of the NULL-terminated wide string.
* *
* @since: XT 1.0 * @since: XT 1.0
*/ */

6
xtoskrnl/rtl/llist.cc
View File

@@ -107,7 +107,7 @@ XTCDECL
BOOLEAN BOOLEAN
RTL::LinkedList::ListEmpty(IN PLIST_ENTRY ListHead) RTL::LinkedList::ListEmpty(IN PLIST_ENTRY ListHead)
{ {
return (BOOLEAN)(((ListHead->Flink == NULL) && (ListHead->Blink == NULL)) || (ListHead->Flink == ListHead)); return (BOOLEAN)(((ListHead->Flink == NULLPTR) && (ListHead->Blink == NULLPTR)) || (ListHead->Flink == ListHead));
} }
/** /**
@@ -127,7 +127,7 @@ RTL::LinkedList::ListLoop(IN PLIST_ENTRY ListHead)
PLIST_ENTRY SlowEntry, FastEntry; PLIST_ENTRY SlowEntry, FastEntry;
/* Check if list exists */ /* Check if list exists */
if(ListHead == NULL) if(ListHead == NULLPTR)
{ {
/* No loop in non-existen list */ /* No loop in non-existen list */
return FALSE; return FALSE;
@@ -138,7 +138,7 @@ RTL::LinkedList::ListLoop(IN PLIST_ENTRY ListHead)
SlowEntry = ListHead; SlowEntry = ListHead;
/* Iterate through the linked list to find a loop */ /* Iterate through the linked list to find a loop */
while(SlowEntry != NULL && FastEntry != NULL && FastEntry->Flink != NULL) while(SlowEntry != NULLPTR && FastEntry != NULLPTR && FastEntry->Flink != NULLPTR)
{ {
/* Move slow and fast pointers by one and two positions accordingly */ /* Move slow and fast pointers by one and two positions accordingly */
SlowEntry = SlowEntry->Flink; SlowEntry = SlowEntry->Flink;

16
xtoskrnl/rtl/math.cc
View File

@@ -193,7 +193,7 @@ RTL::Math::Divide64(IN LONGLONG Dividend,
/* Calculate the quotient */ /* Calculate the quotient */
DividendSign ^= DivisorSign; DividendSign ^= DivisorSign;
Quotient = (DivideUnsigned64(UDividend, UDivisor, nullptr) ^ DividendSign) - DividendSign; Quotient = (DivideUnsigned64(UDividend, UDivisor, NULLPTR) ^ DividendSign) - DividendSign;
/* Make sure a pointer to remainder provided */ /* Make sure a pointer to remainder provided */
if(Remainder) if(Remainder)
@@ -284,7 +284,7 @@ RTL::Math::DivideUnsigned64(IN ULONGLONG Dividend,
if(DivisorParts.u.HighPart == 0) if(DivisorParts.u.HighPart == 0)
{ {
/* 32-bit divide operation, check if remainder provided */ /* 32-bit divide operation, check if remainder provided */
if(Remainder != NULL) if(Remainder != NULLPTR)
{ {
/* Calculate remainder */ /* Calculate remainder */
*Remainder = DividendParts.u.LowPart % DivisorParts.u.LowPart; *Remainder = DividendParts.u.LowPart % DivisorParts.u.LowPart;
@@ -295,7 +295,7 @@ RTL::Math::DivideUnsigned64(IN ULONGLONG Dividend,
} }
/* 32-bit value divided by a 64-bit value, check if remainder provided */ /* 32-bit value divided by a 64-bit value, check if remainder provided */
if(Remainder != NULL) if(Remainder != NULLPTR)
{ {
/* Calculate remainder */ /* Calculate remainder */
*Remainder = DividendParts.u.LowPart; *Remainder = DividendParts.u.LowPart;
@@ -318,7 +318,7 @@ RTL::Math::DivideUnsigned64(IN ULONGLONG Dividend,
if(Shift > ((sizeof(ULONG) * BITS_PER_BYTE) - 1)) if(Shift > ((sizeof(ULONG) * BITS_PER_BYTE) - 1))
{ {
/* Check if remainder provided */ /* Check if remainder provided */
if(Remainder != NULL) if(Remainder != NULLPTR)
{ {
/* Calculate remainder */ /* Calculate remainder */
*Remainder = DividendParts.QuadPart; *Remainder = DividendParts.QuadPart;
@@ -388,7 +388,7 @@ RTL::Math::DivideUnsigned64(IN ULONGLONG Dividend,
if(DividendParts.u.LowPart == 0) if(DividendParts.u.LowPart == 0)
{ {
/* Check if remainder provided */ /* Check if remainder provided */
if(Remainder != NULL) if(Remainder != NULLPTR)
{ {
/* Calculate the remainder */ /* Calculate the remainder */
RemainderParts.u.HighPart = DividendParts.u.HighPart % DivisorParts.u.HighPart; RemainderParts.u.HighPart = DividendParts.u.HighPart % DivisorParts.u.HighPart;
@@ -407,7 +407,7 @@ RTL::Math::DivideUnsigned64(IN ULONGLONG Dividend,
if(Shift > ((sizeof(ULONG) * BITS_PER_BYTE) - 2)) if(Shift > ((sizeof(ULONG) * BITS_PER_BYTE) - 2))
{ {
/* Check if remainder provided */ /* Check if remainder provided */
if(Remainder != NULL) if(Remainder != NULLPTR)
{ {
/* Calculate the remainder */ /* Calculate the remainder */
*Remainder = DividendParts.QuadPart; *Remainder = DividendParts.QuadPart;
@@ -457,7 +457,7 @@ RTL::Math::DivideUnsigned64(IN ULONGLONG Dividend,
QuotientParts.QuadPart = (QuotientParts.QuadPart << 1) | Carry; QuotientParts.QuadPart = (QuotientParts.QuadPart << 1) | Carry;
/* Check if remainder provided */ /* Check if remainder provided */
if(Remainder != NULL) if(Remainder != NULLPTR)
{ {
/* Calculate the remainder */ /* Calculate the remainder */
*Remainder = RemainderParts.QuadPart; *Remainder = RemainderParts.QuadPart;
@@ -497,7 +497,7 @@ RTL::Math::DivideLargeInteger(IN LARGE_INTEGER Dividend,
UDividend = (Dividend.QuadPart ^ DividendSign) - DividendSign; UDividend = (Dividend.QuadPart ^ DividendSign) - DividendSign;
/* Calculate the quotient */ /* Calculate the quotient */
LargeInt.QuadPart = (DivideUnsigned64(UDividend, Divisor, nullptr) ^ DividendSign) - DividendSign; LargeInt.QuadPart = (DivideUnsigned64(UDividend, Divisor, NULLPTR) ^ DividendSign) - DividendSign;
/* Make sure a pointer to remainder provided */ /* Make sure a pointer to remainder provided */
if(Remainder) if(Remainder)

58
xtoskrnl/rtl/string.cc
View File

@@ -132,10 +132,10 @@ RTL::String::CompareStringInsensitive(IN PCSTR String1,
* Appends a copy of the source string to the end of the destination string. * Appends a copy of the source string to the end of the destination string.
* *
* @param Destination * @param Destination
* Supplies a pointer to the null-terminated string to append to. * Supplies a pointer to the NULL-terminated string to append to.
* *
* @param Source * @param Source
* Supplies a pointer to the null-terminated string to copy from. * Supplies a pointer to the NULL-terminated string to copy from.
* *
* @param Count * @param Count
* Sets a maximum number of characters to copy. If no limit set, appends whole string. * Sets a maximum number of characters to copy. If no limit set, appends whole string.
@@ -164,7 +164,7 @@ RTL::String::ConcatenateString(OUT PCHAR Destination,
/* Copy character-by-character */ /* Copy character-by-character */
do do
{ {
/* Check if NULL terminated character found */ /* Check if NULL-terminated character found */
if((*Destination = *Source++) == '\0') if((*Destination = *Source++) == '\0')
{ {
/* Break on '\0' character */ /* Break on '\0' character */
@@ -174,7 +174,7 @@ RTL::String::ConcatenateString(OUT PCHAR Destination,
} }
while(--Count != 0); while(--Count != 0);
/* Add NULL termination character to the end of destination string */ /* Add NULL-termination character to the end of destination string */
*Destination = '\0'; *Destination = '\0';
} }
else else
@@ -217,7 +217,7 @@ RTL::String::CopyString(IN PCHAR Destination,
/* Copy source character */ /* Copy source character */
Destination[Index] = Source[Index]; Destination[Index] = Source[Index];
/* Check if NULL terminated character found */ /* Check if NULL-terminated character found */
if(Source[Index] == '\0') if(Source[Index] == '\0')
{ {
/* End of source string reached */ /* End of source string reached */
@@ -253,8 +253,8 @@ RTL::String::FindString(IN PCSTR Source,
/* Validate input parameters */ /* Validate input parameters */
if(!Source || !Search) if(!Source || !Search)
{ {
/* Invalid input parameters, return NULL */ /* Invalid input parameters, return NULLPTR */
return nullptr; return NULLPTR;
} }
/* Check if search string is empty */ /* Check if search string is empty */
@@ -287,8 +287,8 @@ RTL::String::FindString(IN PCSTR Source,
} }
} }
/* No match found, return NULL */ /* No match found, return NULLPTR */
return nullptr; return NULLPTR;
} }
/** /**
@@ -315,8 +315,8 @@ RTL::String::FindStringInsensitive(IN PCSTR Source,
/* Validate input parameters */ /* Validate input parameters */
if(!Source || !Search) if(!Source || !Search)
{ {
/* Invalid input parameters, return NULL */ /* Invalid input parameters, return NULLPTR */
return nullptr; return NULLPTR;
} }
/* Check if search string is empty */ /* Check if search string is empty */
@@ -350,8 +350,8 @@ RTL::String::FindStringInsensitive(IN PCSTR Source,
} }
} }
/* No match found, return NULL */ /* No match found, return NULLPTR */
return nullptr; return NULLPTR;
} }
/** /**
@@ -389,12 +389,12 @@ RTL::String::ReverseString(IN OUT PCHAR String,
* Calculates the length of a given string. * Calculates the length of a given string.
* *
* @param String * @param String
* Pointer to the null-terminated string to be examined. * Pointer to the NULL-terminated string to be examined.
* *
* @param MaxLength * @param MaxLength
* Maximum number of characters to examine. If no limit set, it examines whole string. * Maximum number of characters to examine. If no limit set, it examines whole string.
* *
* @return The length of the null-terminated string. * @return The length of the NULL-terminated string.
* *
* @since: XT 1.0 * @since: XT 1.0
*/ */
@@ -406,7 +406,7 @@ RTL::String::StringLength(IN PCSTR String,
SIZE_T Length; SIZE_T Length;
/* Check if NULL pointer passed */ /* Check if NULL pointer passed */
if(String == NULL) if(String == NULLPTR)
{ {
return 0; return 0;
} }
@@ -453,7 +453,7 @@ RTL::String::StringToWideString(OUT PWCHAR Destination,
SIZE_T Count = Length; SIZE_T Count = Length;
/* Check if NULL pointer passed */ /* Check if NULL pointer passed */
if(Destination == NULL) if(Destination == NULLPTR)
{ {
/* No wide characters written */ /* No wide characters written */
return 0; return 0;
@@ -466,7 +466,7 @@ RTL::String::StringToWideString(OUT PWCHAR Destination,
if((*Destination = *LocalSource) == 0) if((*Destination = *LocalSource) == 0)
{ {
/* End of string reached */ /* End of string reached */
LocalSource = nullptr; LocalSource = NULLPTR;
break; break;
} }
@@ -488,13 +488,13 @@ RTL::String::StringToWideString(OUT PWCHAR Destination,
} }
/** /**
* Finds the next token in a null-terminated string. * Finds the next token in a NULL-terminated string.
* *
* @param String * @param String
* Pointer to the null-terminated string to tokenize. * Pointer to the NULL-terminated string to tokenize.
* *
* @param Delimiter * @param Delimiter
* Pointer to the null-terminated string identifying delimiters. * Pointer to the NULL-terminated string identifying delimiters.
* *
* @param SavePtr * @param SavePtr
* Pointer to an object used to store routine internal state. * Pointer to an object used to store routine internal state.
@@ -513,18 +513,18 @@ RTL::String::TokenizeString(IN PCHAR String,
CHAR Char, SpanChar; CHAR Char, SpanChar;
/* Check if there is anything to tokenize */ /* Check if there is anything to tokenize */
if(String == NULL && (String = *SavePtr) == NULL) if(String == NULLPTR && (String = *SavePtr) == NULLPTR)
{ {
/* Empty string given */ /* Empty string given */
return nullptr; return NULLPTR;
} }
/* Check non-delimiter characters */ /* Check non-delimiter characters */
Char = *String++; Char = *String++;
if(Char == '\0') if(Char == '\0')
{ {
*SavePtr = nullptr; *SavePtr = NULLPTR;
return nullptr; return NULLPTR;
} }
Token = String - 1; Token = String - 1;
@@ -542,7 +542,7 @@ RTL::String::TokenizeString(IN PCHAR String,
if(Char == '\0') if(Char == '\0')
{ {
/* End of string reached, no more tokens */ /* End of string reached, no more tokens */
String = nullptr; String = NULLPTR;
} }
else else
{ {
@@ -615,7 +615,7 @@ RTL::String::ToUpperCharacter(IN CHAR Character)
* Removes certain characters from a beginning of the string. * Removes certain characters from a beginning of the string.
* *
* @param String * @param String
* Pointer to the null-terminated string to be trimmed. * Pointer to the NULL-terminated string to be trimmed.
* *
* @return This routine returns a pointer to the left-trimmed string. * @return This routine returns a pointer to the left-trimmed string.
* *
@@ -645,7 +645,7 @@ RTL::String::TrimLeftString(IN PCHAR String)
* Removes certain characters from the end of the string. * Removes certain characters from the end of the string.
* *
* @param String * @param String
* Pointer to the null-terminated string to be trimmed. * Pointer to the NULL-terminated string to be trimmed.
* *
* @return This routine returns a pointer to the right-trimmed string. * @return This routine returns a pointer to the right-trimmed string.
* *
@@ -678,7 +678,7 @@ RTL::String::TrimRightString(IN PCHAR String)
* Removes certain characters from the beginning and the end of the string. * Removes certain characters from the beginning and the end of the string.
* *
* @param String * @param String
* Pointer to the null-terminated string to be trimmed. * Pointer to the NULL-terminated string to be trimmed.
* *
* @return This routine returns a pointer to the trimmed string. * @return This routine returns a pointer to the trimmed string.
* *

68
xtoskrnl/rtl/widestr.cc
View File

@@ -132,10 +132,10 @@ RTL::WideString::CompareWideStringInsensitive(IN PCWSTR String1,
* Appends a copy of the source wide string to the end of the destination wide string. * Appends a copy of the source wide string to the end of the destination wide string.
* *
* @param Destination * @param Destination
* Supplies a pointer to the null-terminated wide string to append to. * Supplies a pointer to the NULL-terminated wide string to append to.
* *
* @param Source * @param Source
* Supplies a pointer to the null-terminated wide string to copy from. * Supplies a pointer to the NULL-terminated wide string to copy from.
* *
* @param Count * @param Count
* Sets a maximum number of wide characters to copy. If no limit set, appends whole wide string. * Sets a maximum number of wide characters to copy. If no limit set, appends whole wide string.
@@ -253,8 +253,8 @@ RTL::WideString::FindWideString(IN PCWSTR Source,
/* Validate input parameters */ /* Validate input parameters */
if(!Source || !Search) if(!Source || !Search)
{ {
/* Invalid input parameters, return NULL */ /* Invalid input parameters, return NULLPTR */
return nullptr; return NULLPTR;
} }
/* Check if search string is empty */ /* Check if search string is empty */
@@ -287,8 +287,8 @@ RTL::WideString::FindWideString(IN PCWSTR Source,
} }
} }
/* No match found, return NULL */ /* No match found, return NULLPTR */
return nullptr; return NULLPTR;
} }
/** /**
@@ -315,8 +315,8 @@ RTL::WideString::FindWideStringInsensitive(IN PCWSTR Source,
/* Validate input parameters */ /* Validate input parameters */
if(!Source || !Search) if(!Source || !Search)
{ {
/* Invalid input parameters, return NULL */ /* Invalid input parameters, return NULLPTR */
return nullptr; return NULLPTR;
} }
/* Check if search string is empty */ /* Check if search string is empty */
@@ -350,8 +350,8 @@ RTL::WideString::FindWideStringInsensitive(IN PCWSTR Source,
} }
} }
/* No match found, return NULL */ /* No match found, return NULLPTR */
return nullptr; return NULLPTR;
} }
/** /**
@@ -835,8 +835,8 @@ RTL::WideString::FormatArgumentSpecifier(IN PRTL_PRINT_CONTEXT Context,
GuidArg = VA_ARG(*ArgumentList, PGUID); GuidArg = VA_ARG(*ArgumentList, PGUID);
} }
/* Make sure a pointer to GUID is not NULL */ /* Make sure a pointer to GUID is not NULL pointer */
if(GuidArg != NULL) if(GuidArg != NULLPTR)
{ {
/* Check if using uppercase format */ /* Check if using uppercase format */
if(FormatProperties.Flags & PFL_UPPERCASE) if(FormatProperties.Flags & PFL_UPPERCASE)
@@ -967,7 +967,7 @@ RTL::WideString::FormatArgumentSpecifier(IN PRTL_PRINT_CONTEXT Context,
if(Specifier == L'n') if(Specifier == L'n')
{ {
/* Make sure, that integer pointer parameter is not NULL */ /* Make sure, that integer pointer parameter is not NULL */
if(IntArg != (UINT_PTR)NULL) if(IntArg != (UINT_PTR)NULLPTR)
{ {
/* Store number of characters written in integer pointer parameter */ /* Store number of characters written in integer pointer parameter */
*((PINT)(UINT_PTR)IntArg) = Context->CharactersWritten; *((PINT)(UINT_PTR)IntArg) = Context->CharactersWritten;
@@ -1031,7 +1031,7 @@ RTL::WideString::FormatArgumentSpecifier(IN PRTL_PRINT_CONTEXT Context,
} }
/* Make sure a pointer to ANSI_STRING is not NULL */ /* Make sure a pointer to ANSI_STRING is not NULL */
if(AnsiStrArg != NULL) if(AnsiStrArg != NULLPTR)
{ {
/* Write formatted ANSI string value */ /* Write formatted ANSI string value */
Status = WriteStringValue(Context, &FormatProperties, AnsiStrArg->Buffer, AnsiStrArg->Length); Status = WriteStringValue(Context, &FormatProperties, AnsiStrArg->Buffer, AnsiStrArg->Length);
@@ -1053,7 +1053,7 @@ RTL::WideString::FormatArgumentSpecifier(IN PRTL_PRINT_CONTEXT Context,
} }
/* Make sure a pointer to UNICODE_STRING is not NULL */ /* Make sure a pointer to UNICODE_STRING is not NULL */
if(UnicodeStrArg != NULL) if(UnicodeStrArg != NULLPTR)
{ {
/* Write formatted UNICODE string value */ /* Write formatted UNICODE string value */
Status = WriteValue(Context, &FormatProperties, UnicodeStrArg->Buffer, UnicodeStrArg->Length); Status = WriteValue(Context, &FormatProperties, UnicodeStrArg->Buffer, UnicodeStrArg->Length);
@@ -1097,14 +1097,14 @@ RTL::WideString::FormatWideString(IN PRTL_PRINT_CONTEXT Context,
ULONG Index; ULONG Index;
/* Make sure, that we have valid context and write routine */ /* Make sure, that we have valid context and write routine */
if(Context == NULL || Context->WriteWideCharacter == NULL) if(Context == NULLPTR || Context->WriteWideCharacter == NULLPTR)
{ {
/* Invalid context or write routine not set */ /* Invalid context or write routine not set */
return FALSE; return FALSE;
} }
/* Check format string pointer */ /* Check format string pointer */
if(Format == NULL) if(Format == NULLPTR)
{ {
/* Write null string */ /* Write null string */
Format = L"(null)"; Format = L"(null)";
@@ -1278,18 +1278,18 @@ RTL::WideString::ReverseWideString(IN OUT PWCHAR String,
} }
/** /**
* Finds the next token in a null-terminated wide string. * Finds the next token in a NULL-terminated wide string.
* *
* @param String * @param String
* Pointer to the null-terminated wide string to tokenize. * Pointer to the NULL-terminated wide string to tokenize.
* *
* @param Delimiter * @param Delimiter
* Pointer to the null-terminated wide string identifying delimiters. * Pointer to the NULL-terminated wide string identifying delimiters.
* *
* @param SavePtr * @param SavePtr
* Pointer to an object used to store routine internal state. * Pointer to an object used to store routine internal state.
* *
* @return Pointer to the beginning of the next token or NULL if there are no more tokens. * @return Pointer to the beginning of the next token or NULLPTR if there are no more tokens.
* *
* @since: XT 1.0 * @since: XT 1.0
*/ */
@@ -1303,18 +1303,18 @@ RTL::WideString::TokenizeWideString(IN PWCHAR String,
WCHAR Char, SpanChar; WCHAR Char, SpanChar;
/* Check if there is anything to tokenize */ /* Check if there is anything to tokenize */
if(String == NULL && (String = *SavePtr) == NULL) if(String == NULLPTR && (String = *SavePtr) == NULLPTR)
{ {
/* Empty string given */ /* Empty string given */
return nullptr; return NULLPTR;
} }
/* Check non-delimiter characters */ /* Check non-delimiter characters */
Char = *String++; Char = *String++;
if(Char == L'\0') if(Char == L'\0')
{ {
*SavePtr = nullptr; *SavePtr = NULLPTR;
return nullptr; return NULLPTR;
} }
Token = String - 1; Token = String - 1;
@@ -1332,7 +1332,7 @@ RTL::WideString::TokenizeWideString(IN PWCHAR String,
if(Char == L'\0') if(Char == L'\0')
{ {
/* End of string reached, no more tokens */ /* End of string reached, no more tokens */
String = nullptr; String = NULLPTR;
} }
else else
{ {
@@ -1405,7 +1405,7 @@ RTL::WideString::ToUpperWideCharacter(IN WCHAR Character)
* Removes certain characters from a beginning of the wide string. * Removes certain characters from a beginning of the wide string.
* *
* @param String * @param String
* Pointer to the null-terminated wide string to be trimmed. * Pointer to the NULL-terminated wide string to be trimmed.
* *
* @return This routine returns a pointer to the left-trimmed wide string. * @return This routine returns a pointer to the left-trimmed wide string.
* *
@@ -1435,7 +1435,7 @@ RTL::WideString::TrimLeftWideString(IN PWCHAR String)
* Removes certain characters from the end of the wide string. * Removes certain characters from the end of the wide string.
* *
* @param String * @param String
* Pointer to the null-terminated wide string to be trimmed. * Pointer to the NULL-terminated wide string to be trimmed.
* *
* @return This routine returns a pointer to the right-trimmed wide string. * @return This routine returns a pointer to the right-trimmed wide string.
* *
@@ -1469,7 +1469,7 @@ RTL::WideString::TrimRightWideString(IN PWCHAR String)
* Removes certain characters from the beginning and the end of the wide string. * Removes certain characters from the beginning and the end of the wide string.
* *
* @param String * @param String
* Pointer to the null-terminated wide string to be trimmed. * Pointer to the NULL-terminated wide string to be trimmed.
* *
* @return This routine returns a pointer to the trimmed wide string. * @return This routine returns a pointer to the trimmed wide string.
* *
@@ -1486,12 +1486,12 @@ RTL::WideString::TrimWideString(IN PWCHAR String)
* Calculates the length of a given wide string. * Calculates the length of a given wide string.
* *
* @param String * @param String
* Pointer to the null-terminated wide string to be examined. * Pointer to the NULL-terminated wide string to be examined.
* *
* @param MaxLength * @param MaxLength
* Maximum number of wide characters to examine. If no limit set, it examines whole string. * Maximum number of wide characters to examine. If no limit set, it examines whole string.
* *
* @return The length of the null-terminated wide string. * @return The length of the NULL-terminated wide string.
* *
* @since: XT 1.0 * @since: XT 1.0
*/ */
@@ -1503,7 +1503,7 @@ RTL::WideString::WideStringLength(IN PCWSTR String,
SIZE_T Length; SIZE_T Length;
/* Check if NULL pointer passed */ /* Check if NULL pointer passed */
if(String == NULL) if(String == NULLPTR)
{ {
return 0; return 0;
} }
@@ -2876,7 +2876,7 @@ RTL::WideString::WriteStringValue(PRTL_PRINT_CONTEXT Context,
XTSTATUS Status; XTSTATUS Status;
/* Check for NULL string */ /* Check for NULL string */
if(String == NULL) if(String == NULLPTR)
{ {
/* Print '(null)' instead */ /* Print '(null)' instead */
String = "(null)"; String = "(null)";
@@ -2985,7 +2985,7 @@ RTL::WideString::WriteValue(PRTL_PRINT_CONTEXT Context,
XTSTATUS Status; XTSTATUS Status;
/* Check for NULL string */ /* Check for NULL string */
if(String == NULL) if(String == NULLPTR)
{ {
/* Print '(null)' instead */ /* Print '(null)' instead */
String = L"(null)"; String = L"(null)";