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reactos/base/setup/lib/arcname.c
Hermès Bélusca-Maïto d27ef70aab
[SETUPLIB][USETUP] Transform the existing ConcatPaths() function into a variadic function, and derive a CombinePaths() from it (plus their equivalent taking va_list). 
This allows building concatenated paths with an arbitrary number of separated components.
- Use the newly-introduced CombinePaths() and ConcatPaths() functions.
- Fix also few comments, and place some UNICODE_NULLs here & there.

svn path=/branches/setup_improvements/; revision=74637
svn path=/branches/setup_improvements/; revision=74640
2018-06-03 22:12:43 +02:00

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/*
* PROJECT: ReactOS Setup Library
* LICENSE: GPL-2.0+ (https://spdx.org/licenses/GPL-2.0+)
* PURPOSE: ARC path to-and-from NT path resolver.
* COPYRIGHT: Copyright 2017-2018 Hermes Belusca-Maito
*/
/*
* References:
*
* - ARC Specification v1.2: http://netbsd.org./docs/Hardware/Machines/ARC/riscspec.pdf
* - "Setup and Startup", MSDN article: https://technet.microsoft.com/en-us/library/cc977184.aspx
* - Answer for "How do I determine the ARC path for a particular drive letter in Windows?": https://serverfault.com/a/5929
* - ARC - LinuxMIPS: https://www.linux-mips.org/wiki/ARC
* - ARCLoad - LinuxMIPS: https://www.linux-mips.org/wiki/ARCLoad
* - Inside Windows 2000 Server: https://books.google.fr/books?id=kYT7gKnwUQ8C&pg=PA71&lpg=PA71&dq=nt+arc+path&source=bl&ots=K8I1F_KQ_u&sig=EJq5t-v2qQk-QB7gNSREFj7pTVo&hl=en&sa=X&redir_esc=y#v=onepage&q=nt%20arc%20path&f=false
* - Inside Windows Server 2003: https://books.google.fr/books?id=zayrcM9ZYdAC&pg=PA61&lpg=PA61&dq=arc+path+to+nt+path&source=bl&ots=x2JSWfp2MA&sig=g9mufN6TCOrPejDov6Rjp0Jrldo&hl=en&sa=X&redir_esc=y#v=onepage&q=arc%20path%20to%20nt%20path&f=false
*
* Stuff to read: http://www.adminxp.com/windows2000/index.php?aid=46 and http://www.trcb.com/Computers-and-Technology/Windows-XP/Windows-XP-ARC-Naming-Conventions-1432.htm
* concerning which values of disk() or rdisk() are valid when either scsi() or multi() adapters are specified.
*/
/* INCLUDES *****************************************************************/
#include "precomp.h"
#include "filesup.h"
#include "partlist.h"
#include "arcname.h"
#define NDEBUG
#include <debug.h>
/* Supported adapter types */
typedef enum _ADAPTER_TYPE
{
EisaAdapter,
ScsiAdapter,
MultiAdapter,
NetAdapter,
RamdiskAdapter,
AdapterTypeMax
} ADAPTER_TYPE, *PADAPTER_TYPE;
const PCSTR AdapterTypes_A[] =
{
"eisa",
"scsi",
"multi",
"net",
"ramdisk",
NULL
};
const PCWSTR AdapterTypes_U[] =
{
L"eisa",
L"scsi",
L"multi",
L"net",
L"ramdisk",
NULL
};
/* Supported controller types */
typedef enum _CONTROLLER_TYPE
{
DiskController,
CdRomController,
ControllerTypeMax
} CONTROLLER_TYPE, *PCONTROLLER_TYPE;
const PCSTR ControllerTypes_A[] =
{
"disk",
"cdrom",
NULL
};
const PCWSTR ControllerTypes_U[] =
{
L"disk",
L"cdrom",
NULL
};
/* Supported peripheral types */
typedef enum _PERIPHERAL_TYPE
{
// VDiskPeripheral,
RDiskPeripheral,
FDiskPeripheral,
CdRomPeripheral,
PeripheralTypeMax
} PERIPHERAL_TYPE, *PPERIPHERAL_TYPE;
const PCSTR PeripheralTypes_A[] =
{
// "vdisk", // Enable this when we'll support boot from virtual disks!
"rdisk",
"fdisk",
"cdrom",
NULL
};
const PCWSTR PeripheralTypes_U[] =
{
// L"vdisk", // Enable this when we'll support boot from virtual disks!
L"rdisk",
L"fdisk",
L"cdrom",
NULL
};
/* FUNCTIONS ****************************************************************/
PCSTR
ArcGetNextTokenA(
IN PCSTR ArcPath,
OUT PANSI_STRING TokenSpecifier,
OUT PULONG Key)
{
NTSTATUS Status;
PCSTR p = ArcPath;
ULONG SpecifierLength;
ULONG KeyValue;
/*
* We must have a valid "specifier(key)" string, where 'specifier'
* cannot be the empty string, and is followed by '('.
*/
p = strchr(p, '(');
if (p == NULL)
return NULL; /* No '(' found */
if (p == ArcPath)
return NULL; /* Path starts with '(' and is thus invalid */
SpecifierLength = (p - ArcPath) * sizeof(CHAR);
/*
* The strtoul function skips any leading whitespace.
*
* Note that if the token is "specifier()" then strtoul won't perform
* any conversion and return 0, therefore effectively making the token
* equivalent to "specifier(0)", as it should be.
*/
// KeyValue = atoi(p);
KeyValue = strtoul(p, (PSTR*)&p, 10);
/* Skip any trailing whitespace */
while (isspace(*p)) ++p;
/* The token must terminate with ')' */
if (*p != ')')
return NULL;
#if 0
p = strchr(p, ')');
if (p == NULL)
return NULL;
#endif
/* We should have succeeded, copy the token specifier in the buffer */
Status = RtlStringCbCopyNA(TokenSpecifier->Buffer,
TokenSpecifier->MaximumLength,
ArcPath, SpecifierLength);
if (!NT_SUCCESS(Status))
return NULL;
TokenSpecifier->Length = strlen(TokenSpecifier->Buffer) * sizeof(CHAR);
/* We succeeded, return the token key value */
*Key = KeyValue;
/* Next token starts just after */
return ++p;
}
PCWSTR
ArcGetNextTokenU(
IN PCWSTR ArcPath,
OUT PUNICODE_STRING TokenSpecifier,
OUT PULONG Key)
{
NTSTATUS Status;
PCWSTR p = ArcPath;
ULONG SpecifierLength;
ULONG KeyValue;
/*
* We must have a valid "specifier(key)" string, where 'specifier'
* cannot be the empty string, and is followed by '('.
*/
p = wcschr(p, L'(');
if (p == NULL)
return NULL; /* No '(' found */
if (p == ArcPath)
return NULL; /* Path starts with '(' and is thus invalid */
SpecifierLength = (p - ArcPath) * sizeof(WCHAR);
++p;
/*
* The strtoul function skips any leading whitespace.
*
* Note that if the token is "specifier()" then strtoul won't perform
* any conversion and return 0, therefore effectively making the token
* equivalent to "specifier(0)", as it should be.
*/
// KeyValue = _wtoi(p);
KeyValue = wcstoul(p, (PWSTR*)&p, 10);
/* Skip any trailing whitespace */
while (iswspace(*p)) ++p;
/* The token must terminate with ')' */
if (*p != L')')
return NULL;
#if 0
p = wcschr(p, L')');
if (p == NULL)
return NULL;
#endif
/* We should have succeeded, copy the token specifier in the buffer */
Status = RtlStringCbCopyNW(TokenSpecifier->Buffer,
TokenSpecifier->MaximumLength,
ArcPath, SpecifierLength);
if (!NT_SUCCESS(Status))
return NULL;
TokenSpecifier->Length = wcslen(TokenSpecifier->Buffer) * sizeof(WCHAR);
/* We succeeded, return the token key value */
*Key = KeyValue;
/* Next token starts just after */
return ++p;
}
ULONG
ArcMatchTokenA(
IN PCSTR CandidateToken,
IN const PCSTR* TokenTable)
{
ULONG Index = 0;
while (TokenTable[Index] && _stricmp(CandidateToken, TokenTable[Index]) != 0)
{
++Index;
}
return Index;
}
ULONG
ArcMatchTokenU(
IN PCWSTR CandidateToken,
IN const PCWSTR* TokenTable)
{
ULONG Index = 0;
while (TokenTable[Index] && _wcsicmp(CandidateToken, TokenTable[Index]) != 0)
{
++Index;
}
return Index;
}
ULONG
ArcMatchToken_UStr(
IN PCUNICODE_STRING CandidateToken,
IN const PCWSTR* TokenTable)
{
ULONG Index = 0;
#if 0
SIZE_T Length;
#else
UNICODE_STRING Token;
#endif
while (TokenTable[Index])
{
#if 0
Length = wcslen(TokenTable[Index])*sizeof(WCHAR);
if (RtlCompareMemory(CandidateToken->Buffer, TokenTable[Index], Length) == Length)
break;
#else
RtlInitUnicodeString(&Token, TokenTable[Index]);
// if (RtlCompareUnicodeString(CandidateToken, &Token, TRUE) == 0)
if (RtlEqualUnicodeString(CandidateToken, &Token, TRUE))
break;
#endif
++Index;
}
return Index;
}
BOOLEAN
ArcPathNormalize(
OUT PUNICODE_STRING NormalizedArcPath,
IN PCWSTR ArcPath)
{
NTSTATUS Status;
PCWSTR EndOfArcName;
PCWSTR p;
if (NormalizedArcPath->MaximumLength < sizeof(UNICODE_NULL))
return FALSE;
*NormalizedArcPath->Buffer = UNICODE_NULL;
NormalizedArcPath->Length = 0;
EndOfArcName = wcschr(ArcPath, OBJ_NAME_PATH_SEPARATOR);
if (!EndOfArcName)
EndOfArcName = ArcPath + wcslen(ArcPath);
while ((p = wcsstr(ArcPath, L"()")) && (p < EndOfArcName))
{
#if 0
Status = RtlStringCbCopyNW(NormalizedArcPath->Buffer,
NormalizedArcPath->MaximumLength,
ArcPath, (p - ArcPath) * sizeof(WCHAR));
#else
Status = RtlStringCbCatNW(NormalizedArcPath->Buffer,
NormalizedArcPath->MaximumLength,
ArcPath, (p - ArcPath) * sizeof(WCHAR));
#endif
if (!NT_SUCCESS(Status))
return FALSE;
Status = RtlStringCbCatW(NormalizedArcPath->Buffer,
NormalizedArcPath->MaximumLength,
L"(0)");
if (!NT_SUCCESS(Status))
return FALSE;
#if 0
NormalizedArcPath->Buffer += wcslen(NormalizedArcPath->Buffer);
#endif
ArcPath = p + 2;
}
Status = RtlStringCbCatW(NormalizedArcPath->Buffer,
NormalizedArcPath->MaximumLength,
ArcPath);
if (!NT_SUCCESS(Status))
return FALSE;
NormalizedArcPath->Length = wcslen(NormalizedArcPath->Buffer) * sizeof(WCHAR);
return TRUE;
}
/*
* ArcName:
* ARC name (counted string) to be resolved into a NT device name.
* The caller should have already delimited it from within an ARC path
* (usually by finding where the first path separator appears in the path).
*
* NtName:
* Receives the resolved NT name. The buffer is NULL-terminated.
*/
static NTSTATUS
ResolveArcNameNtSymLink(
OUT PUNICODE_STRING NtName,
IN PUNICODE_STRING ArcName)
{
NTSTATUS Status;
OBJECT_ATTRIBUTES ObjectAttributes;
HANDLE DirectoryHandle, LinkHandle;
UNICODE_STRING ArcNameDir;
if (NtName->MaximumLength < sizeof(UNICODE_NULL))
return STATUS_BUFFER_TOO_SMALL;
#if 0
*NtName->Buffer = UNICODE_NULL;
NtName->Length = 0;
#endif
/* Open the \ArcName object directory */
RtlInitUnicodeString(&ArcNameDir, L"\\ArcName");
InitializeObjectAttributes(&ObjectAttributes,
&ArcNameDir,
OBJ_CASE_INSENSITIVE,
NULL,
NULL);
Status = NtOpenDirectoryObject(&DirectoryHandle,
DIRECTORY_ALL_ACCESS,
&ObjectAttributes);
if (!NT_SUCCESS(Status))
{
DPRINT1("NtOpenDirectoryObject(%wZ) failed, Status 0x%08lx\n", &ArcNameDir, Status);
return Status;
}
/* Open the ARC name link */
InitializeObjectAttributes(&ObjectAttributes,
ArcName,
OBJ_CASE_INSENSITIVE,
DirectoryHandle,
NULL);
Status = NtOpenSymbolicLinkObject(&LinkHandle,
SYMBOLIC_LINK_ALL_ACCESS,
&ObjectAttributes);
/* Close the \ArcName object directory handle */
NtClose(DirectoryHandle);
/* Check for success */
if (!NT_SUCCESS(Status))
{
DPRINT1("NtOpenSymbolicLinkObject(%wZ) failed, Status 0x%08lx\n", ArcName, Status);
return Status;
}
/* Reserve one WCHAR for the NULL-termination */
NtName->MaximumLength -= sizeof(UNICODE_NULL);
/* Resolve the link */
Status = NtQuerySymbolicLinkObject(LinkHandle, NtName, NULL);
/* Restore the NULL-termination */
NtName->MaximumLength += sizeof(UNICODE_NULL);
/* Check for success */
if (!NT_SUCCESS(Status))
{
/* We failed, don't touch NtName */
DPRINT1("NtQuerySymbolicLinkObject(%wZ) failed, Status 0x%08lx\n", ArcName, Status);
}
else
{
/* We succeeded, NULL-terminate NtName */
NtName->Buffer[NtName->Length / sizeof(WCHAR)] = UNICODE_NULL;
}
NtClose(LinkHandle);
return Status;
}
/*
* ArcNamePath:
* In input, pointer to an ARC path (NULL-terminated) starting by an ARC name
* to be resolved into a NT device name.
* In opposition to ResolveArcNameNtSymLink(), the caller does not have to
* delimit the ARC name from within an ARC path. The real ARC name is deduced
* after parsing the ARC path, and, in output, ArcNamePath points to the
* beginning of the path after the ARC name part.
*
* NtName:
* Receives the resolved NT name. The buffer is NULL-terminated.
*
* PartList:
* (Optional) partition list that helps in resolving the paths pointing
* to hard disks.
*/
static NTSTATUS
ResolveArcNameManually(
OUT PUNICODE_STRING NtName,
IN OUT PCWSTR* ArcNamePath,
IN PPARTLIST PartList OPTIONAL)
{
NTSTATUS Status;
WCHAR TokenBuffer[50];
UNICODE_STRING Token;
PCWSTR p, q;
ULONG AdapterKey;
ULONG ControllerKey;
ULONG PeripheralKey;
ULONG PartitionNumber;
ADAPTER_TYPE AdapterType;
CONTROLLER_TYPE ControllerType;
PERIPHERAL_TYPE PeripheralType;
BOOLEAN UseSignature = FALSE;
PDISKENTRY DiskEntry;
PPARTENTRY PartEntry = NULL;
if (NtName->MaximumLength < sizeof(UNICODE_NULL))
return STATUS_BUFFER_TOO_SMALL;
#if 0
*NtName->Buffer = UNICODE_NULL;
NtName->Length = 0;
#endif
/*
* The format of ArcName is:
* adapter(www)[controller(xxx)peripheral(yyy)[partition(zzz)][filepath]] ,
* where the [filepath] part is not being parsed.
*/
RtlInitEmptyUnicodeString(&Token, TokenBuffer, sizeof(TokenBuffer));
p = *ArcNamePath;
/* Retrieve the adapter */
p = ArcGetNextTokenU(p, &Token, &AdapterKey);
if (!p)
{
DPRINT1("No adapter specified!\n");
return STATUS_OBJECT_PATH_SYNTAX_BAD;
}
/* Check for the 'signature()' pseudo-adapter, introduced in Windows 2000 */
if (_wcsicmp(Token.Buffer, L"signature") == 0)
{
/*
* We've got a signature! Remember this for later, and set the adapter type to SCSI.
* We however check that the rest of the ARC path is valid by parsing the other tokens.
* AdapterKey stores the disk signature value (that holds in a ULONG).
*/
UseSignature = TRUE;
AdapterType = ScsiAdapter;
}
else
{
/* Check for regular adapters */
AdapterType = (ADAPTER_TYPE)/*ArcMatchTokenU*/ArcMatchToken_UStr(/*Token.Buffer*/&Token, AdapterTypes_U);
if (AdapterType >= AdapterTypeMax)
{
DPRINT1("Invalid adapter type %wZ\n", &Token);
return STATUS_OBJECT_NAME_INVALID;
}
/* Check for adapters that don't take any extra controller or peripheral nodes */
if (AdapterType == NetAdapter || AdapterType == RamdiskAdapter)
{
// if (*p)
// return STATUS_OBJECT_PATH_SYNTAX_BAD;
if (AdapterType == NetAdapter)
{
DPRINT1("%S(%lu) path is not supported!\n", AdapterTypes_U[AdapterType], AdapterKey);
return STATUS_NOT_SUPPORTED;
}
Status = RtlStringCbPrintfW(NtName->Buffer, NtName->MaximumLength,
L"\\Device\\Ramdisk%lu", AdapterKey);
goto Quit;
}
}
/* Here, we have either an 'eisa', a 'scsi/signature', or a 'multi' adapter */
/* Check for a valid controller */
p = ArcGetNextTokenU(p, &Token, &ControllerKey);
if (!p)
{
DPRINT1("%S(%lu) adapter doesn't have a controller!\n", AdapterTypes_U[AdapterType], AdapterKey);
return STATUS_OBJECT_PATH_SYNTAX_BAD;
}
ControllerType = (CONTROLLER_TYPE)/*ArcMatchTokenU*/ArcMatchToken_UStr(/*Token.Buffer*/&Token, ControllerTypes_U);
if (ControllerType >= ControllerTypeMax)
{
DPRINT1("Invalid controller type %wZ\n", &Token);
return STATUS_OBJECT_NAME_INVALID;
}
/* Here the controller can only be either a disk or a CDROM */
/*
* Ignore the controller in case we have a 'multi' adapter.
* I guess a similar condition holds for the 'eisa' adapter too...
*
* For SignatureAdapter, as similar for ScsiAdapter, the controller key corresponds
* to the disk target ID. Note that actually, the implementation just ignores the
* target ID, as well as the LUN, and just loops over all the available disks and
* searches for the one having the correct signature.
*/
if ((AdapterType == MultiAdapter /* || AdapterType == EisaAdapter */) && ControllerKey != 0)
{
DPRINT1("%S(%lu) adapter with %S(%lu non-zero), ignored!\n",
AdapterTypes_U[AdapterType], AdapterKey,
ControllerTypes_U[ControllerType], ControllerKey);
ControllerKey = 0;
}
/*
* Only the 'scsi' adapter supports a direct 'cdrom' controller.
* For the others, we need a 'disk' controller to which a 'cdrom' peripheral can talk to.
*/
if ((AdapterType != ScsiAdapter) && (ControllerType == CdRomController))
{
DPRINT1("%S(%lu) adapter cannot have a CDROM controller!\n", AdapterTypes_U[AdapterType], AdapterKey);
return STATUS_OBJECT_PATH_INVALID;
}
/* Check for a valid peripheral */
p = ArcGetNextTokenU(p, &Token, &PeripheralKey);
if (!p)
{
DPRINT1("%S(%lu)%S(%lu) adapter-controller doesn't have a peripheral!\n",
AdapterTypes_U[AdapterType], AdapterKey,
ControllerTypes_U[ControllerType], ControllerKey);
return STATUS_OBJECT_PATH_SYNTAX_BAD;
}
PeripheralType = (PERIPHERAL_TYPE)/*ArcMatchTokenU*/ArcMatchToken_UStr(/*Token.Buffer*/&Token, PeripheralTypes_U);
if (PeripheralType >= PeripheralTypeMax)
{
DPRINT1("Invalid peripheral type %wZ\n", &Token);
return STATUS_OBJECT_NAME_INVALID;
}
/*
* If we had a 'cdrom' controller already, the corresponding peripheral can only be 'fdisk'
* (see for example the ARC syntax for SCSI CD-ROMs: scsi(x)cdrom(y)fdisk(z) where z == 0).
*/
if ((ControllerType == CdRomController) && (PeripheralType != FDiskPeripheral))
{
DPRINT1("%S(%lu) controller cannot have a %S(%lu) peripheral! (note that we haven't check whether the adapter was SCSI or not)\n",
ControllerTypes_U[ControllerType], ControllerKey,
PeripheralTypes_U[PeripheralType], PeripheralKey);
return STATUS_OBJECT_PATH_INVALID;
}
/* For a 'scsi' adapter, the possible peripherals are only 'rdisk' or 'fdisk' */
if (AdapterType == ScsiAdapter && !(PeripheralType == RDiskPeripheral || PeripheralType == FDiskPeripheral))
{
DPRINT1("%S(%lu)%S(%lu) SCSI adapter-controller has an invalid peripheral %S(%lu) !\n",
AdapterTypes_U[AdapterType], AdapterKey,
ControllerTypes_U[ControllerType], ControllerKey,
PeripheralTypes_U[PeripheralType], PeripheralKey);
return STATUS_OBJECT_PATH_INVALID;
}
#if 0
if (AdapterType == SignatureAdapter && PeripheralKey != 0)
{
DPRINT1("%S(%lu) adapter with %S(%lu non-zero), ignored!\n",
AdapterTypes_U[AdapterType], AdapterKey,
PeripheralTypes_U[PeripheralType], PeripheralKey);
PeripheralKey = 0;
}
#endif
/* Check for the optional 'partition' specifier */
q = ArcGetNextTokenU(p, &Token, &PartitionNumber);
if (q && _wcsicmp(Token.Buffer, L"partition") == 0)
{
/* We've got a partition! */
p = q;
}
else
{
/*
* Either no other ARC token was found, or we've got something else
* (possibly invalid or not)...
*/
PartitionNumber = 0;
}
// TODO: Check the partition number in case of fdisks and cdroms??
if (ControllerType == CdRomController) // and so, AdapterType == ScsiAdapter and PeripheralType == FDiskPeripheral
{
Status = RtlStringCbPrintfW(NtName->Buffer, NtName->MaximumLength,
L"\\Device\\Scsi\\CdRom%lu", ControllerKey);
}
else
/* Now, ControllerType == DiskController */
if (PeripheralType == CdRomPeripheral)
{
Status = RtlStringCbPrintfW(NtName->Buffer, NtName->MaximumLength,
L"\\Device\\CdRom%lu", PeripheralKey);
}
else
if (PeripheralType == FDiskPeripheral)
{
Status = RtlStringCbPrintfW(NtName->Buffer, NtName->MaximumLength,
L"\\Device\\Floppy%lu", PeripheralKey);
}
else
if (PeripheralType == RDiskPeripheral)
{
if (UseSignature)
{
/* The disk signature is stored in AdapterKey */
DiskEntry = GetDiskBySignature(PartList, AdapterKey);
}
else
{
DiskEntry = GetDiskBySCSI(PartList, AdapterKey,
ControllerKey, PeripheralKey);
}
if (!DiskEntry)
return STATUS_OBJECT_PATH_NOT_FOUND; // STATUS_NOT_FOUND;
if (PartitionNumber != 0)
{
PartEntry = GetPartition(DiskEntry, PartitionNumber);
if (!PartEntry)
return STATUS_OBJECT_PATH_NOT_FOUND; // STATUS_DEVICE_NOT_PARTITIONED;
ASSERT(PartEntry->DiskEntry == DiskEntry);
}
Status = RtlStringCbPrintfW(NtName->Buffer, NtName->MaximumLength,
L"\\Device\\Harddisk%lu\\Partition%lu",
DiskEntry->DiskNumber, PartitionNumber);
}
#if 0
else
if (PeripheralType == VDiskPeripheral)
{
// TODO: Check how Win 7+ deals with virtual disks.
Status = RtlStringCbPrintfW(NtName->Buffer, NtName->MaximumLength,
L"\\Device\\VirtualHarddisk%lu\\Partition%lu",
PeripheralKey, PartitionNumber);
}
#endif
Quit:
if (!NT_SUCCESS(Status))
return Status;
*ArcNamePath = p;
return STATUS_SUCCESS;
}
BOOLEAN
ArcPathToNtPath(
OUT PUNICODE_STRING NtPath,
IN PCWSTR ArcPath,
IN PPARTLIST PartList OPTIONAL)
{
NTSTATUS Status;
PCWSTR BeginOfPath;
UNICODE_STRING ArcName;
/* TODO: We should "normalize" the path, i.e. expand all the xxx() into xxx(0) */
if (NtPath->MaximumLength < sizeof(UNICODE_NULL))
return FALSE;
*NtPath->Buffer = UNICODE_NULL;
NtPath->Length = 0;
/*
* - First, check whether the ARC path is already inside \\ArcName
* and if so, map it to the corresponding NT path.
* - Only then, if we haven't found any ArcName, try to build a
* NT path by deconstructing the ARC path, using its disk and
* partition numbers. We may use here our disk/partition list.
*
* See also freeldr/arcname.c
*
* Note that it would be nice to maintain a cache of these mappings.
*/
/*
* Initialize the ARC name to resolve, by cutting the ARC path at the first
* NT path separator. The ARC name therefore ends where the NT path part starts.
*/
RtlInitUnicodeString(&ArcName, ArcPath);
BeginOfPath = wcschr(ArcName.Buffer, OBJ_NAME_PATH_SEPARATOR);
if (BeginOfPath)
ArcName.Length = (ULONG_PTR)BeginOfPath - (ULONG_PTR)ArcName.Buffer;
/* Resolve the ARC name via NT SymLinks. Note that NtPath is returned NULL-terminated. */
Status = ResolveArcNameNtSymLink(NtPath, &ArcName);
if (!NT_SUCCESS(Status))
{
/* We failed, attempt a manual resolution */
DPRINT1("ResolveArcNameNtSymLink(ArcName = '%wZ') for ArcPath = '%S' failed, Status 0x%08lx\n", &ArcName, ArcPath, Status);
/*
* We failed at directly resolving the ARC path, and we cannot perform
* a manual resolution because we don't have any disk/partition list,
* we therefore fail here.
*/
if (!PartList)
{
DPRINT1("PartList == NULL, cannot perform a manual resolution\n");
return FALSE;
}
*NtPath->Buffer = UNICODE_NULL;
NtPath->Length = 0;
BeginOfPath = ArcPath;
Status = ResolveArcNameManually(NtPath, &BeginOfPath, PartList);
if (!NT_SUCCESS(Status))
{
/* We really failed this time, bail out */
DPRINT1("ResolveArcNameManually(ArcPath = '%S') failed, Status 0x%08lx\n", ArcPath, Status);
return FALSE;
}
}
/*
* We succeeded. Concatenate the rest of the system-specific path. We know the path is going
* to be inside the NT namespace, therefore we can use the path string concatenation function
* that uses '\\' as the path separator.
*/
if (BeginOfPath && *BeginOfPath)
{
Status = ConcatPaths(NtPath->Buffer, NtPath->MaximumLength / sizeof(WCHAR), 1, BeginOfPath);
if (!NT_SUCCESS(Status))
{
/* Buffer not large enough, or whatever...: just bail out */
return FALSE;
}
}
NtPath->Length = wcslen(NtPath->Buffer) * sizeof(WCHAR);
return TRUE;
}
#if 0
PWSTR
NtPathToArcPath(
IN PWSTR NtPath)
{
/*
* - First, check whether any of the ARC paths inside \\ArcName
* map to the corresponding NT path. If so, we are OK.
* - Only then, if we haven't found any ArcName, try to build an
* ARC path by deconstructing the NT path, using its disk and
* partition numbers. We may use here our disk/partition list.
*
* See also freeldr/arcname.c
*
* Note that it would be nice to maintain a cache of these mappings.
*/
}
#endif
/* EOF */
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