#include <xvfs-core.h>
#include <string.h>
#include <sys/stat.h>
#include <unistd.h>
#include <errno.h>
#include <fcntl.h>
#include <tcl.h>
#ifdef XVFS_DEBUG
#include <stdio.h> /* Needed for XVFS_DEBUG_PRINTF */
static int xvfs_debug_depth = 0;
#define XVFS_DEBUG_PRINTF(fmt, ...) fprintf(stderr, "[XVFS:DEBUG:%-30s:%4i] %s" fmt "\n", __func__, __LINE__, " " + (80 - (xvfs_debug_depth * 4)), __VA_ARGS__)
#define XVFS_DEBUG_PUTS(str) XVFS_DEBUG_PRINTF("%s", str);
#define XVFS_DEBUG_ENTER { xvfs_debug_depth++; XVFS_DEBUG_PUTS("Entered"); }
#define XVFS_DEBUG_LEAVE { XVFS_DEBUG_PUTS("Returning"); xvfs_debug_depth--; }
#else /* XVFS_DEBUG */
#define XVFS_DEBUG_PRINTF(fmt, ...) /**/
#define XVFS_DEBUG_PUTS(str) /**/
#define XVFS_DEBUG_ENTER /**/
#define XVFS_DEBUG_LEAVE /**/
#endif /* XVFS_DEBUG */
#if defined(XVFS_MODE_FLEXIBLE) || defined(XVFS_MODE_SERVER)
#define XVFS_INTERNAL_SERVER_MAGIC "\xD4\xF3\x05\x96\x25\xCF\xAF\xFE"
#define XVFS_INTERNAL_SERVER_MAGIC_LEN 8
struct xvfs_tclfs_server_info {
char magic[XVFS_INTERNAL_SERVER_MAGIC_LEN];
int (*registerProc)(Tcl_Interp *interp, struct Xvfs_FSInfo *fsInfo);
};
#endif /* XVFS_MODE_FLEXIBLE || XVFS_MODE_SERVER */
#if defined(XVFS_MODE_SERVER) || defined(XVFS_MODE_STANDALONE) || defined(XVFS_MODE_FLEXIBLE)
#define XVFS_ROOT_MOUNTPOINT "//xvfs:/"
struct xvfs_tclfs_instance_info {
struct Xvfs_FSInfo *fsInfo;
Tcl_Obj *mountpoint;
};
/*
* Internal Core Utilities
*/
static Tcl_Obj *xvfs_absolutePath(Tcl_Obj *path) {
Tcl_Obj *currentDirectory;
const char *pathStr;
XVFS_DEBUG_ENTER;
pathStr = Tcl_GetString(path);
if (pathStr[0] != '/') {
currentDirectory = Tcl_FSGetCwd(NULL);
Tcl_IncrRefCount(currentDirectory);
path = Tcl_ObjPrintf("%s/%s", Tcl_GetString(currentDirectory), pathStr);
Tcl_IncrRefCount(path);
Tcl_DecrRefCount(currentDirectory);
} else {
Tcl_IncrRefCount(path);
}
XVFS_DEBUG_PRINTF("Converted path \"%s\" to absolute path: \"%s\"", pathStr, Tcl_GetString(path));
XVFS_DEBUG_LEAVE;
return(path);
}
static const char *xvfs_relativePath(Tcl_Obj *path, struct xvfs_tclfs_instance_info *info) {
const char *pathStr, *rootStr;
const char *pathFinal;
int pathLen, rootLen;
XVFS_DEBUG_ENTER;
rootStr = Tcl_GetStringFromObj(info->mountpoint, &rootLen);
pathStr = Tcl_GetStringFromObj(path, &pathLen);
XVFS_DEBUG_PRINTF("Finding relative path of \"%s\" from \"%s\" ...", pathStr, rootStr);
if (pathLen < rootLen) {
XVFS_DEBUG_PUTS("... none possible (length)");
XVFS_DEBUG_LEAVE;
return(NULL);
}
if (memcmp(pathStr, rootStr, rootLen) != 0) {
XVFS_DEBUG_PUTS("... none possible (prefix differs)");
XVFS_DEBUG_LEAVE;
return(NULL);
}
if (pathLen == rootLen) {
XVFS_DEBUG_PUTS("... short circuit: \"\"");
XVFS_DEBUG_LEAVE;
return("");
}
/* XXX:TODO: Should this use the native OS path separator ? */
if (pathStr[rootLen] != '/') {
XVFS_DEBUG_PUTS("... none possible (no seperator)");
XVFS_DEBUG_LEAVE;
return(NULL);
}
pathFinal = pathStr + rootLen + 1;
pathLen -= rootLen + 1;
if (pathLen == 1 && memcmp(pathFinal, ".", 1) == 0) {
XVFS_DEBUG_PUTS("... short circuit: \".\" -> \"\"");
XVFS_DEBUG_LEAVE;
return("");
}
while (pathLen >= 2 && memcmp(pathFinal, "./", 2) == 0) {
pathFinal += 2;
pathLen -= 2;
}
XVFS_DEBUG_PRINTF("... relative path: \"%s\"", pathFinal);
XVFS_DEBUG_LEAVE;
return(pathFinal);
}
static int xvfs_errorToErrno(int xvfs_error) {
if (xvfs_error >= 0) {
return(0);
}
switch (xvfs_error) {
case XVFS_RV_ERR_ENOENT:
return(ENOENT);
case XVFS_RV_ERR_EINVAL:
return(EINVAL);
case XVFS_RV_ERR_EISDIR:
return(EISDIR);
case XVFS_RV_ERR_ENOTDIR:
return(ENOTDIR);
case XVFS_RV_ERR_EFAULT:
return(EFAULT);
case XVFS_RV_ERR_EROFS:
return(EROFS);
case XVFS_RV_ERR_INTERNAL:
return(EINVAL);
default:
return(ERANGE);
}
}
static const char *xvfs_strerror(int xvfs_error) {
if (xvfs_error >= 0) {
return("Not an error");
}
switch (xvfs_error) {
case XVFS_RV_ERR_ENOENT:
case XVFS_RV_ERR_EINVAL:
case XVFS_RV_ERR_EISDIR:
case XVFS_RV_ERR_ENOTDIR:
case XVFS_RV_ERR_EFAULT:
case XVFS_RV_ERR_EROFS:
return(Tcl_ErrnoMsg(xvfs_errorToErrno(xvfs_error)));
case XVFS_RV_ERR_INTERNAL:
return("Internal error");
default:
return("Unknown error");
}
}
static void xvfs_setresults_error(Tcl_Interp *interp, int xvfs_error) {
if (!interp) {
return;
}
Tcl_SetErrno(xvfs_errorToErrno(xvfs_error));
Tcl_SetResult(interp, (char *) xvfs_strerror(xvfs_error), NULL);
return;
}
/*
* Xvfs Memory Channel
*/
struct xvfs_tclfs_channel_id {
Tcl_Channel channel;
struct xvfs_tclfs_instance_info *fsInstanceInfo;
Tcl_Obj *path;
Tcl_WideInt currentOffset;
Tcl_WideInt fileSize;
int eofMarked;
int queuedEvents;
int closed;
};
struct xvfs_tclfs_channel_event {
Tcl_Event tcl;
struct xvfs_tclfs_channel_id *channelInstanceData;
};
static Tcl_ChannelType xvfs_tclfs_channelType;
static Tcl_Channel xvfs_tclfs_openChannel(Tcl_Interp *interp, Tcl_Obj *path, struct xvfs_tclfs_instance_info *instanceInfo) {
struct xvfs_tclfs_channel_id *channelInstanceData;
Tcl_Channel channel;
Tcl_StatBuf fileInfo;
Tcl_Obj *channelName;
int statRet;
XVFS_DEBUG_ENTER;
XVFS_DEBUG_PRINTF("Opening file \"%s\" ...", Tcl_GetString(path));
statRet = instanceInfo->fsInfo->getStatProc(Tcl_GetString(path), &fileInfo);
if (statRet < 0) {
XVFS_DEBUG_PRINTF("... failed: %s", xvfs_strerror(statRet));
xvfs_setresults_error(interp, XVFS_RV_ERR_ENOENT);
XVFS_DEBUG_LEAVE;
return(NULL);
}
if (fileInfo.st_mode & 040000) {
XVFS_DEBUG_PUTS("... failed (cannot open directories)");
xvfs_setresults_error(interp, XVFS_RV_ERR_EISDIR);
XVFS_DEBUG_LEAVE;
return(NULL);
}
channelInstanceData = (struct xvfs_tclfs_channel_id *) Tcl_Alloc(sizeof(*channelInstanceData));
channelInstanceData->currentOffset = 0;
channelInstanceData->eofMarked = 0;
channelInstanceData->queuedEvents = 0;
channelInstanceData->closed = 0;
channelInstanceData->channel = NULL;
channelName = Tcl_ObjPrintf("xvfs0x%llx", (unsigned long long) channelInstanceData);
if (!channelName) {
XVFS_DEBUG_PUTS("... failed");
Tcl_Free((char *) channelInstanceData);
XVFS_DEBUG_LEAVE;
return(NULL);
}
Tcl_IncrRefCount(channelName);
channelInstanceData->fsInstanceInfo = instanceInfo;
channelInstanceData->fileSize = fileInfo.st_size;
channelInstanceData->path = path;
Tcl_IncrRefCount(path);
channel = Tcl_CreateChannel(&xvfs_tclfs_channelType, Tcl_GetString(channelName), channelInstanceData, TCL_READABLE);
Tcl_DecrRefCount(channelName);
if (!channel) {
XVFS_DEBUG_PUTS("... failed");
Tcl_DecrRefCount(path);
Tcl_Free((char *) channelInstanceData);
XVFS_DEBUG_LEAVE;
return(NULL);
}
channelInstanceData->channel = channel;
XVFS_DEBUG_PRINTF("... ok (%p)", channelInstanceData);
XVFS_DEBUG_LEAVE;
return(channel);
}
static int xvfs_tclfs_closeChannel(ClientData channelInstanceData_p, Tcl_Interp *interp);
static int xvfs_tclfs_closeChannelEvent(Tcl_Event *event_p, int flags) {
struct xvfs_tclfs_channel_id *channelInstanceData;
struct xvfs_tclfs_channel_event *event;
event = (struct xvfs_tclfs_channel_event *) event_p;
channelInstanceData = event->channelInstanceData;
channelInstanceData->queuedEvents--;
xvfs_tclfs_closeChannel((ClientData) channelInstanceData, NULL);
return(1);
}
static int xvfs_tclfs_closeChannel(ClientData channelInstanceData_p, Tcl_Interp *interp) {
struct xvfs_tclfs_channel_id *channelInstanceData;
struct xvfs_tclfs_channel_event *event;
XVFS_DEBUG_ENTER;
XVFS_DEBUG_PRINTF("Closing channel %p ...", channelInstanceData_p);
channelInstanceData = (struct xvfs_tclfs_channel_id *) channelInstanceData_p;
channelInstanceData->closed = 1;
if (channelInstanceData->queuedEvents != 0) {
XVFS_DEBUG_PUTS("... queued");
event = (struct xvfs_tclfs_channel_event *) Tcl_Alloc(sizeof(*event));
event->tcl.proc = xvfs_tclfs_closeChannelEvent;
event->tcl.nextPtr = NULL;
event->channelInstanceData = channelInstanceData;
channelInstanceData->queuedEvents++;
Tcl_QueueEvent((Tcl_Event *) event, TCL_QUEUE_TAIL);
XVFS_DEBUG_LEAVE;
return(0);
}
Tcl_DecrRefCount(channelInstanceData->path);
Tcl_Free((char *) channelInstanceData);
XVFS_DEBUG_PUTS("... ok");
XVFS_DEBUG_LEAVE;
return(0);
}
static int xvfs_tclfs_readChannel(ClientData channelInstanceData_p, char *buf, int bufSize, int *errorCodePtr) {
struct xvfs_tclfs_channel_id *channelInstanceData;
const unsigned char *data;
Tcl_WideInt offset, length;
char *path;
channelInstanceData = (struct xvfs_tclfs_channel_id *) channelInstanceData_p;
/*
* If we are already at the end of the file we can skip
* attempting to read it
*/
if (channelInstanceData->eofMarked) {
return(0);
}
path = Tcl_GetString(channelInstanceData->path);
offset = channelInstanceData->currentOffset;
length = bufSize;
data = channelInstanceData->fsInstanceInfo->fsInfo->getDataProc(path, offset, &length);
if (length < 0) {
*errorCodePtr = xvfs_errorToErrno(length);
return(-1);
}
if (length == 0) {
channelInstanceData->eofMarked = 1;
} else {
memcpy(buf, data, length);
channelInstanceData->currentOffset += length;
}
return(length);
}
static int xvfs_tclfs_watchChannelEvent(Tcl_Event *event_p, int flags) {
struct xvfs_tclfs_channel_id *channelInstanceData;
struct xvfs_tclfs_channel_event *event;
event = (struct xvfs_tclfs_channel_event *) event_p;
channelInstanceData = event->channelInstanceData;
channelInstanceData->queuedEvents--;
if (channelInstanceData->closed) {
return(1);
}
Tcl_NotifyChannel(channelInstanceData->channel, TCL_READABLE);
return(1);
}
static void xvfs_tclfs_watchChannel(ClientData channelInstanceData_p, int mask) {
struct xvfs_tclfs_channel_id *channelInstanceData;
struct xvfs_tclfs_channel_event *event;
if ((mask & TCL_READABLE) != TCL_READABLE) {
return;
}
channelInstanceData = (struct xvfs_tclfs_channel_id *) channelInstanceData_p;
/*
* If the read call has marked that we have reached EOF,
* do not signal any further
*/
if (channelInstanceData->eofMarked) {
return;
}
event = (struct xvfs_tclfs_channel_event *) Tcl_Alloc(sizeof(*event));
event->tcl.proc = xvfs_tclfs_watchChannelEvent;
event->tcl.nextPtr = NULL;
event->channelInstanceData = channelInstanceData;
channelInstanceData->queuedEvents++;
Tcl_QueueEvent((Tcl_Event *) event, TCL_QUEUE_TAIL);
return;
}
static int xvfs_tclfs_seekChannel(ClientData channelInstanceData_p, long offset, int mode, int *errorCodePtr) {
struct xvfs_tclfs_channel_id *channelInstanceData;
Tcl_WideInt newOffset, fileSize;
channelInstanceData = (struct xvfs_tclfs_channel_id *) channelInstanceData_p;
newOffset = channelInstanceData->currentOffset;
fileSize = channelInstanceData->fileSize;
switch (mode) {
case SEEK_CUR:
newOffset += offset;
break;
case SEEK_SET:
newOffset = offset;
break;
case SEEK_END:
newOffset = fileSize + offset;
break;
default:
*errorCodePtr = xvfs_errorToErrno(XVFS_RV_ERR_EINVAL);
return(-1);
}
/*
* We allow users to seek right up to the end of the buffer, but
* no further, this way if they want to seek backwards from there
* it is possible to do so.
*/
if (newOffset < 0 || newOffset > fileSize) {
*errorCodePtr = xvfs_errorToErrno(XVFS_RV_ERR_EINVAL);
return(-1);
}
if (newOffset != channelInstanceData->currentOffset) {
channelInstanceData->eofMarked = 0;
channelInstanceData->currentOffset = newOffset;
}
return(channelInstanceData->currentOffset);
}
static void xvfs_tclfs_prepareChannelType(void) {
xvfs_tclfs_channelType.typeName = "xvfs";
xvfs_tclfs_channelType.version = TCL_CHANNEL_VERSION_2;
xvfs_tclfs_channelType.closeProc = xvfs_tclfs_closeChannel;
xvfs_tclfs_channelType.inputProc = xvfs_tclfs_readChannel;
xvfs_tclfs_channelType.outputProc = NULL;
xvfs_tclfs_channelType.watchProc = xvfs_tclfs_watchChannel;
xvfs_tclfs_channelType.getHandleProc = NULL;
xvfs_tclfs_channelType.seekProc = xvfs_tclfs_seekChannel;
xvfs_tclfs_channelType.setOptionProc = NULL;
xvfs_tclfs_channelType.getOptionProc = NULL;
xvfs_tclfs_channelType.close2Proc = NULL;
xvfs_tclfs_channelType.blockModeProc = NULL;
xvfs_tclfs_channelType.flushProc = NULL;
xvfs_tclfs_channelType.handlerProc = NULL;
xvfs_tclfs_channelType.wideSeekProc = NULL;
xvfs_tclfs_channelType.threadActionProc = NULL;
xvfs_tclfs_channelType.truncateProc = NULL;
}
/*
* Internal Tcl_Filesystem functions, with the appropriate instance info
*/
static int xvfs_tclfs_pathInFilesystem(Tcl_Obj *path, ClientData *dataPtr, struct xvfs_tclfs_instance_info *instanceInfo) {
const char *relativePath;
int retval;
XVFS_DEBUG_ENTER;
XVFS_DEBUG_PRINTF("Checking to see if path \"%s\" is in the filesystem ...", Tcl_GetString(path));
path = xvfs_absolutePath(path);
relativePath = xvfs_relativePath(path, instanceInfo);
retval = TCL_OK;
if (!relativePath) {
retval = -1;
}
Tcl_DecrRefCount(path);
XVFS_DEBUG_PRINTF("... %s", retval == -1 ? "no" : "yes");
XVFS_DEBUG_LEAVE;
return(retval);
}
static int xvfs_tclfs_stat(Tcl_Obj *path, Tcl_StatBuf *statBuf, struct xvfs_tclfs_instance_info *instanceInfo) {
const char *pathStr;
int retval;
XVFS_DEBUG_ENTER;
XVFS_DEBUG_PRINTF("Getting stat() on \"%s\" ...", Tcl_GetString(path));
path = xvfs_absolutePath(path);
pathStr = xvfs_relativePath(path, instanceInfo);
retval = instanceInfo->fsInfo->getStatProc(pathStr, statBuf);
if (retval < 0) {
XVFS_DEBUG_PRINTF("... failed: %s", xvfs_strerror(retval));
Tcl_SetErrno(xvfs_errorToErrno(retval));
retval = -1;
} else {
XVFS_DEBUG_PUTS("... ok");
}
Tcl_DecrRefCount(path);
XVFS_DEBUG_LEAVE;
return(retval);
}
static int xvfs_tclfs_access(Tcl_Obj *path, int mode, struct xvfs_tclfs_instance_info *instanceInfo) {
const char *pathStr;
Tcl_StatBuf fileInfo;
int statRetVal;
XVFS_DEBUG_ENTER;
XVFS_DEBUG_PRINTF("Getting access(..., %i) on \"%s\" ...", mode, Tcl_GetString(path));
if (mode & W_OK) {
XVFS_DEBUG_PUTS("... no (not writable)");
XVFS_DEBUG_LEAVE;
return(-1);
}
path = xvfs_absolutePath(path);
pathStr = xvfs_relativePath(path, instanceInfo);
if (!pathStr) {
XVFS_DEBUG_PUTS("... no (not in our path)");
Tcl_DecrRefCount(path);
XVFS_DEBUG_LEAVE;
return(-1);
}
statRetVal = instanceInfo->fsInfo->getStatProc(pathStr, &fileInfo);
if (statRetVal < 0) {
XVFS_DEBUG_PUTS("... no (not statable)");
Tcl_DecrRefCount(path);
XVFS_DEBUG_LEAVE;
return(-1);
}
if (mode & X_OK) {
if (!(fileInfo.st_mode & 040000)) {
XVFS_DEBUG_PUTS("... no (not a directory and X_OK specified)");
Tcl_DecrRefCount(path);
XVFS_DEBUG_LEAVE;
return(-1);
}
}
Tcl_DecrRefCount(path);
XVFS_DEBUG_PUTS("... ok");
XVFS_DEBUG_LEAVE;
return(0);
}
static Tcl_Channel xvfs_tclfs_openFileChannel(Tcl_Interp *interp, Tcl_Obj *path, int mode, int permissions, struct xvfs_tclfs_instance_info *instanceInfo) {
Tcl_Channel retval;
Tcl_Obj *pathRel;
const char *pathStr;
XVFS_DEBUG_ENTER;
XVFS_DEBUG_PRINTF("Asked to open(\"%s\", %x)...", Tcl_GetString(path), mode);
if (mode & O_WRONLY) {
XVFS_DEBUG_PUTS("... failed (asked to open for writing)");
xvfs_setresults_error(interp, XVFS_RV_ERR_EROFS);
XVFS_DEBUG_LEAVE;
return(NULL);
}
path = xvfs_absolutePath(path);
pathStr = xvfs_relativePath(path, instanceInfo);
pathRel = Tcl_NewStringObj(pathStr, -1);
Tcl_DecrRefCount(path);
XVFS_DEBUG_PUTS("... done, passing off to channel handler");
retval = xvfs_tclfs_openChannel(interp, pathRel, instanceInfo);
XVFS_DEBUG_LEAVE;
return(retval);
}
static int xvfs_tclfs_verifyType(Tcl_Obj *path, Tcl_GlobTypeData *types, struct xvfs_tclfs_instance_info *instanceInfo) {
const char *pathStr;
Tcl_StatBuf fileInfo;
int statRetVal;
XVFS_DEBUG_ENTER;
if (types) {
XVFS_DEBUG_PRINTF("Asked to verify the existence and type of \"%s\" matches type=%i and perm=%i ...", Tcl_GetString(path), types->type, types->perm);
} else {
XVFS_DEBUG_PRINTF("Asked to verify the existence \"%s\" ...", Tcl_GetString(path));
}
statRetVal = xvfs_tclfs_stat(path, &fileInfo, instanceInfo);
if (statRetVal != 0) {
XVFS_DEBUG_PUTS("... no (cannot stat)");
XVFS_DEBUG_LEAVE;
return(0);
}
if (!types) {
XVFS_DEBUG_PUTS("... yes");
XVFS_DEBUG_LEAVE;
return(1);
}
if (types->perm != TCL_GLOB_PERM_RONLY) {
if (types->perm & (TCL_GLOB_PERM_W | TCL_GLOB_PERM_HIDDEN)) {
XVFS_DEBUG_PUTS("... no (checked for writable or hidden, not supported)");
XVFS_DEBUG_LEAVE;
return(0);
}
if ((types->perm & TCL_GLOB_PERM_X) == TCL_GLOB_PERM_X) {
if (!(fileInfo.st_mode & 040000)) {
XVFS_DEBUG_PUTS("... no (checked for executable but not a directory)");
XVFS_DEBUG_LEAVE;
return(0);
}
}
}
if (types->type & (TCL_GLOB_TYPE_BLOCK | TCL_GLOB_TYPE_CHAR | TCL_GLOB_TYPE_PIPE | TCL_GLOB_TYPE_SOCK | TCL_GLOB_TYPE_LINK)) {
XVFS_DEBUG_PUTS("... no (checked for block, char, pipe, sock, or link, not supported)");
XVFS_DEBUG_LEAVE;
return(0);
}
if ((types->type & TCL_GLOB_TYPE_DIR) == TCL_GLOB_TYPE_DIR) {
if (!(fileInfo.st_mode & 040000)) {
XVFS_DEBUG_PUTS("... no (checked for directory but not a directory)");
XVFS_DEBUG_LEAVE;
return(0);
}
}
if ((types->type & TCL_GLOB_TYPE_FILE) == TCL_GLOB_TYPE_FILE) {
if (!(fileInfo.st_mode & 0100000)) {
XVFS_DEBUG_PUTS("... no (checked for file but not a file)");
XVFS_DEBUG_LEAVE;
return(0);
}
}
if ((types->type & TCL_GLOB_TYPE_MOUNT) == TCL_GLOB_TYPE_MOUNT) {
path = xvfs_absolutePath(path);
pathStr = xvfs_relativePath(path, instanceInfo);
if (!pathStr) {
XVFS_DEBUG_PUTS("... no (checked for mount but not able to resolve path)");
Tcl_DecrRefCount(path);
XVFS_DEBUG_LEAVE;
return(0);
}
if (strlen(pathStr) != 0) {
XVFS_DEBUG_PUTS("... no (checked for mount but not our top-level directory)");
Tcl_DecrRefCount(path);
XVFS_DEBUG_LEAVE;
return(0);
}
Tcl_DecrRefCount(path);
}
XVFS_DEBUG_PUTS("... yes");
XVFS_DEBUG_LEAVE;
return(1);
}
static int xvfs_tclfs_matchInDir(Tcl_Interp *interp, Tcl_Obj *resultPtr, Tcl_Obj *path, const char *pattern, Tcl_GlobTypeData *types, struct xvfs_tclfs_instance_info *instanceInfo) {
const char *pathStr;
const char **children, *child;
Tcl_WideInt childrenCount, idx;
Tcl_Obj *childObj;
int tclRetVal;
if (pattern == NULL) {
if (xvfs_tclfs_verifyType(path, types, instanceInfo)) {
return(TCL_OK);
}
return(TCL_ERROR);
}
XVFS_DEBUG_ENTER;
path = xvfs_absolutePath(path);
if (types) {
XVFS_DEBUG_PRINTF("Checking for files matching %s in \"%s\" and type=%i and perm=%i ...", pattern, Tcl_GetString(path), types->type, types->perm);
} else {
XVFS_DEBUG_PRINTF("Checking for files matching %s in \"%s\" ...", pattern, Tcl_GetString(path));
}
pathStr = xvfs_relativePath(path, instanceInfo);
if (!pathStr) {
XVFS_DEBUG_PUTS("... error (not in our VFS)");
Tcl_DecrRefCount(path);
xvfs_setresults_error(interp, XVFS_RV_ERR_ENOENT);
XVFS_DEBUG_LEAVE;
return(TCL_OK);
}
childrenCount = 0;
children = instanceInfo->fsInfo->getChildrenProc(pathStr, &childrenCount);
if (childrenCount < 0) {
XVFS_DEBUG_PRINTF("... error: %s", xvfs_strerror(childrenCount));
Tcl_DecrRefCount(path);
xvfs_setresults_error(interp, childrenCount);
XVFS_DEBUG_LEAVE;
return(TCL_ERROR);
}
for (idx = 0; idx < childrenCount; idx++) {
child = children[idx];
if (!Tcl_StringMatch(child, pattern)) {
continue;
}
childObj = Tcl_DuplicateObj(path);
Tcl_IncrRefCount(childObj);
Tcl_AppendStringsToObj(childObj, "/", child, NULL);
if (!xvfs_tclfs_verifyType(childObj, types, instanceInfo)) {
Tcl_DecrRefCount(childObj);
continue;
}
tclRetVal = Tcl_ListObjAppendElement(interp, resultPtr, childObj);
Tcl_DecrRefCount(childObj);
if (tclRetVal != TCL_OK) {
XVFS_DEBUG_PUTS("... error (lappend)");
Tcl_DecrRefCount(path);
XVFS_DEBUG_LEAVE;
return(tclRetVal);
}
}
Tcl_DecrRefCount(path);
XVFS_DEBUG_PRINTF("... ok (returning items: %s)", Tcl_GetString(resultPtr));
XVFS_DEBUG_LEAVE;
return(TCL_OK);
}
#endif /* XVFS_MODE_SERVER || XVFS_MODE_STANDALONE || XVFS_MODE_FLEIXBLE */
#if defined(XVFS_MODE_STANDALONE) || defined(XVFS_MODE_FLEXIBLE)
/*
* Tcl_Filesystem handlers for the standalone implementation
*/
static struct xvfs_tclfs_instance_info xvfs_tclfs_standalone_info;
static int xvfs_tclfs_standalone_pathInFilesystem(Tcl_Obj *path, ClientData *dataPtr) {
return(xvfs_tclfs_pathInFilesystem(path, dataPtr, &xvfs_tclfs_standalone_info));
}
static int xvfs_tclfs_standalone_stat(Tcl_Obj *path, Tcl_StatBuf *statBuf) {
return(xvfs_tclfs_stat(path, statBuf, &xvfs_tclfs_standalone_info));
}
static int xvfs_tclfs_standalone_access(Tcl_Obj *path, int mode) {
return(xvfs_tclfs_access(path, mode, &xvfs_tclfs_standalone_info));
}
static Tcl_Channel xvfs_tclfs_standalone_openFileChannel(Tcl_Interp *interp, Tcl_Obj *path, int mode, int permissions) {
return(xvfs_tclfs_openFileChannel(interp, path, mode, permissions, &xvfs_tclfs_standalone_info));
}
static int xvfs_tclfs_standalone_matchInDir(Tcl_Interp *interp, Tcl_Obj *resultPtr, Tcl_Obj *pathPtr, const char *pattern, Tcl_GlobTypeData *types) {
return(xvfs_tclfs_matchInDir(interp, resultPtr, pathPtr, pattern, types, &xvfs_tclfs_standalone_info));
}
/*
* There are three (3) modes of operation for Xvfs_Register:
* 1. standalone -- We register our own Tcl_Filesystem
* and handle requests under `//xvfs:/<fsName>`
* 2. client -- A single Tcl_Filesystem is registered for the
* interp to handle requests under `//xvfs:/` which
* then dispatches to the appropriate registered
* handler
* 3. flexible -- Attempts to find a core Xvfs instance for the
* process at runtime, if found do #2, otherwise
* fallback to #1
*
*/
static Tcl_Filesystem xvfs_tclfs_standalone_fs;
static int xvfs_standalone_register(Tcl_Interp *interp, struct Xvfs_FSInfo *fsInfo) {
int tclRet;
static int registered = 0;
/*
* Ensure this instance is not already registered
*/
if (registered) {
return(TCL_OK);
}
registered = 1;
/*
* In standalone mode, we only support the same protocol we are
* compiling for.
*/
if (fsInfo->protocolVersion != XVFS_PROTOCOL_VERSION) {
if (interp) {
Tcl_SetResult(interp, "Protocol mismatch", NULL);
}
return(TCL_ERROR);
}
xvfs_tclfs_standalone_fs.typeName = "xvfsInstance";
xvfs_tclfs_standalone_fs.structureLength = sizeof(xvfs_tclfs_standalone_fs);
xvfs_tclfs_standalone_fs.version = TCL_FILESYSTEM_VERSION_1;
xvfs_tclfs_standalone_fs.pathInFilesystemProc = xvfs_tclfs_standalone_pathInFilesystem;
xvfs_tclfs_standalone_fs.dupInternalRepProc = NULL;
xvfs_tclfs_standalone_fs.freeInternalRepProc = NULL;
xvfs_tclfs_standalone_fs.internalToNormalizedProc = NULL;
xvfs_tclfs_standalone_fs.createInternalRepProc = NULL;
xvfs_tclfs_standalone_fs.normalizePathProc = NULL;
xvfs_tclfs_standalone_fs.filesystemPathTypeProc = NULL;
xvfs_tclfs_standalone_fs.filesystemSeparatorProc = NULL;
xvfs_tclfs_standalone_fs.statProc = xvfs_tclfs_standalone_stat;
xvfs_tclfs_standalone_fs.accessProc = xvfs_tclfs_standalone_access;
xvfs_tclfs_standalone_fs.openFileChannelProc = xvfs_tclfs_standalone_openFileChannel;
xvfs_tclfs_standalone_fs.matchInDirectoryProc = xvfs_tclfs_standalone_matchInDir;
xvfs_tclfs_standalone_fs.utimeProc = NULL;
xvfs_tclfs_standalone_fs.linkProc = NULL;
xvfs_tclfs_standalone_fs.listVolumesProc = NULL;
xvfs_tclfs_standalone_fs.fileAttrStringsProc = NULL;
xvfs_tclfs_standalone_fs.fileAttrsGetProc = NULL;
xvfs_tclfs_standalone_fs.fileAttrsSetProc = NULL;
xvfs_tclfs_standalone_fs.createDirectoryProc = NULL;
xvfs_tclfs_standalone_fs.removeDirectoryProc = NULL;
xvfs_tclfs_standalone_fs.deleteFileProc = NULL;
xvfs_tclfs_standalone_fs.copyFileProc = NULL;
xvfs_tclfs_standalone_fs.renameFileProc = NULL;
xvfs_tclfs_standalone_fs.copyDirectoryProc = NULL;
xvfs_tclfs_standalone_fs.lstatProc = NULL;
xvfs_tclfs_standalone_fs.loadFileProc = NULL;
xvfs_tclfs_standalone_fs.getCwdProc = NULL;
xvfs_tclfs_standalone_fs.chdirProc = NULL;
xvfs_tclfs_standalone_info.fsInfo = fsInfo;
xvfs_tclfs_standalone_info.mountpoint = Tcl_NewObj();
Tcl_IncrRefCount(xvfs_tclfs_standalone_info.mountpoint);
Tcl_AppendStringsToObj(xvfs_tclfs_standalone_info.mountpoint, XVFS_ROOT_MOUNTPOINT, fsInfo->name, NULL);
tclRet = Tcl_FSRegister(NULL, &xvfs_tclfs_standalone_fs);
if (tclRet != TCL_OK) {
Tcl_DecrRefCount(xvfs_tclfs_standalone_info.mountpoint);
if (interp) {
Tcl_SetResult(interp, "Tcl_FSRegister() failed", NULL);
}
return(tclRet);
}
xvfs_tclfs_prepareChannelType();
return(TCL_OK);
}
#endif /* XVFS_MODE_STANDALONE || XVFS_MODE_FLEXIBLE */
#if defined(XVFS_MODE_FLEXIBLE)
static int xvfs_flexible_register(Tcl_Interp *interp, struct Xvfs_FSInfo *fsInfo) {
ClientData fsHandlerDataRaw;
struct xvfs_tclfs_server_info *fsHandlerData;
const Tcl_Filesystem *fsHandler;
int (*xvfs_register)(Tcl_Interp *interp, struct Xvfs_FSInfo *fsInfo);
Tcl_Obj *rootPathObj;
XVFS_DEBUG_ENTER;
xvfs_register = &xvfs_standalone_register;
rootPathObj = Tcl_NewStringObj(XVFS_ROOT_MOUNTPOINT, -1);
if (!rootPathObj) {
XVFS_DEBUG_LEAVE;
return(xvfs_register(interp, fsInfo));
}
Tcl_IncrRefCount(rootPathObj);
fsHandler = Tcl_FSGetFileSystemForPath(rootPathObj);
Tcl_DecrRefCount(rootPathObj);
if (!fsHandler) {
XVFS_DEBUG_LEAVE;
return(xvfs_register(interp, fsInfo));
}
fsHandlerDataRaw = Tcl_FSData(fsHandler);
if (!fsHandlerDataRaw) {
XVFS_DEBUG_LEAVE;
return(xvfs_register(interp, fsInfo));
}
fsHandlerData = (struct xvfs_tclfs_server_info *) fsHandlerDataRaw;
/*
* XXX:TODO: What is the chance that the handler for //xvfs:/ hold
* client data smaller than XVFS_INTERNAL_SERVER_MAGIC_LEN ?
*/
if (memcmp(fsHandlerData->magic, XVFS_INTERNAL_SERVER_MAGIC, sizeof(fsHandlerData->magic)) == 0) {
XVFS_DEBUG_PUTS("Found a server handler");
xvfs_register = fsHandlerData->registerProc;
}
XVFS_DEBUG_LEAVE;
return(xvfs_register(interp, fsInfo));
}
#endif /* XVFS_MODE_FLEXIBLE */
#if defined(XVFS_MODE_SERVER)
static Tcl_Filesystem xvfs_tclfs_dispatch_fs;
static Tcl_HashTable xvfs_tclfs_dispatch_map;
static struct xvfs_tclfs_server_info xvfs_tclfs_dispatch_fsdata;
static int xvfs_tclfs_dispatch_pathInFS(Tcl_Obj *path, ClientData *dataPtr) {
const char *pathStr, *rootStr;
int pathLen, rootLen;
XVFS_DEBUG_ENTER;
XVFS_DEBUG_PRINTF("Verifying that \"%s\" belongs in XVFS ...", Tcl_GetString(path));
rootStr = XVFS_ROOT_MOUNTPOINT;
rootLen = strlen(XVFS_ROOT_MOUNTPOINT);
pathStr = Tcl_GetStringFromObj(path, &pathLen);
if (pathLen < rootLen) {
XVFS_DEBUG_PUTS("... failed (length too short)");
XVFS_DEBUG_LEAVE;
return(-1);
}
if (memcmp(pathStr, rootStr, rootLen) != 0) {
XVFS_DEBUG_PUTS("... failed (incorrect prefix)");
XVFS_DEBUG_LEAVE;
return(-1);
}
XVFS_DEBUG_PUTS("... yes");
XVFS_DEBUG_LEAVE;
return(TCL_OK);
}
static struct xvfs_tclfs_instance_info *xvfs_tclfs_dispatch_pathToInfo(Tcl_Obj *path) {
Tcl_HashEntry *mapEntry;
struct xvfs_tclfs_instance_info *retval;
int rootLen;
char *pathStr, *fsName, *fsNameEnds, origSep;
XVFS_DEBUG_ENTER;
if (xvfs_tclfs_dispatch_pathInFS(path, NULL) != TCL_OK) {
XVFS_DEBUG_LEAVE;
return(NULL);
}
rootLen = strlen(XVFS_ROOT_MOUNTPOINT);
pathStr = Tcl_GetString(path);
fsName = ((char *) pathStr) + rootLen;
fsNameEnds = strchr(fsName, '/');
if (fsNameEnds) {
origSep = *fsNameEnds;
*fsNameEnds = '\0';
}
XVFS_DEBUG_PRINTF("... fsName = %s...", fsName);
mapEntry = Tcl_FindHashEntry(&xvfs_tclfs_dispatch_map, fsName);
if (fsNameEnds) {
*fsNameEnds = origSep;
}
if (mapEntry) {
retval = (struct xvfs_tclfs_instance_info *) Tcl_GetHashValue(mapEntry);
XVFS_DEBUG_PRINTF("... found a registered filesystem: %p", retval);
} else {
retval = NULL;
XVFS_DEBUG_PUTS("... found no registered filesystem.");
}
XVFS_DEBUG_LEAVE;
return(retval);
}
static int xvfs_tclfs_dispatch_stat(Tcl_Obj *path, Tcl_StatBuf *statBuf) {
struct xvfs_tclfs_instance_info *instanceInfo;
instanceInfo = xvfs_tclfs_dispatch_pathToInfo(path);
if (!instanceInfo) {
Tcl_SetErrno(xvfs_errorToErrno(XVFS_RV_ERR_ENOENT));
return(-1);
}
return(xvfs_tclfs_stat(path, statBuf, instanceInfo));
}
static int xvfs_tclfs_dispatch_access(Tcl_Obj *path, int mode) {
struct xvfs_tclfs_instance_info *instanceInfo;
instanceInfo = xvfs_tclfs_dispatch_pathToInfo(path);
if (!instanceInfo) {
return(-1);
}
return(xvfs_tclfs_access(path, mode, instanceInfo));
}
static Tcl_Channel xvfs_tclfs_dispatch_openFileChannel(Tcl_Interp *interp, Tcl_Obj *path, int mode, int permissions) {
struct xvfs_tclfs_instance_info *instanceInfo;
instanceInfo = xvfs_tclfs_dispatch_pathToInfo(path);
if (!instanceInfo) {
return(NULL);
}
return(xvfs_tclfs_openFileChannel(interp, path, mode, permissions, instanceInfo));
}
static int xvfs_tclfs_dispatch_matchInDir(Tcl_Interp *interp, Tcl_Obj *resultPtr, Tcl_Obj *pathPtr, const char *pattern, Tcl_GlobTypeData *types) {
struct xvfs_tclfs_instance_info *instanceInfo;
instanceInfo = xvfs_tclfs_dispatch_pathToInfo(pathPtr);
if (!instanceInfo) {
return(TCL_ERROR);
}
return(xvfs_tclfs_matchInDir(interp, resultPtr, pathPtr, pattern, types, instanceInfo));
}
int Xvfs_Init(Tcl_Interp *interp) {
static int registered = 0;
int tclRet;
#ifdef USE_TCL_STUBS
const char *tclInitStubs_ret;
#endif
/* XXX:TODO: Make this thread-safe */
if (registered) {
return(TCL_OK);
}
registered = 1;
#ifdef USE_TCL_STUBS
/* Initialize Stubs */
tclInitStubs_ret = Tcl_InitStubs(interp, TCL_PATCH_LEVEL, 0);
if (!tclInitStubs_ret) {
return(TCL_ERROR);
}
#endif
xvfs_tclfs_dispatch_fs.typeName = "xvfsDispatch";
xvfs_tclfs_dispatch_fs.structureLength = sizeof(xvfs_tclfs_dispatch_fs);
xvfs_tclfs_dispatch_fs.version = TCL_FILESYSTEM_VERSION_1;
xvfs_tclfs_dispatch_fs.pathInFilesystemProc = xvfs_tclfs_dispatch_pathInFS;
xvfs_tclfs_dispatch_fs.dupInternalRepProc = NULL;
xvfs_tclfs_dispatch_fs.freeInternalRepProc = NULL;
xvfs_tclfs_dispatch_fs.internalToNormalizedProc = NULL;
xvfs_tclfs_dispatch_fs.createInternalRepProc = NULL;
xvfs_tclfs_dispatch_fs.normalizePathProc = NULL;
xvfs_tclfs_dispatch_fs.filesystemPathTypeProc = NULL;
xvfs_tclfs_dispatch_fs.filesystemSeparatorProc = NULL;
xvfs_tclfs_dispatch_fs.statProc = xvfs_tclfs_dispatch_stat;
xvfs_tclfs_dispatch_fs.accessProc = xvfs_tclfs_dispatch_access;
xvfs_tclfs_dispatch_fs.openFileChannelProc = xvfs_tclfs_dispatch_openFileChannel;
xvfs_tclfs_dispatch_fs.matchInDirectoryProc = xvfs_tclfs_dispatch_matchInDir;
xvfs_tclfs_dispatch_fs.utimeProc = NULL;
xvfs_tclfs_dispatch_fs.linkProc = NULL;
xvfs_tclfs_dispatch_fs.listVolumesProc = NULL;
xvfs_tclfs_dispatch_fs.fileAttrStringsProc = NULL;
xvfs_tclfs_dispatch_fs.fileAttrsGetProc = NULL;
xvfs_tclfs_dispatch_fs.fileAttrsSetProc = NULL;
xvfs_tclfs_dispatch_fs.createDirectoryProc = NULL;
xvfs_tclfs_dispatch_fs.removeDirectoryProc = NULL;
xvfs_tclfs_dispatch_fs.deleteFileProc = NULL;
xvfs_tclfs_dispatch_fs.copyFileProc = NULL;
xvfs_tclfs_dispatch_fs.renameFileProc = NULL;
xvfs_tclfs_dispatch_fs.copyDirectoryProc = NULL;
xvfs_tclfs_dispatch_fs.lstatProc = NULL;
xvfs_tclfs_dispatch_fs.loadFileProc = NULL;
xvfs_tclfs_dispatch_fs.getCwdProc = NULL;
xvfs_tclfs_dispatch_fs.chdirProc = NULL;
memcpy(xvfs_tclfs_dispatch_fsdata.magic, XVFS_INTERNAL_SERVER_MAGIC, XVFS_INTERNAL_SERVER_MAGIC_LEN);
xvfs_tclfs_dispatch_fsdata.registerProc = Xvfs_Register;
tclRet = Tcl_FSRegister((ClientData) &xvfs_tclfs_dispatch_fsdata, &xvfs_tclfs_dispatch_fs);
if (tclRet != TCL_OK) {
if (interp) {
Tcl_SetResult(interp, "Tcl_FSRegister() failed", NULL);
}
return(tclRet);
}
/*
* Initialize the channel type we will use for I/O
*/
xvfs_tclfs_prepareChannelType();
/*
* Initialize the map to lookup paths to registered
* filesystems
*/
Tcl_InitHashTable(&xvfs_tclfs_dispatch_map, TCL_STRING_KEYS);
return(TCL_OK);
}
int Xvfs_Register(Tcl_Interp *interp, struct Xvfs_FSInfo *fsInfo) {
Tcl_HashEntry *mapEntry;
struct xvfs_tclfs_instance_info *instanceInfo;
int dispatchInitRet;
int new;
dispatchInitRet = Xvfs_Init(interp);
if (dispatchInitRet != TCL_OK) {
return(dispatchInitRet);
}
/*
* Verify this is for a protocol we support
*/
if (fsInfo->protocolVersion != XVFS_PROTOCOL_VERSION) {
if (interp) {
Tcl_SetResult(interp, "Protocol mismatch", NULL);
}
return(TCL_ERROR);
}
/*
* Create the structure needed
*/
instanceInfo = (struct xvfs_tclfs_instance_info *) Tcl_Alloc(sizeof(*instanceInfo));
instanceInfo->fsInfo = fsInfo;
instanceInfo->mountpoint = Tcl_ObjPrintf("%s%s", XVFS_ROOT_MOUNTPOINT, fsInfo->name);
Tcl_IncrRefCount(instanceInfo->mountpoint);
/*
* Register a hash table entry for this name
*/
new = 0;
mapEntry = Tcl_CreateHashEntry(&xvfs_tclfs_dispatch_map, fsInfo->name, &new);
Tcl_SetHashValue(mapEntry, instanceInfo);
return(TCL_OK);
}
#endif /* XVFS_MODE_SERVER */
#undef XVFS_DEBUG_PRINTF
#undef XVFS_DEBUG_PUTS
#undef XVFS_DEBUG_ENTER
#undef XVFS_DEBUG_LEAVE
#undef XVFS_INTERNAL_SERVER_MAGIC
#undef XVFS_INTERNAL_SERVER_MAGIC_LEN
#undef XVFS_ROOT_MOUNTPOINT