/** * FreeRDP: A Remote Desktop Protocol Implementation * X11 Clipboard Redirection * * Copyright 2010-2011 Vic Lee * Copyright 2015 Thincast Technologies GmbH * Copyright 2015 DI (FH) Martin Haimberger * Copyright 2023 Armin Novak * Copyright 2023 Pascal Nowack * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #ifdef WITH_FUSE #define FUSE_USE_VERSION 30 #include #endif #if defined(WITH_FUSE) #include #include #include #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #define MAX_CLIP_DATA_DIR_LEN 10 #define NO_CLIP_DATA_ID (UINT64_C(1) << 32) #define WIN32_FILETIME_TO_UNIX_EPOCH UINT64_C(11644473600) #ifdef WITH_DEBUG_CLIPRDR #define DEBUG_CLIPRDR(log, ...) WLog_Print(log, WLOG_DEBUG, __VA_ARGS__) #else #define DEBUG_CLIPRDR(log, ...) \ do \ { \ } while (0) #endif #if defined(WITH_FUSE) typedef enum eFuseLowlevelOperationType { FUSE_LL_OPERATION_NONE, FUSE_LL_OPERATION_LOOKUP, FUSE_LL_OPERATION_GETATTR, FUSE_LL_OPERATION_READ, } FuseLowlevelOperationType; typedef struct sCliprdrFuseFile CliprdrFuseFile; struct sCliprdrFuseFile { CliprdrFuseFile* parent; wArrayList* children; char* filename; char* filename_with_root; UINT32 list_idx; fuse_ino_t ino; BOOL is_directory; BOOL is_readonly; BOOL has_size; UINT64 size; BOOL has_last_write_time; UINT64 last_write_time_unix; BOOL has_clip_data_id; UINT32 clip_data_id; }; typedef struct { CliprdrFileContext* file_context; CliprdrFuseFile* clip_data_dir; BOOL has_clip_data_id; UINT32 clip_data_id; } CliprdrFuseClipDataEntry; typedef struct { CliprdrFileContext* file_context; wArrayList* fuse_files; BOOL all_files; BOOL has_clip_data_id; UINT32 clip_data_id; } FuseFileClearContext; typedef struct { FuseLowlevelOperationType operation_type; CliprdrFuseFile* fuse_file; fuse_req_t fuse_req; UINT32 stream_id; } CliprdrFuseRequest; typedef struct { CliprdrFuseFile* parent; char* parent_path; } CliprdrFuseFindParentContext; #endif typedef struct { char* name; FILE* fp; INT64 size; CliprdrFileContext* context; } CliprdrLocalFile; typedef struct { UINT32 lockId; BOOL locked; size_t count; CliprdrLocalFile* files; CliprdrFileContext* context; } CliprdrLocalStream; struct cliprdr_file_context { #if defined(WITH_FUSE) /* FUSE related**/ HANDLE fuse_start_sync; HANDLE fuse_stop_sync; HANDLE fuse_thread; struct fuse_session* fuse_sess; #if FUSE_USE_VERSION < 30 struct fuse_chan* ch; #endif wHashTable* inode_table; wHashTable* clip_data_table; wHashTable* request_table; CliprdrFuseFile* root_dir; CliprdrFuseClipDataEntry* clip_data_entry_without_id; UINT32 current_clip_data_id; fuse_ino_t next_ino; UINT32 next_clip_data_id; UINT32 next_stream_id; #endif /* File clipping */ BOOL file_formats_registered; UINT32 file_capability_flags; UINT32 local_lock_id; wHashTable* local_streams; wLog* log; void* clipboard; CliprdrClientContext* context; char* path; char* exposed_path; BYTE server_data_hash[WINPR_SHA256_DIGEST_LENGTH]; BYTE client_data_hash[WINPR_SHA256_DIGEST_LENGTH]; }; #if defined(WITH_FUSE) static void fuse_file_free(void* data) { CliprdrFuseFile* fuse_file = data; if (!fuse_file) return; ArrayList_Free(fuse_file->children); free(fuse_file->filename_with_root); free(fuse_file); } static CliprdrFuseFile* fuse_file_new(void) { CliprdrFuseFile* fuse_file = NULL; fuse_file = calloc(1, sizeof(CliprdrFuseFile)); if (!fuse_file) return NULL; fuse_file->children = ArrayList_New(FALSE); if (!fuse_file->children) { free(fuse_file); return NULL; } return fuse_file; } static void clip_data_entry_free(void* data) { CliprdrFuseClipDataEntry* clip_data_entry = data; if (!clip_data_entry) return; if (clip_data_entry->has_clip_data_id) { CliprdrFileContext* file_context = clip_data_entry->file_context; CLIPRDR_UNLOCK_CLIPBOARD_DATA unlock_clipboard_data = { 0 }; WINPR_ASSERT(file_context); unlock_clipboard_data.common.msgType = CB_UNLOCK_CLIPDATA; unlock_clipboard_data.clipDataId = clip_data_entry->clip_data_id; file_context->context->ClientUnlockClipboardData(file_context->context, &unlock_clipboard_data); clip_data_entry->has_clip_data_id = FALSE; WLog_Print(file_context->log, WLOG_DEBUG, "Destroyed ClipDataEntry with id %u", clip_data_entry->clip_data_id); } free(clip_data_entry); } static BOOL does_server_support_clipdata_locking(CliprdrFileContext* file_context) { WINPR_ASSERT(file_context); if (cliprdr_file_context_remote_get_flags(file_context) & CB_CAN_LOCK_CLIPDATA) return TRUE; return FALSE; } static UINT32 get_next_free_clip_data_id(CliprdrFileContext* file_context) { UINT32 clip_data_id = 0; WINPR_ASSERT(file_context); HashTable_Lock(file_context->inode_table); clip_data_id = file_context->next_clip_data_id; while (clip_data_id == 0 || HashTable_GetItemValue(file_context->clip_data_table, (void*)(UINT_PTR)clip_data_id)) ++clip_data_id; file_context->next_clip_data_id = clip_data_id + 1; HashTable_Unlock(file_context->inode_table); return clip_data_id; } static CliprdrFuseClipDataEntry* clip_data_entry_new(CliprdrFileContext* file_context, BOOL needs_clip_data_id) { CliprdrFuseClipDataEntry* clip_data_entry = NULL; CLIPRDR_LOCK_CLIPBOARD_DATA lock_clipboard_data = { 0 }; WINPR_ASSERT(file_context); clip_data_entry = calloc(1, sizeof(CliprdrFuseClipDataEntry)); if (!clip_data_entry) return NULL; clip_data_entry->file_context = file_context; clip_data_entry->clip_data_id = get_next_free_clip_data_id(file_context); if (!needs_clip_data_id) return clip_data_entry; lock_clipboard_data.common.msgType = CB_LOCK_CLIPDATA; lock_clipboard_data.clipDataId = clip_data_entry->clip_data_id; if (file_context->context->ClientLockClipboardData(file_context->context, &lock_clipboard_data)) { HashTable_Lock(file_context->inode_table); clip_data_entry_free(clip_data_entry); HashTable_Unlock(file_context->inode_table); return NULL; } clip_data_entry->has_clip_data_id = TRUE; WLog_Print(file_context->log, WLOG_DEBUG, "Created ClipDataEntry with id %u", clip_data_entry->clip_data_id); return clip_data_entry; } static BOOL should_remove_fuse_file(CliprdrFuseFile* fuse_file, BOOL all_files, BOOL has_clip_data_id, UINT32 clip_data_id) { if (all_files) return TRUE; if (fuse_file->ino == FUSE_ROOT_ID) return FALSE; if (!fuse_file->has_clip_data_id && !has_clip_data_id) return TRUE; if (fuse_file->has_clip_data_id && has_clip_data_id && (fuse_file->clip_data_id == clip_data_id)) return TRUE; return FALSE; } static BOOL maybe_clear_fuse_request(const void* key, void* value, void* arg) { CliprdrFuseRequest* fuse_request = value; FuseFileClearContext* clear_context = arg; CliprdrFileContext* file_context = clear_context->file_context; CliprdrFuseFile* fuse_file = fuse_request->fuse_file; WINPR_ASSERT(file_context); if (!should_remove_fuse_file(fuse_file, clear_context->all_files, clear_context->has_clip_data_id, clear_context->clip_data_id)) return TRUE; DEBUG_CLIPRDR(file_context->log, "Clearing FileContentsRequest for file \"%s\"", fuse_file->filename_with_root); fuse_reply_err(fuse_request->fuse_req, EIO); HashTable_Remove(file_context->request_table, key); return TRUE; } static BOOL maybe_steal_inode(const void* key, void* value, void* arg) { CliprdrFuseFile* fuse_file = value; FuseFileClearContext* clear_context = arg; CliprdrFileContext* file_context = clear_context->file_context; WINPR_ASSERT(file_context); if (should_remove_fuse_file(fuse_file, clear_context->all_files, clear_context->has_clip_data_id, clear_context->clip_data_id)) { if (!ArrayList_Append(clear_context->fuse_files, fuse_file)) WLog_Print(file_context->log, WLOG_ERROR, "Failed to append FUSE file to list for deletion"); HashTable_Remove(file_context->inode_table, key); } return TRUE; } static BOOL notify_delete_child(void* data, size_t index, va_list ap) { CliprdrFuseFile* child = data; WINPR_ASSERT(child); CliprdrFileContext* file_context = va_arg(ap, CliprdrFileContext*); CliprdrFuseFile* parent = va_arg(ap, CliprdrFuseFile*); WINPR_ASSERT(file_context); WINPR_ASSERT(parent); WINPR_ASSERT(file_context->fuse_sess); fuse_lowlevel_notify_delete(file_context->fuse_sess, parent->ino, child->ino, child->filename, strlen(child->filename)); return TRUE; } static BOOL invalidate_inode(void* data, size_t index, va_list ap) { CliprdrFuseFile* fuse_file = data; WINPR_ASSERT(fuse_file); CliprdrFileContext* file_context = va_arg(ap, CliprdrFileContext*); WINPR_ASSERT(file_context); WINPR_ASSERT(file_context->fuse_sess); ArrayList_ForEach(fuse_file->children, notify_delete_child, file_context, fuse_file); DEBUG_CLIPRDR(file_context->log, "Invalidating inode %lu for file \"%s\"", fuse_file->ino, fuse_file->filename); fuse_lowlevel_notify_inval_inode(file_context->fuse_sess, fuse_file->ino, 0, 0); WLog_Print(file_context->log, WLOG_DEBUG, "Inode %lu invalidated", fuse_file->ino); return TRUE; } static void clear_selection(CliprdrFileContext* file_context, BOOL all_selections, CliprdrFuseClipDataEntry* clip_data_entry) { FuseFileClearContext clear_context = { 0 }; CliprdrFuseFile* root_dir = NULL; CliprdrFuseFile* clip_data_dir = NULL; WINPR_ASSERT(file_context); root_dir = file_context->root_dir; WINPR_ASSERT(root_dir); clear_context.file_context = file_context; clear_context.fuse_files = ArrayList_New(FALSE); WINPR_ASSERT(clear_context.fuse_files); wObject* aobj = ArrayList_Object(clear_context.fuse_files); WINPR_ASSERT(aobj); aobj->fnObjectFree = fuse_file_free; if (clip_data_entry) { clip_data_dir = clip_data_entry->clip_data_dir; clip_data_entry->clip_data_dir = NULL; WINPR_ASSERT(clip_data_dir); ArrayList_Remove(root_dir->children, clip_data_dir); clear_context.has_clip_data_id = clip_data_dir->has_clip_data_id; clear_context.clip_data_id = clip_data_dir->clip_data_id; } clear_context.all_files = all_selections; if (clip_data_entry && clip_data_entry->has_clip_data_id) WLog_Print(file_context->log, WLOG_DEBUG, "Clearing selection for clipDataId %u", clip_data_entry->clip_data_id); else WLog_Print(file_context->log, WLOG_DEBUG, "Clearing selection%s", all_selections ? "s" : ""); HashTable_Foreach(file_context->request_table, maybe_clear_fuse_request, &clear_context); HashTable_Foreach(file_context->inode_table, maybe_steal_inode, &clear_context); HashTable_Unlock(file_context->inode_table); if (file_context->fuse_sess) { /* * fuse_lowlevel_notify_inval_inode() is a blocking operation. If we receive a * FUSE request (e.g. read()), then FUSE would block in read(), since the * mutex of the inode_table would still be locked, if we wouldn't unlock it * here. * So, to avoid a deadlock here, unlock the mutex and reply all incoming * operations with -ENOENT until the invalidation process is complete. */ ArrayList_ForEach(clear_context.fuse_files, invalidate_inode, file_context); if (clip_data_dir) { fuse_lowlevel_notify_delete(file_context->fuse_sess, file_context->root_dir->ino, clip_data_dir->ino, clip_data_dir->filename, strlen(clip_data_dir->filename)); } } ArrayList_Free(clear_context.fuse_files); HashTable_Lock(file_context->inode_table); if (clip_data_entry && clip_data_entry->has_clip_data_id) WLog_Print(file_context->log, WLOG_DEBUG, "Selection cleared for clipDataId %u", clip_data_entry->clip_data_id); else WLog_Print(file_context->log, WLOG_DEBUG, "Selection%s cleared", all_selections ? "s" : ""); } static void clear_entry_selection(CliprdrFuseClipDataEntry* clip_data_entry) { WINPR_ASSERT(clip_data_entry); if (!clip_data_entry->clip_data_dir) return; clear_selection(clip_data_entry->file_context, FALSE, clip_data_entry); } static void clear_no_cdi_entry(CliprdrFileContext* file_context) { WINPR_ASSERT(file_context); WINPR_ASSERT(file_context->inode_table); HashTable_Lock(file_context->inode_table); if (file_context->clip_data_entry_without_id) { clear_entry_selection(file_context->clip_data_entry_without_id); clip_data_entry_free(file_context->clip_data_entry_without_id); file_context->clip_data_entry_without_id = NULL; } HashTable_Unlock(file_context->inode_table); } static BOOL clear_clip_data_entries(const void* key, void* value, void* arg) { clear_entry_selection(value); return TRUE; } static void clear_cdi_entries(CliprdrFileContext* file_context) { WINPR_ASSERT(file_context); HashTable_Lock(file_context->inode_table); HashTable_Foreach(file_context->clip_data_table, clear_clip_data_entries, NULL); HashTable_Clear(file_context->clip_data_table); HashTable_Unlock(file_context->inode_table); } static UINT prepare_clip_data_entry_with_id(CliprdrFileContext* file_context) { CliprdrFuseClipDataEntry* clip_data_entry = NULL; WINPR_ASSERT(file_context); clip_data_entry = clip_data_entry_new(file_context, TRUE); if (!clip_data_entry) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to create clipDataEntry"); return ERROR_INTERNAL_ERROR; } HashTable_Lock(file_context->inode_table); if (!HashTable_Insert(file_context->clip_data_table, (void*)(UINT_PTR)clip_data_entry->clip_data_id, clip_data_entry)) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to insert clipDataEntry"); clip_data_entry_free(clip_data_entry); HashTable_Unlock(file_context->inode_table); return ERROR_INTERNAL_ERROR; } HashTable_Unlock(file_context->inode_table); // HashTable_Insert owns clip_data_entry // NOLINTNEXTLINE(clang-analyzer-unix.Malloc) file_context->current_clip_data_id = clip_data_entry->clip_data_id; return CHANNEL_RC_OK; } static UINT prepare_clip_data_entry_without_id(CliprdrFileContext* file_context) { WINPR_ASSERT(file_context); WINPR_ASSERT(!file_context->clip_data_entry_without_id); file_context->clip_data_entry_without_id = clip_data_entry_new(file_context, FALSE); if (!file_context->clip_data_entry_without_id) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to create clipDataEntry"); return ERROR_INTERNAL_ERROR; } return CHANNEL_RC_OK; } #endif UINT cliprdr_file_context_notify_new_server_format_list(CliprdrFileContext* file_context) { WINPR_ASSERT(file_context); WINPR_ASSERT(file_context->context); #if defined(WITH_FUSE) clear_no_cdi_entry(file_context); /* TODO: assign timeouts to old locks instead */ clear_cdi_entries(file_context); if (does_server_support_clipdata_locking(file_context)) return prepare_clip_data_entry_with_id(file_context); else return prepare_clip_data_entry_without_id(file_context); #else return CHANNEL_RC_OK; #endif } UINT cliprdr_file_context_notify_new_client_format_list(CliprdrFileContext* file_context) { WINPR_ASSERT(file_context); WINPR_ASSERT(file_context->context); #if defined(WITH_FUSE) clear_no_cdi_entry(file_context); /* TODO: assign timeouts to old locks instead */ clear_cdi_entries(file_context); #endif return CHANNEL_RC_OK; } static CliprdrLocalStream* cliprdr_local_stream_new(CliprdrFileContext* context, UINT32 streamID, const char* data, size_t size); static void cliprdr_file_session_terminate(CliprdrFileContext* file, BOOL stop_thread); static BOOL local_stream_discard(const void* key, void* value, void* arg); static void writelog(wLog* log, DWORD level, const char* fname, const char* fkt, size_t line, ...) { if (!WLog_IsLevelActive(log, level)) return; va_list ap; va_start(ap, line); WLog_PrintMessageVA(log, WLOG_MESSAGE_TEXT, level, line, fname, fkt, ap); va_end(ap); } #if defined(WITH_FUSE) static void cliprdr_file_fuse_lookup(fuse_req_t req, fuse_ino_t parent, const char* name); static void cliprdr_file_fuse_getattr(fuse_req_t req, fuse_ino_t ino, struct fuse_file_info* fi); static void cliprdr_file_fuse_readdir(fuse_req_t req, fuse_ino_t ino, size_t size, off_t off, struct fuse_file_info* fi); static void cliprdr_file_fuse_read(fuse_req_t req, fuse_ino_t ino, size_t size, off_t off, struct fuse_file_info* fi); static void cliprdr_file_fuse_open(fuse_req_t req, fuse_ino_t ino, struct fuse_file_info* fi); static void cliprdr_file_fuse_opendir(fuse_req_t req, fuse_ino_t ino, struct fuse_file_info* fi); static const struct fuse_lowlevel_ops cliprdr_file_fuse_oper = { .lookup = cliprdr_file_fuse_lookup, .getattr = cliprdr_file_fuse_getattr, .readdir = cliprdr_file_fuse_readdir, .open = cliprdr_file_fuse_open, .read = cliprdr_file_fuse_read, .opendir = cliprdr_file_fuse_opendir, }; static CliprdrFuseFile* get_fuse_file_by_ino(CliprdrFileContext* file_context, fuse_ino_t fuse_ino) { WINPR_ASSERT(file_context); return HashTable_GetItemValue(file_context->inode_table, (void*)(UINT_PTR)fuse_ino); } static CliprdrFuseFile* get_fuse_file_by_name_from_parent(CliprdrFileContext* file_context, CliprdrFuseFile* parent, const char* name) { WINPR_ASSERT(file_context); WINPR_ASSERT(parent); for (size_t i = 0; i < ArrayList_Count(parent->children); ++i) { CliprdrFuseFile* child = ArrayList_GetItem(parent->children, i); WINPR_ASSERT(child); if (strcmp(name, child->filename) == 0) return child; } DEBUG_CLIPRDR(file_context->log, "Requested file \"%s\" in directory \"%s\" does not exist", name, parent->filename); return NULL; } static CliprdrFuseRequest* cliprdr_fuse_request_new(CliprdrFileContext* file_context, CliprdrFuseFile* fuse_file, fuse_req_t fuse_req, FuseLowlevelOperationType operation_type) { CliprdrFuseRequest* fuse_request = NULL; UINT32 stream_id = file_context->next_stream_id; WINPR_ASSERT(file_context); WINPR_ASSERT(fuse_file); fuse_request = calloc(1, sizeof(CliprdrFuseRequest)); if (!fuse_request) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to allocate FUSE request for file \"%s\"", fuse_file->filename_with_root); return NULL; } fuse_request->fuse_file = fuse_file; fuse_request->fuse_req = fuse_req; fuse_request->operation_type = operation_type; while (stream_id == 0 || HashTable_GetItemValue(file_context->request_table, (void*)(UINT_PTR)stream_id)) ++stream_id; fuse_request->stream_id = stream_id; file_context->next_stream_id = stream_id + 1; if (!HashTable_Insert(file_context->request_table, (void*)(UINT_PTR)fuse_request->stream_id, fuse_request)) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to track FUSE request for file \"%s\"", fuse_file->filename_with_root); free(fuse_request); return NULL; } return fuse_request; } static BOOL request_file_size_async(CliprdrFileContext* file_context, CliprdrFuseFile* fuse_file, fuse_req_t fuse_req, FuseLowlevelOperationType operation_type) { CliprdrFuseRequest* fuse_request = NULL; CLIPRDR_FILE_CONTENTS_REQUEST file_contents_request = { 0 }; WINPR_ASSERT(file_context); WINPR_ASSERT(fuse_file); fuse_request = cliprdr_fuse_request_new(file_context, fuse_file, fuse_req, operation_type); if (!fuse_request) return FALSE; file_contents_request.common.msgType = CB_FILECONTENTS_REQUEST; file_contents_request.streamId = fuse_request->stream_id; file_contents_request.listIndex = fuse_file->list_idx; file_contents_request.dwFlags = FILECONTENTS_SIZE; file_contents_request.cbRequested = 0x8; file_contents_request.haveClipDataId = fuse_file->has_clip_data_id; file_contents_request.clipDataId = fuse_file->clip_data_id; if (file_context->context->ClientFileContentsRequest(file_context->context, &file_contents_request)) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to send FileContentsRequest for file \"%s\"", fuse_file->filename_with_root); HashTable_Remove(file_context->request_table, (void*)(UINT_PTR)fuse_request->stream_id); return FALSE; } DEBUG_CLIPRDR(file_context->log, "Requested file size for file \"%s\" with stream id %u", fuse_file->filename, fuse_request->stream_id); return TRUE; } static void write_file_attributes(CliprdrFuseFile* fuse_file, struct stat* attr) { memset(attr, 0, sizeof(struct stat)); if (!fuse_file) return; attr->st_ino = fuse_file->ino; if (fuse_file->is_directory) { attr->st_mode = S_IFDIR | (fuse_file->is_readonly ? 0555 : 0755); attr->st_nlink = 2; } else { attr->st_mode = S_IFREG | (fuse_file->is_readonly ? 0444 : 0644); attr->st_nlink = 1; attr->st_size = fuse_file->size; } attr->st_uid = getuid(); attr->st_gid = getgid(); attr->st_atime = attr->st_mtime = attr->st_ctime = (fuse_file->has_last_write_time ? fuse_file->last_write_time_unix : time(NULL)); } static void cliprdr_file_fuse_lookup(fuse_req_t fuse_req, fuse_ino_t parent_ino, const char* name) { CliprdrFileContext* file_context = fuse_req_userdata(fuse_req); CliprdrFuseFile* parent = NULL; CliprdrFuseFile* fuse_file = NULL; struct fuse_entry_param entry = { 0 }; WINPR_ASSERT(file_context); HashTable_Lock(file_context->inode_table); if (!(parent = get_fuse_file_by_ino(file_context, parent_ino)) || !parent->is_directory) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, ENOENT); return; } if (!(fuse_file = get_fuse_file_by_name_from_parent(file_context, parent, name))) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, ENOENT); return; } DEBUG_CLIPRDR(file_context->log, "lookup() has been called for \"%s\"", name); DEBUG_CLIPRDR(file_context->log, "Parent is \"%s\", child is \"%s\"", parent->filename_with_root, fuse_file->filename_with_root); if (!fuse_file->is_directory && !fuse_file->has_size) { BOOL result = 0; result = request_file_size_async(file_context, fuse_file, fuse_req, FUSE_LL_OPERATION_LOOKUP); HashTable_Unlock(file_context->inode_table); if (!result) fuse_reply_err(fuse_req, EIO); return; } entry.ino = fuse_file->ino; write_file_attributes(fuse_file, &entry.attr); entry.attr_timeout = 1.0; entry.entry_timeout = 1.0; HashTable_Unlock(file_context->inode_table); fuse_reply_entry(fuse_req, &entry); } static void cliprdr_file_fuse_getattr(fuse_req_t fuse_req, fuse_ino_t fuse_ino, struct fuse_file_info* file_info) { CliprdrFileContext* file_context = fuse_req_userdata(fuse_req); CliprdrFuseFile* fuse_file = NULL; struct stat attr = { 0 }; WINPR_ASSERT(file_context); HashTable_Lock(file_context->inode_table); if (!(fuse_file = get_fuse_file_by_ino(file_context, fuse_ino))) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, ENOENT); return; } DEBUG_CLIPRDR(file_context->log, "getattr() has been called for file \"%s\"", fuse_file->filename_with_root); if (!fuse_file->is_directory && !fuse_file->has_size) { BOOL result = 0; result = request_file_size_async(file_context, fuse_file, fuse_req, FUSE_LL_OPERATION_GETATTR); HashTable_Unlock(file_context->inode_table); if (!result) fuse_reply_err(fuse_req, EIO); return; } write_file_attributes(fuse_file, &attr); HashTable_Unlock(file_context->inode_table); fuse_reply_attr(fuse_req, &attr, 1.0); } static void cliprdr_file_fuse_open(fuse_req_t fuse_req, fuse_ino_t fuse_ino, struct fuse_file_info* file_info) { CliprdrFileContext* file_context = fuse_req_userdata(fuse_req); CliprdrFuseFile* fuse_file = NULL; WINPR_ASSERT(file_context); HashTable_Lock(file_context->inode_table); if (!(fuse_file = get_fuse_file_by_ino(file_context, fuse_ino))) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, ENOENT); return; } if (fuse_file->is_directory) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, EISDIR); return; } HashTable_Unlock(file_context->inode_table); if ((file_info->flags & O_ACCMODE) != O_RDONLY) { fuse_reply_err(fuse_req, EACCES); return; } /* Important for KDE to get file correctly */ file_info->direct_io = 1; fuse_reply_open(fuse_req, file_info); } static BOOL request_file_range_async(CliprdrFileContext* file_context, CliprdrFuseFile* fuse_file, fuse_req_t fuse_req, off_t offset, size_t requested_size) { CliprdrFuseRequest* fuse_request = NULL; CLIPRDR_FILE_CONTENTS_REQUEST file_contents_request = { 0 }; WINPR_ASSERT(file_context); WINPR_ASSERT(fuse_file); fuse_request = cliprdr_fuse_request_new(file_context, fuse_file, fuse_req, FUSE_LL_OPERATION_READ); if (!fuse_request) return FALSE; file_contents_request.common.msgType = CB_FILECONTENTS_REQUEST; file_contents_request.streamId = fuse_request->stream_id; file_contents_request.listIndex = fuse_file->list_idx; file_contents_request.dwFlags = FILECONTENTS_RANGE; file_contents_request.nPositionLow = offset & 0xFFFFFFFF; file_contents_request.nPositionHigh = offset >> 32 & 0xFFFFFFFF; file_contents_request.cbRequested = requested_size; file_contents_request.haveClipDataId = fuse_file->has_clip_data_id; file_contents_request.clipDataId = fuse_file->clip_data_id; if (file_context->context->ClientFileContentsRequest(file_context->context, &file_contents_request)) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to send FileContentsRequest for file \"%s\"", fuse_file->filename_with_root); HashTable_Remove(file_context->request_table, (void*)(UINT_PTR)fuse_request->stream_id); return FALSE; } // file_context->request_table owns fuse_request // NOLINTBEGIN(clang-analyzer-unix.Malloc) DEBUG_CLIPRDR( file_context->log, "Requested file range (%zu Bytes at offset %lu) for file \"%s\" with stream id %u", requested_size, offset, fuse_file->filename, fuse_request->stream_id); return TRUE; // NOLINTEND(clang-analyzer-unix.Malloc) } static void cliprdr_file_fuse_read(fuse_req_t fuse_req, fuse_ino_t fuse_ino, size_t size, off_t offset, struct fuse_file_info* file_info) { CliprdrFileContext* file_context = fuse_req_userdata(fuse_req); CliprdrFuseFile* fuse_file = NULL; BOOL result = 0; WINPR_ASSERT(file_context); HashTable_Lock(file_context->inode_table); if (!(fuse_file = get_fuse_file_by_ino(file_context, fuse_ino))) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, ENOENT); return; } if (fuse_file->is_directory) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, EISDIR); return; } if (!fuse_file->has_size || (offset < 0) || ((size_t)offset > fuse_file->size)) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, EINVAL); return; } size = MIN(size, 8ULL * 1024ULL * 1024ULL); result = request_file_range_async(file_context, fuse_file, fuse_req, offset, size); HashTable_Unlock(file_context->inode_table); if (!result) fuse_reply_err(fuse_req, EIO); } static void cliprdr_file_fuse_opendir(fuse_req_t fuse_req, fuse_ino_t fuse_ino, struct fuse_file_info* file_info) { CliprdrFileContext* file_context = fuse_req_userdata(fuse_req); CliprdrFuseFile* fuse_file = NULL; WINPR_ASSERT(file_context); HashTable_Lock(file_context->inode_table); if (!(fuse_file = get_fuse_file_by_ino(file_context, fuse_ino))) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, ENOENT); return; } if (!fuse_file->is_directory) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, ENOTDIR); return; } HashTable_Unlock(file_context->inode_table); if ((file_info->flags & O_ACCMODE) != O_RDONLY) { fuse_reply_err(fuse_req, EACCES); return; } fuse_reply_open(fuse_req, file_info); } static void cliprdr_file_fuse_readdir(fuse_req_t fuse_req, fuse_ino_t fuse_ino, size_t max_size, off_t offset, struct fuse_file_info* file_info) { CliprdrFileContext* file_context = fuse_req_userdata(fuse_req); CliprdrFuseFile* fuse_file = NULL; CliprdrFuseFile* child = NULL; struct stat attr = { 0 }; size_t written_size = 0; size_t entry_size = 0; char* filename = NULL; char* buf = NULL; WINPR_ASSERT(file_context); HashTable_Lock(file_context->inode_table); if (!(fuse_file = get_fuse_file_by_ino(file_context, fuse_ino))) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, ENOENT); return; } if (!fuse_file->is_directory) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, ENOTDIR); return; } DEBUG_CLIPRDR(file_context->log, "Reading directory \"%s\" at offset %lu", fuse_file->filename_with_root, offset); if ((offset < 0) || ((size_t)offset >= ArrayList_Count(fuse_file->children))) { HashTable_Unlock(file_context->inode_table); fuse_reply_buf(fuse_req, NULL, 0); return; } buf = calloc(max_size, sizeof(char)); if (!buf) { HashTable_Unlock(file_context->inode_table); fuse_reply_err(fuse_req, ENOMEM); return; } written_size = 0; for (off_t i = offset; i < 2; ++i) { if (i == 0) { write_file_attributes(fuse_file, &attr); filename = "."; } else if (i == 1) { write_file_attributes(fuse_file->parent, &attr); attr.st_ino = fuse_file->parent ? attr.st_ino : FUSE_ROOT_ID; attr.st_mode = fuse_file->parent ? attr.st_mode : 0555; filename = ".."; } else { WINPR_ASSERT(FALSE); } /** * buf needs to be large enough to hold the entry. If it's not, then the * entry is not filled in but the size of the entry is still returned. */ entry_size = fuse_add_direntry(fuse_req, buf + written_size, max_size - written_size, filename, &attr, i + 1); if (entry_size > max_size - written_size) break; written_size += entry_size; } for (size_t j = 0, i = 2; j < ArrayList_Count(fuse_file->children); ++j, ++i) { if (i < (size_t)offset) continue; child = ArrayList_GetItem(fuse_file->children, j); write_file_attributes(child, &attr); entry_size = fuse_add_direntry(fuse_req, buf + written_size, max_size - written_size, child->filename, &attr, i + 1); if (entry_size > max_size - written_size) break; written_size += entry_size; } HashTable_Unlock(file_context->inode_table); fuse_reply_buf(fuse_req, buf, written_size); free(buf); } static void fuse_abort(int sig, const char* signame, void* context) { CliprdrFileContext* file = (CliprdrFileContext*)context; if (file) { WLog_Print(file->log, WLOG_INFO, "signal %s [%d] aborting session", signame, sig); cliprdr_file_session_terminate(file, FALSE); } } static DWORD WINAPI cliprdr_file_fuse_thread(LPVOID arg) { CliprdrFileContext* file = (CliprdrFileContext*)arg; WINPR_ASSERT(file); DEBUG_CLIPRDR(file->log, "Starting fuse with mountpoint '%s'", file->path); struct fuse_args args = FUSE_ARGS_INIT(0, NULL); fuse_opt_add_arg(&args, file->path); file->fuse_sess = fuse_session_new(&args, &cliprdr_file_fuse_oper, sizeof(cliprdr_file_fuse_oper), (void*)file); (void)SetEvent(file->fuse_start_sync); if (file->fuse_sess != NULL) { freerdp_add_signal_cleanup_handler(file, fuse_abort); if (0 == fuse_session_mount(file->fuse_sess, file->path)) { fuse_session_loop(file->fuse_sess); fuse_session_unmount(file->fuse_sess); } freerdp_del_signal_cleanup_handler(file, fuse_abort); WLog_Print(file->log, WLOG_DEBUG, "Waiting for FUSE stop sync"); if (WaitForSingleObject(file->fuse_stop_sync, INFINITE) == WAIT_FAILED) WLog_Print(file->log, WLOG_ERROR, "Failed to wait for stop sync"); fuse_session_destroy(file->fuse_sess); } fuse_opt_free_args(&args); DEBUG_CLIPRDR(file->log, "Quitting fuse with mountpoint '%s'", file->path); ExitThread(0); return 0; } static UINT cliprdr_file_context_server_file_contents_response( CliprdrClientContext* cliprdr_context, const CLIPRDR_FILE_CONTENTS_RESPONSE* file_contents_response) { CliprdrFileContext* file_context = NULL; CliprdrFuseRequest* fuse_request = NULL; struct fuse_entry_param entry = { 0 }; WINPR_ASSERT(cliprdr_context); WINPR_ASSERT(file_contents_response); file_context = cliprdr_context->custom; WINPR_ASSERT(file_context); HashTable_Lock(file_context->inode_table); fuse_request = HashTable_GetItemValue(file_context->request_table, (void*)(UINT_PTR)file_contents_response->streamId); if (!fuse_request) { HashTable_Unlock(file_context->inode_table); return CHANNEL_RC_OK; } if (!(file_contents_response->common.msgFlags & CB_RESPONSE_OK)) { WLog_Print(file_context->log, WLOG_WARN, "FileContentsRequests for file \"%s\" was unsuccessful", fuse_request->fuse_file->filename); fuse_reply_err(fuse_request->fuse_req, EIO); HashTable_Remove(file_context->request_table, (void*)(UINT_PTR)file_contents_response->streamId); HashTable_Unlock(file_context->inode_table); return CHANNEL_RC_OK; } if ((fuse_request->operation_type == FUSE_LL_OPERATION_LOOKUP || fuse_request->operation_type == FUSE_LL_OPERATION_GETATTR) && file_contents_response->cbRequested != sizeof(UINT64)) { WLog_Print(file_context->log, WLOG_WARN, "Received invalid file size for file \"%s\" from the client", fuse_request->fuse_file->filename); fuse_reply_err(fuse_request->fuse_req, EIO); HashTable_Remove(file_context->request_table, (void*)(UINT_PTR)file_contents_response->streamId); HashTable_Unlock(file_context->inode_table); return CHANNEL_RC_OK; } if (fuse_request->operation_type == FUSE_LL_OPERATION_LOOKUP || fuse_request->operation_type == FUSE_LL_OPERATION_GETATTR) { DEBUG_CLIPRDR(file_context->log, "Received file size for file \"%s\" with stream id %u", fuse_request->fuse_file->filename, file_contents_response->streamId); fuse_request->fuse_file->size = *((const UINT64*)file_contents_response->requestedData); fuse_request->fuse_file->has_size = TRUE; entry.ino = fuse_request->fuse_file->ino; write_file_attributes(fuse_request->fuse_file, &entry.attr); entry.attr_timeout = 1.0; entry.entry_timeout = 1.0; } else if (fuse_request->operation_type == FUSE_LL_OPERATION_READ) { DEBUG_CLIPRDR(file_context->log, "Received file range for file \"%s\" with stream id %u", fuse_request->fuse_file->filename, file_contents_response->streamId); } HashTable_Unlock(file_context->inode_table); switch (fuse_request->operation_type) { case FUSE_LL_OPERATION_NONE: break; case FUSE_LL_OPERATION_LOOKUP: fuse_reply_entry(fuse_request->fuse_req, &entry); break; case FUSE_LL_OPERATION_GETATTR: fuse_reply_attr(fuse_request->fuse_req, &entry.attr, entry.attr_timeout); break; case FUSE_LL_OPERATION_READ: fuse_reply_buf(fuse_request->fuse_req, (const char*)file_contents_response->requestedData, file_contents_response->cbRequested); break; } HashTable_Remove(file_context->request_table, (void*)(UINT_PTR)file_contents_response->streamId); return CHANNEL_RC_OK; } #endif static UINT cliprdr_file_context_send_file_contents_failure( CliprdrFileContext* file, const CLIPRDR_FILE_CONTENTS_REQUEST* fileContentsRequest) { CLIPRDR_FILE_CONTENTS_RESPONSE response = { 0 }; WINPR_ASSERT(file); WINPR_ASSERT(fileContentsRequest); const UINT64 offset = (((UINT64)fileContentsRequest->nPositionHigh) << 32) | ((UINT64)fileContentsRequest->nPositionLow); writelog(file->log, WLOG_WARN, __FILE__, __func__, __LINE__, "server file contents request [lockID %" PRIu32 ", streamID %" PRIu32 ", index %" PRIu32 "] offset %" PRIu64 ", size %" PRIu32 " failed", fileContentsRequest->clipDataId, fileContentsRequest->streamId, fileContentsRequest->listIndex, offset, fileContentsRequest->cbRequested); response.common.msgFlags = CB_RESPONSE_FAIL; response.streamId = fileContentsRequest->streamId; WINPR_ASSERT(file->context); WINPR_ASSERT(file->context->ClientFileContentsResponse); return file->context->ClientFileContentsResponse(file->context, &response); } static UINT cliprdr_file_context_send_contents_response(CliprdrFileContext* file, const CLIPRDR_FILE_CONTENTS_REQUEST* request, const void* data, size_t size) { CLIPRDR_FILE_CONTENTS_RESPONSE response = { .streamId = request->streamId, .requestedData = data, .cbRequested = size, .common.msgFlags = CB_RESPONSE_OK }; WINPR_ASSERT(request); WINPR_ASSERT(file); WLog_Print(file->log, WLOG_DEBUG, "send contents response streamID=%" PRIu32 ", size=%" PRIu32, response.streamId, response.cbRequested); WINPR_ASSERT(file->context); WINPR_ASSERT(file->context->ClientFileContentsResponse); return file->context->ClientFileContentsResponse(file->context, &response); } static BOOL dump_streams(const void* key, void* value, void* arg) { const UINT32* ukey = key; CliprdrLocalStream* cur = value; writelog(cur->context->log, WLOG_WARN, __FILE__, __func__, __LINE__, "[key %" PRIu32 "] lockID %" PRIu32 ", count %" PRIuz ", locked %d", *ukey, cur->lockId, cur->count, cur->locked); for (size_t x = 0; x < cur->count; x++) { const CliprdrLocalFile* file = &cur->files[x]; writelog(cur->context->log, WLOG_WARN, __FILE__, __func__, __LINE__, "file [%" PRIuz "] ", x, file->name, file->size); } return TRUE; } static CliprdrLocalFile* file_info_for_request(CliprdrFileContext* file, UINT32 lockId, UINT32 listIndex) { WINPR_ASSERT(file); CliprdrLocalStream* cur = HashTable_GetItemValue(file->local_streams, &lockId); if (cur) { if (listIndex < cur->count) { CliprdrLocalFile* f = &cur->files[listIndex]; return f; } else { writelog(file->log, WLOG_WARN, __FILE__, __func__, __LINE__, "invalid entry index for lockID %" PRIu32 ", index %" PRIu32 " [count %" PRIu32 "] [locked %d]", lockId, listIndex, cur->count, cur->locked); } } else { writelog(file->log, WLOG_WARN, __FILE__, __func__, __LINE__, "missing entry for lockID %" PRIu32 ", index %" PRIu32, lockId, listIndex); HashTable_Foreach(file->local_streams, dump_streams, file); } return NULL; } static CliprdrLocalFile* file_for_request(CliprdrFileContext* file, UINT32 lockId, UINT32 listIndex) { CliprdrLocalFile* f = file_info_for_request(file, lockId, listIndex); if (f) { if (!f->fp) { const char* name = f->name; f->fp = winpr_fopen(name, "rb"); } if (!f->fp) { char ebuffer[256] = { 0 }; writelog(file->log, WLOG_WARN, __FILE__, __func__, __LINE__, "[lockID %" PRIu32 ", index %" PRIu32 "] failed to open file '%s' [size %" PRId64 "] %s [%d]", lockId, listIndex, f->name, f->size, winpr_strerror(errno, ebuffer, sizeof(ebuffer)), errno); return NULL; } } return f; } static void cliprdr_local_file_try_close(CliprdrLocalFile* file, UINT res, UINT64 offset, UINT64 size) { WINPR_ASSERT(file); if (res != 0) { WINPR_ASSERT(file->context); WLog_Print(file->context->log, WLOG_DEBUG, "closing file %s after error %" PRIu32, file->name, res); } else if (((file->size > 0) && (offset + size >= (UINT64)file->size))) { WINPR_ASSERT(file->context); WLog_Print(file->context->log, WLOG_DEBUG, "closing file %s after read", file->name); } else { // TODO: we need to keep track of open files to avoid running out of file descriptors // TODO: for the time being just close again. } if (file->fp) (void)fclose(file->fp); file->fp = NULL; } static UINT cliprdr_file_context_server_file_size_request( CliprdrFileContext* file, const CLIPRDR_FILE_CONTENTS_REQUEST* fileContentsRequest) { WINPR_ASSERT(fileContentsRequest); if (fileContentsRequest->cbRequested != sizeof(UINT64)) { WLog_Print(file->log, WLOG_WARN, "unexpected FILECONTENTS_SIZE request: %" PRIu32 " bytes", fileContentsRequest->cbRequested); } HashTable_Lock(file->local_streams); UINT res = CHANNEL_RC_OK; CliprdrLocalFile* rfile = file_for_request(file, fileContentsRequest->clipDataId, fileContentsRequest->listIndex); if (!rfile) res = cliprdr_file_context_send_file_contents_failure(file, fileContentsRequest); else { if (_fseeki64(rfile->fp, 0, SEEK_END) < 0) res = cliprdr_file_context_send_file_contents_failure(file, fileContentsRequest); else { const INT64 size = _ftelli64(rfile->fp); rfile->size = size; cliprdr_local_file_try_close(rfile, res, 0, 0); res = cliprdr_file_context_send_contents_response(file, fileContentsRequest, &size, sizeof(size)); } } HashTable_Unlock(file->local_streams); return res; } static UINT cliprdr_file_context_server_file_range_request( CliprdrFileContext* file, const CLIPRDR_FILE_CONTENTS_REQUEST* fileContentsRequest) { BYTE* data = NULL; WINPR_ASSERT(fileContentsRequest); HashTable_Lock(file->local_streams); const UINT64 offset = (((UINT64)fileContentsRequest->nPositionHigh) << 32) | ((UINT64)fileContentsRequest->nPositionLow); CliprdrLocalFile* rfile = file_for_request(file, fileContentsRequest->clipDataId, fileContentsRequest->listIndex); if (!rfile) goto fail; if (_fseeki64(rfile->fp, offset, SEEK_SET) < 0) goto fail; data = malloc(fileContentsRequest->cbRequested); if (!data) goto fail; const size_t r = fread(data, 1, fileContentsRequest->cbRequested, rfile->fp); const UINT rc = cliprdr_file_context_send_contents_response(file, fileContentsRequest, data, r); free(data); cliprdr_local_file_try_close(rfile, rc, offset, fileContentsRequest->cbRequested); HashTable_Unlock(file->local_streams); return rc; fail: if (rfile) cliprdr_local_file_try_close(rfile, ERROR_INTERNAL_ERROR, offset, fileContentsRequest->cbRequested); free(data); HashTable_Unlock(file->local_streams); return cliprdr_file_context_send_file_contents_failure(file, fileContentsRequest); } static void cliprdr_local_stream_free(void* obj); static UINT change_lock(CliprdrFileContext* file, UINT32 lockId, BOOL lock) { UINT rc = CHANNEL_RC_OK; WINPR_ASSERT(file); HashTable_Lock(file->local_streams); CliprdrLocalStream* stream = HashTable_GetItemValue(file->local_streams, &lockId); if (lock && !stream) { stream = cliprdr_local_stream_new(file, lockId, NULL, 0); if (!HashTable_Insert(file->local_streams, &lockId, stream)) { rc = ERROR_INTERNAL_ERROR; cliprdr_local_stream_free(stream); stream = NULL; } file->local_lock_id = lockId; } if (stream) { stream->locked = lock; stream->lockId = lockId; } if (!lock) { if (!HashTable_Foreach(file->local_streams, local_stream_discard, file)) rc = ERROR_INTERNAL_ERROR; } HashTable_Unlock(file->local_streams); return rc; } static UINT cliprdr_file_context_lock(CliprdrClientContext* context, const CLIPRDR_LOCK_CLIPBOARD_DATA* lockClipboardData) { WINPR_ASSERT(context); WINPR_ASSERT(lockClipboardData); CliprdrFileContext* file = (context->custom); return change_lock(file, lockClipboardData->clipDataId, TRUE); } static UINT cliprdr_file_context_unlock(CliprdrClientContext* context, const CLIPRDR_UNLOCK_CLIPBOARD_DATA* unlockClipboardData) { WINPR_ASSERT(context); WINPR_ASSERT(unlockClipboardData); CliprdrFileContext* file = (context->custom); return change_lock(file, unlockClipboardData->clipDataId, FALSE); } static UINT cliprdr_file_context_server_file_contents_request( CliprdrClientContext* context, const CLIPRDR_FILE_CONTENTS_REQUEST* fileContentsRequest) { UINT error = NO_ERROR; WINPR_ASSERT(context); WINPR_ASSERT(fileContentsRequest); CliprdrFileContext* file = (context->custom); WINPR_ASSERT(file); /* * MS-RDPECLIP 2.2.5.3 File Contents Request PDU (CLIPRDR_FILECONTENTS_REQUEST): * The FILECONTENTS_SIZE and FILECONTENTS_RANGE flags MUST NOT be set at the same time. */ if ((fileContentsRequest->dwFlags & (FILECONTENTS_SIZE | FILECONTENTS_RANGE)) == (FILECONTENTS_SIZE | FILECONTENTS_RANGE)) { WLog_Print(file->log, WLOG_ERROR, "invalid CLIPRDR_FILECONTENTS_REQUEST.dwFlags"); return cliprdr_file_context_send_file_contents_failure(file, fileContentsRequest); } if (fileContentsRequest->dwFlags & FILECONTENTS_SIZE) error = cliprdr_file_context_server_file_size_request(file, fileContentsRequest); if (fileContentsRequest->dwFlags & FILECONTENTS_RANGE) error = cliprdr_file_context_server_file_range_request(file, fileContentsRequest); if (error) { WLog_Print(file->log, WLOG_ERROR, "failed to handle CLIPRDR_FILECONTENTS_REQUEST: 0x%08X", error); return cliprdr_file_context_send_file_contents_failure(file, fileContentsRequest); } return CHANNEL_RC_OK; } BOOL cliprdr_file_context_init(CliprdrFileContext* file, CliprdrClientContext* cliprdr) { WINPR_ASSERT(file); WINPR_ASSERT(cliprdr); cliprdr->custom = file; file->context = cliprdr; cliprdr->ServerLockClipboardData = cliprdr_file_context_lock; cliprdr->ServerUnlockClipboardData = cliprdr_file_context_unlock; cliprdr->ServerFileContentsRequest = cliprdr_file_context_server_file_contents_request; #if defined(WITH_FUSE) cliprdr->ServerFileContentsResponse = cliprdr_file_context_server_file_contents_response; #endif return TRUE; } #if defined(WITH_FUSE) static void clear_all_selections(CliprdrFileContext* file_context) { WINPR_ASSERT(file_context); WINPR_ASSERT(file_context->inode_table); HashTable_Lock(file_context->inode_table); clear_selection(file_context, TRUE, NULL); HashTable_Clear(file_context->clip_data_table); HashTable_Unlock(file_context->inode_table); } #endif BOOL cliprdr_file_context_uninit(CliprdrFileContext* file, CliprdrClientContext* cliprdr) { WINPR_ASSERT(file); WINPR_ASSERT(cliprdr); // Clear all data before the channel is closed // the cleanup handlers are dependent on a working channel. #if defined(WITH_FUSE) if (file->inode_table) { clear_no_cdi_entry(file); clear_all_selections(file); } #endif HashTable_Clear(file->local_streams); file->context = NULL; #if defined(WITH_FUSE) cliprdr->ServerFileContentsResponse = NULL; #endif return TRUE; } static BOOL cliprdr_file_content_changed_and_update(void* ihash, size_t hsize, const void* data, size_t size) { BYTE hash[WINPR_SHA256_DIGEST_LENGTH] = { 0 }; if (hsize < sizeof(hash)) return FALSE; if (!winpr_Digest(WINPR_MD_SHA256, data, size, hash, sizeof(hash))) return FALSE; const BOOL changed = memcmp(hash, ihash, sizeof(hash)) != 0; if (changed) memcpy(ihash, hash, sizeof(hash)); return changed; } static BOOL cliprdr_file_server_content_changed_and_update(CliprdrFileContext* file, const void* data, size_t size) { WINPR_ASSERT(file); return cliprdr_file_content_changed_and_update(file->server_data_hash, sizeof(file->server_data_hash), data, size); } static BOOL cliprdr_file_client_content_changed_and_update(CliprdrFileContext* file, const void* data, size_t size) { WINPR_ASSERT(file); return cliprdr_file_content_changed_and_update(file->client_data_hash, sizeof(file->client_data_hash), data, size); } #if defined(WITH_FUSE) static fuse_ino_t get_next_free_inode(CliprdrFileContext* file_context) { fuse_ino_t ino = 0; WINPR_ASSERT(file_context); ino = file_context->next_ino; while (ino == 0 || ino == FUSE_ROOT_ID || HashTable_GetItemValue(file_context->inode_table, (void*)(UINT_PTR)ino)) ++ino; file_context->next_ino = ino + 1; return ino; } static CliprdrFuseFile* clip_data_dir_new(CliprdrFileContext* file_context, BOOL has_clip_data_id, UINT32 clip_data_id) { CliprdrFuseFile* root_dir = NULL; CliprdrFuseFile* clip_data_dir = NULL; size_t path_length = 0; WINPR_ASSERT(file_context); clip_data_dir = fuse_file_new(); if (!clip_data_dir) return NULL; path_length = 1 + MAX_CLIP_DATA_DIR_LEN + 1; clip_data_dir->filename_with_root = calloc(path_length, sizeof(char)); if (!clip_data_dir->filename_with_root) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to allocate filename"); fuse_file_free(clip_data_dir); return NULL; } if (has_clip_data_id) (void)_snprintf(clip_data_dir->filename_with_root, path_length, "/%u", (unsigned)clip_data_id); else (void)_snprintf(clip_data_dir->filename_with_root, path_length, "/%" PRIu64, NO_CLIP_DATA_ID); clip_data_dir->filename = strrchr(clip_data_dir->filename_with_root, '/') + 1; clip_data_dir->ino = get_next_free_inode(file_context); clip_data_dir->is_directory = TRUE; clip_data_dir->is_readonly = TRUE; clip_data_dir->has_clip_data_id = has_clip_data_id; clip_data_dir->clip_data_id = clip_data_id; root_dir = file_context->root_dir; if (!ArrayList_Append(root_dir->children, clip_data_dir)) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to append FUSE file"); fuse_file_free(clip_data_dir); return NULL; } clip_data_dir->parent = root_dir; if (!HashTable_Insert(file_context->inode_table, (void*)(UINT_PTR)clip_data_dir->ino, clip_data_dir)) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to insert inode into inode table"); ArrayList_Remove(root_dir->children, clip_data_dir); fuse_file_free(clip_data_dir); return NULL; } return clip_data_dir; } static char* get_parent_path(const char* filepath) { char* base = NULL; size_t parent_path_length = 0; char* parent_path = NULL; base = strrchr(filepath, '/'); WINPR_ASSERT(base); while (base > filepath && *base == '/') --base; parent_path_length = 1 + base - filepath; parent_path = calloc(parent_path_length + 1, sizeof(char)); if (!parent_path) return NULL; memcpy(parent_path, filepath, parent_path_length); return parent_path; } static BOOL is_fuse_file_not_parent(const void* key, void* value, void* arg) { CliprdrFuseFile* fuse_file = value; CliprdrFuseFindParentContext* find_context = arg; if (!fuse_file->is_directory) return TRUE; if (strcmp(find_context->parent_path, fuse_file->filename_with_root) == 0) { find_context->parent = fuse_file; return FALSE; } return TRUE; } static CliprdrFuseFile* get_parent_directory(CliprdrFileContext* file_context, const char* path) { CliprdrFuseFindParentContext find_context = { 0 }; WINPR_ASSERT(file_context); WINPR_ASSERT(path); find_context.parent_path = get_parent_path(path); if (!find_context.parent_path) return NULL; WINPR_ASSERT(!find_context.parent); if (HashTable_Foreach(file_context->inode_table, is_fuse_file_not_parent, &find_context)) { free(find_context.parent_path); return NULL; } WINPR_ASSERT(find_context.parent); free(find_context.parent_path); return find_context.parent; } static BOOL set_selection_for_clip_data_entry(CliprdrFileContext* file_context, CliprdrFuseClipDataEntry* clip_data_entry, const FILEDESCRIPTORW* files, UINT32 n_files) { CliprdrFuseFile* clip_data_dir = NULL; WINPR_ASSERT(file_context); WINPR_ASSERT(clip_data_entry); WINPR_ASSERT(files); clip_data_dir = clip_data_entry->clip_data_dir; WINPR_ASSERT(clip_data_dir); if (clip_data_entry->has_clip_data_id) WLog_Print(file_context->log, WLOG_DEBUG, "Setting selection for clipDataId %u", clip_data_entry->clip_data_id); else WLog_Print(file_context->log, WLOG_DEBUG, "Setting selection"); // NOLINTBEGIN(clang-analyzer-unix.Malloc) HashTable_Insert owns fuse_file for (UINT32 i = 0; i < n_files; ++i) { const FILEDESCRIPTORW* file = &files[i]; CliprdrFuseFile* fuse_file = NULL; char* filename = NULL; size_t path_length = 0; fuse_file = fuse_file_new(); if (!fuse_file) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to create FUSE file"); clear_entry_selection(clip_data_entry); return FALSE; } filename = ConvertWCharToUtf8Alloc(file->cFileName, NULL); if (!filename) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to convert filename"); fuse_file_free(fuse_file); clear_entry_selection(clip_data_entry); return FALSE; } for (size_t j = 0; filename[j]; ++j) { if (filename[j] == '\\') filename[j] = '/'; } path_length = strlen(clip_data_dir->filename_with_root) + 1 + strlen(filename) + 1; fuse_file->filename_with_root = calloc(path_length, sizeof(char)); if (!fuse_file->filename_with_root) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to allocate filename"); free(filename); fuse_file_free(fuse_file); clear_entry_selection(clip_data_entry); return FALSE; } (void)_snprintf(fuse_file->filename_with_root, path_length, "%s/%s", clip_data_dir->filename_with_root, filename); free(filename); fuse_file->filename = strrchr(fuse_file->filename_with_root, '/') + 1; fuse_file->parent = get_parent_directory(file_context, fuse_file->filename_with_root); if (!fuse_file->parent) { WLog_Print(file_context->log, WLOG_ERROR, "Found no parent for FUSE file"); fuse_file_free(fuse_file); clear_entry_selection(clip_data_entry); return FALSE; } if (!ArrayList_Append(fuse_file->parent->children, fuse_file)) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to append FUSE file"); fuse_file_free(fuse_file); clear_entry_selection(clip_data_entry); return FALSE; } fuse_file->list_idx = i; fuse_file->ino = get_next_free_inode(file_context); fuse_file->has_clip_data_id = clip_data_entry->has_clip_data_id; fuse_file->clip_data_id = clip_data_entry->clip_data_id; if (file->dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) fuse_file->is_directory = TRUE; if (file->dwFileAttributes & FILE_ATTRIBUTE_READONLY) fuse_file->is_readonly = TRUE; if (file->dwFlags & FD_FILESIZE) { fuse_file->size = ((UINT64)file->nFileSizeHigh << 32) + file->nFileSizeLow; fuse_file->has_size = TRUE; } if (file->dwFlags & FD_WRITESTIME) { UINT64 filetime = 0; filetime = file->ftLastWriteTime.dwHighDateTime; filetime <<= 32; filetime += file->ftLastWriteTime.dwLowDateTime; fuse_file->last_write_time_unix = 1ULL * filetime / (10ULL * 1000ULL * 1000ULL) - WIN32_FILETIME_TO_UNIX_EPOCH; fuse_file->has_last_write_time = TRUE; } if (!HashTable_Insert(file_context->inode_table, (void*)(UINT_PTR)fuse_file->ino, fuse_file)) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to insert inode into inode table"); fuse_file_free(fuse_file); clear_entry_selection(clip_data_entry); return FALSE; } } // NOLINTEND(clang-analyzer-unix.Malloc) HashTable_Insert owns fuse_file if (clip_data_entry->has_clip_data_id) WLog_Print(file_context->log, WLOG_DEBUG, "Selection set for clipDataId %u", clip_data_entry->clip_data_id); else WLog_Print(file_context->log, WLOG_DEBUG, "Selection set"); return TRUE; } static BOOL update_exposed_path(CliprdrFileContext* file_context, wClipboard* clip, CliprdrFuseClipDataEntry* clip_data_entry) { wClipboardDelegate* delegate = NULL; CliprdrFuseFile* clip_data_dir = NULL; WINPR_ASSERT(file_context); WINPR_ASSERT(clip); WINPR_ASSERT(clip_data_entry); delegate = ClipboardGetDelegate(clip); WINPR_ASSERT(delegate); clip_data_dir = clip_data_entry->clip_data_dir; WINPR_ASSERT(clip_data_dir); free(file_context->exposed_path); file_context->exposed_path = GetCombinedPath(file_context->path, clip_data_dir->filename); if (file_context->exposed_path) WLog_Print(file_context->log, WLOG_DEBUG, "Updated exposed path to \"%s\"", file_context->exposed_path); delegate->basePath = file_context->exposed_path; return delegate->basePath != NULL; } #endif BOOL cliprdr_file_context_update_server_data(CliprdrFileContext* file_context, wClipboard* clip, const void* data, size_t size) { #if defined(WITH_FUSE) CliprdrFuseClipDataEntry* clip_data_entry = NULL; FILEDESCRIPTORW* files = NULL; UINT32 n_files = 0; WINPR_ASSERT(file_context); WINPR_ASSERT(clip); if (cliprdr_parse_file_list(data, size, &files, &n_files)) { WLog_Print(file_context->log, WLOG_ERROR, "Failed to parse file list"); return FALSE; } HashTable_Lock(file_context->inode_table); if (does_server_support_clipdata_locking(file_context)) clip_data_entry = HashTable_GetItemValue( file_context->clip_data_table, (void*)(UINT_PTR)file_context->current_clip_data_id); else clip_data_entry = file_context->clip_data_entry_without_id; WINPR_ASSERT(clip_data_entry); clear_entry_selection(clip_data_entry); WINPR_ASSERT(!clip_data_entry->clip_data_dir); clip_data_entry->clip_data_dir = clip_data_dir_new(file_context, does_server_support_clipdata_locking(file_context), file_context->current_clip_data_id); if (!clip_data_entry->clip_data_dir) { HashTable_Unlock(file_context->inode_table); free(files); return FALSE; } if (!update_exposed_path(file_context, clip, clip_data_entry)) { HashTable_Unlock(file_context->inode_table); free(files); return FALSE; } if (!set_selection_for_clip_data_entry(file_context, clip_data_entry, files, n_files)) { HashTable_Unlock(file_context->inode_table); free(files); return FALSE; } HashTable_Unlock(file_context->inode_table); free(files); return TRUE; #else return FALSE; #endif } void* cliprdr_file_context_get_context(CliprdrFileContext* file) { WINPR_ASSERT(file); return file->clipboard; } void cliprdr_file_session_terminate(CliprdrFileContext* file, BOOL stop_thread) { if (!file) return; #if defined(WITH_FUSE) WINPR_ASSERT(file->fuse_stop_sync); WLog_Print(file->log, WLOG_DEBUG, "Setting FUSE exit flag"); if (file->fuse_sess) fuse_session_exit(file->fuse_sess); if (stop_thread) { WLog_Print(file->log, WLOG_DEBUG, "Setting FUSE stop event"); (void)SetEvent(file->fuse_stop_sync); } #endif /* not elegant but works for umounting FUSE fuse_chan must receive an oper buf to unblock fuse_session_receive_buf function. */ #if defined(WITH_FUSE) WLog_Print(file->log, WLOG_DEBUG, "Forcing FUSE to check exit flag"); #endif (void)winpr_PathFileExists(file->path); } void cliprdr_file_context_free(CliprdrFileContext* file) { if (!file) return; #if defined(WITH_FUSE) if (file->inode_table) { clear_no_cdi_entry(file); clear_all_selections(file); } if (file->fuse_thread) { WINPR_ASSERT(file->fuse_stop_sync); WLog_Print(file->log, WLOG_DEBUG, "Stopping FUSE thread"); cliprdr_file_session_terminate(file, TRUE); WLog_Print(file->log, WLOG_DEBUG, "Waiting on FUSE thread"); (void)WaitForSingleObject(file->fuse_thread, INFINITE); (void)CloseHandle(file->fuse_thread); } if (file->fuse_stop_sync) (void)CloseHandle(file->fuse_stop_sync); if (file->fuse_start_sync) (void)CloseHandle(file->fuse_start_sync); HashTable_Free(file->request_table); HashTable_Free(file->clip_data_table); HashTable_Free(file->inode_table); #endif HashTable_Free(file->local_streams); winpr_RemoveDirectory(file->path); free(file->path); free(file->exposed_path); free(file); } static BOOL create_base_path(CliprdrFileContext* file) { WINPR_ASSERT(file); char base[64] = { 0 }; (void)_snprintf(base, sizeof(base), "com.freerdp.client.cliprdr.%" PRIu32, GetCurrentProcessId()); file->path = GetKnownSubPath(KNOWN_PATH_TEMP, base); if (!file->path) return FALSE; if (!winpr_PathFileExists(file->path) && !winpr_PathMakePath(file->path, 0)) { WLog_Print(file->log, WLOG_ERROR, "Failed to create directory '%s'", file->path); return FALSE; } return TRUE; } static void cliprdr_local_file_free(CliprdrLocalFile* file) { const CliprdrLocalFile empty = { 0 }; if (!file) return; if (file->fp) { WLog_Print(file->context->log, WLOG_DEBUG, "closing file %s, discarding entry", file->name); (void)fclose(file->fp); } free(file->name); *file = empty; } static BOOL cliprdr_local_file_new(CliprdrFileContext* context, CliprdrLocalFile* f, const char* path) { const CliprdrLocalFile empty = { 0 }; WINPR_ASSERT(f); WINPR_ASSERT(context); WINPR_ASSERT(path); *f = empty; f->context = context; f->name = winpr_str_url_decode(path, strlen(path)); if (!f->name) goto fail; return TRUE; fail: cliprdr_local_file_free(f); return FALSE; } static void cliprdr_local_files_free(CliprdrLocalStream* stream) { WINPR_ASSERT(stream); for (size_t x = 0; x < stream->count; x++) cliprdr_local_file_free(&stream->files[x]); free(stream->files); stream->files = NULL; stream->count = 0; } static void cliprdr_local_stream_free(void* obj) { CliprdrLocalStream* stream = (CliprdrLocalStream*)obj; if (stream) cliprdr_local_files_free(stream); free(stream); } static BOOL append_entry(CliprdrLocalStream* stream, const char* path) { CliprdrLocalFile* tmp = realloc(stream->files, sizeof(CliprdrLocalFile) * (stream->count + 1)); if (!tmp) return FALSE; stream->files = tmp; CliprdrLocalFile* f = &stream->files[stream->count++]; return cliprdr_local_file_new(stream->context, f, path); } static BOOL is_directory(const char* path) { WCHAR* wpath = ConvertUtf8ToWCharAlloc(path, NULL); if (!wpath) return FALSE; HANDLE hFile = CreateFileW(wpath, 0, FILE_SHARE_DELETE, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); free(wpath); if (hFile == INVALID_HANDLE_VALUE) return FALSE; BY_HANDLE_FILE_INFORMATION fileInformation = { 0 }; const BOOL status = GetFileInformationByHandle(hFile, &fileInformation); (void)CloseHandle(hFile); if (!status) return FALSE; return (fileInformation.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) ? TRUE : FALSE; } static BOOL add_directory(CliprdrLocalStream* stream, const char* path) { char* wildcardpath = GetCombinedPath(path, "*"); if (!wildcardpath) return FALSE; WCHAR* wpath = ConvertUtf8ToWCharAlloc(wildcardpath, NULL); free(wildcardpath); if (!wpath) return FALSE; WIN32_FIND_DATAW FindFileData = { 0 }; HANDLE hFind = FindFirstFileW(wpath, &FindFileData); free(wpath); if (hFind == INVALID_HANDLE_VALUE) return FALSE; BOOL rc = FALSE; char* next = NULL; WCHAR dotbuffer[6] = { 0 }; WCHAR dotdotbuffer[6] = { 0 }; const WCHAR* dot = InitializeConstWCharFromUtf8(".", dotbuffer, ARRAYSIZE(dotbuffer)); const WCHAR* dotdot = InitializeConstWCharFromUtf8("..", dotdotbuffer, ARRAYSIZE(dotdotbuffer)); do { if (_wcscmp(FindFileData.cFileName, dot) == 0) continue; if (_wcscmp(FindFileData.cFileName, dotdot) == 0) continue; char cFileName[MAX_PATH] = { 0 }; (void)ConvertWCharNToUtf8(FindFileData.cFileName, ARRAYSIZE(FindFileData.cFileName), cFileName, ARRAYSIZE(cFileName)); free(next); next = GetCombinedPath(path, cFileName); if (!next) goto fail; if (!append_entry(stream, next)) goto fail; if (is_directory(next)) { if (!add_directory(stream, next)) goto fail; } } while (FindNextFileW(hFind, &FindFileData)); rc = TRUE; fail: free(next); FindClose(hFind); return rc; } static BOOL cliprdr_local_stream_update(CliprdrLocalStream* stream, const char* data, size_t size) { BOOL rc = FALSE; WINPR_ASSERT(stream); if (size == 0) return TRUE; cliprdr_local_files_free(stream); stream->files = calloc(size, sizeof(CliprdrLocalFile)); if (!stream->files) return FALSE; char* copy = strndup(data, size); if (!copy) return FALSE; char* saveptr = NULL; char* ptr = strtok_s(copy, "\r\n", &saveptr); while (ptr) { const char* name = ptr; if (strncmp("file:///", ptr, 8) == 0) name = &ptr[7]; else if (strncmp("file:/", ptr, 6) == 0) name = &ptr[5]; if (!append_entry(stream, name)) goto fail; if (is_directory(name)) { const BOOL res = add_directory(stream, name); if (!res) goto fail; } ptr = strtok_s(NULL, "\r\n", &saveptr); } rc = TRUE; fail: free(copy); return rc; } CliprdrLocalStream* cliprdr_local_stream_new(CliprdrFileContext* context, UINT32 streamID, const char* data, size_t size) { WINPR_ASSERT(context); CliprdrLocalStream* stream = calloc(1, sizeof(CliprdrLocalStream)); if (!stream) return NULL; stream->context = context; if (!cliprdr_local_stream_update(stream, data, size)) goto fail; stream->lockId = streamID; return stream; fail: cliprdr_local_stream_free(stream); return NULL; } static UINT32 UINTPointerHash(const void* id) { WINPR_ASSERT(id); return *((const UINT32*)id); } static BOOL UINTPointerCompare(const void* pointer1, const void* pointer2) { if (!pointer1 || !pointer2) return pointer1 == pointer2; const UINT32* a = pointer1; const UINT32* b = pointer2; return *a == *b; } static void* UINTPointerClone(const void* other) { const UINT32* src = other; if (!src) return NULL; UINT32* copy = calloc(1, sizeof(UINT32)); if (!copy) return NULL; *copy = *src; return copy; } #if defined(WITH_FUSE) static CliprdrFuseFile* fuse_file_new_root(CliprdrFileContext* file_context) { CliprdrFuseFile* root_dir = NULL; root_dir = fuse_file_new(); if (!root_dir) return NULL; root_dir->filename_with_root = calloc(2, sizeof(char)); if (!root_dir->filename_with_root) { fuse_file_free(root_dir); return NULL; } (void)_snprintf(root_dir->filename_with_root, 2, "/"); root_dir->filename = root_dir->filename_with_root; root_dir->ino = FUSE_ROOT_ID; root_dir->is_directory = TRUE; root_dir->is_readonly = TRUE; if (!HashTable_Insert(file_context->inode_table, (void*)(UINT_PTR)root_dir->ino, root_dir)) { fuse_file_free(root_dir); return NULL; } return root_dir; } #endif CliprdrFileContext* cliprdr_file_context_new(void* context) { CliprdrFileContext* file = calloc(1, sizeof(CliprdrFileContext)); if (!file) return NULL; file->log = WLog_Get(CLIENT_TAG("common.cliprdr.file")); file->clipboard = context; file->local_streams = HashTable_New(FALSE); if (!file->local_streams) goto fail; if (!HashTable_SetHashFunction(file->local_streams, UINTPointerHash)) goto fail; wObject* hkobj = HashTable_KeyObject(file->local_streams); WINPR_ASSERT(hkobj); hkobj->fnObjectEquals = UINTPointerCompare; hkobj->fnObjectFree = free; hkobj->fnObjectNew = UINTPointerClone; wObject* hobj = HashTable_ValueObject(file->local_streams); WINPR_ASSERT(hobj); hobj->fnObjectFree = cliprdr_local_stream_free; #if defined(WITH_FUSE) file->inode_table = HashTable_New(FALSE); file->clip_data_table = HashTable_New(FALSE); file->request_table = HashTable_New(FALSE); if (!file->inode_table || !file->clip_data_table || !file->request_table) goto fail; { wObject* ctobj = HashTable_ValueObject(file->request_table); WINPR_ASSERT(ctobj); ctobj->fnObjectFree = free; } { wObject* ctobj = HashTable_ValueObject(file->clip_data_table); WINPR_ASSERT(ctobj); ctobj->fnObjectFree = clip_data_entry_free; } file->root_dir = fuse_file_new_root(file); if (!file->root_dir) goto fail; #endif if (!create_base_path(file)) goto fail; #if defined(WITH_FUSE) if (!(file->fuse_start_sync = CreateEvent(NULL, TRUE, FALSE, NULL))) goto fail; if (!(file->fuse_stop_sync = CreateEvent(NULL, TRUE, FALSE, NULL))) goto fail; if (!(file->fuse_thread = CreateThread(NULL, 0, cliprdr_file_fuse_thread, file, 0, NULL))) goto fail; if (WaitForSingleObject(file->fuse_start_sync, INFINITE) == WAIT_FAILED) WLog_Print(file->log, WLOG_ERROR, "Failed to wait for start sync"); #endif return file; fail: WINPR_PRAGMA_DIAG_PUSH WINPR_PRAGMA_DIAG_IGNORED_MISMATCHED_DEALLOC cliprdr_file_context_free(file); WINPR_PRAGMA_DIAG_POP return NULL; } BOOL local_stream_discard(const void* key, void* value, void* arg) { CliprdrFileContext* file = arg; CliprdrLocalStream* stream = value; WINPR_ASSERT(file); WINPR_ASSERT(stream); if (!stream->locked) HashTable_Remove(file->local_streams, key); return TRUE; } BOOL cliprdr_file_context_clear(CliprdrFileContext* file) { WINPR_ASSERT(file); WLog_Print(file->log, WLOG_DEBUG, "clear file clipboard..."); HashTable_Lock(file->local_streams); HashTable_Foreach(file->local_streams, local_stream_discard, file); HashTable_Unlock(file->local_streams); memset(file->server_data_hash, 0, sizeof(file->server_data_hash)); memset(file->client_data_hash, 0, sizeof(file->client_data_hash)); return TRUE; } BOOL cliprdr_file_context_update_client_data(CliprdrFileContext* file, const char* data, size_t size) { BOOL rc = FALSE; WINPR_ASSERT(file); if (!cliprdr_file_client_content_changed_and_update(file, data, size)) return TRUE; if (!cliprdr_file_context_clear(file)) return FALSE; UINT32 lockId = file->local_lock_id; HashTable_Lock(file->local_streams); CliprdrLocalStream* stream = HashTable_GetItemValue(file->local_streams, &lockId); WLog_Print(file->log, WLOG_DEBUG, "update client file list (stream=%p)...", stream); if (stream) rc = cliprdr_local_stream_update(stream, data, size); else { stream = cliprdr_local_stream_new(file, lockId, data, size); rc = HashTable_Insert(file->local_streams, &stream->lockId, stream); if (!rc) cliprdr_local_stream_free(stream); } // HashTable_Insert owns stream // NOLINTNEXTLINE(clang-analyzer-unix.Malloc) HashTable_Unlock(file->local_streams); return rc; } UINT32 cliprdr_file_context_current_flags(CliprdrFileContext* file) { WINPR_ASSERT(file); if ((file->file_capability_flags & CB_STREAM_FILECLIP_ENABLED) == 0) return 0; if (!file->file_formats_registered) return 0; return CB_STREAM_FILECLIP_ENABLED | CB_FILECLIP_NO_FILE_PATHS | CB_HUGE_FILE_SUPPORT_ENABLED; // | CB_CAN_LOCK_CLIPDATA; } BOOL cliprdr_file_context_set_locally_available(CliprdrFileContext* file, BOOL available) { WINPR_ASSERT(file); file->file_formats_registered = available; return TRUE; } BOOL cliprdr_file_context_remote_set_flags(CliprdrFileContext* file, UINT32 flags) { WINPR_ASSERT(file); file->file_capability_flags = flags; return TRUE; } UINT32 cliprdr_file_context_remote_get_flags(CliprdrFileContext* file) { WINPR_ASSERT(file); return file->file_capability_flags; } BOOL cliprdr_file_context_has_local_support(CliprdrFileContext* file) { WINPR_UNUSED(file); #if defined(WITH_FUSE) return TRUE; #else return FALSE; #endif }