/** * WinPR: Windows Portable Runtime * Clipboard Functions: POSIX file handling * * Copyright 2017 Alexei Lozovsky * * 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. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #define _FILE_OFFSET_BITS 64 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "clipboard.h" #include "posix.h" #include "../log.h" #define TAG WINPR_TAG("clipboard.posix") struct posix_file { char* local_name; WCHAR* remote_name; BOOL is_directory; int fd; INT64 offset; INT64 size; }; static struct posix_file* make_posix_file(const char* local_name, const WCHAR* remote_name) { struct posix_file* file = NULL; struct stat statbuf; file = calloc(1, sizeof(*file)); if (!file) return NULL; file->fd = -1; file->offset = 0; file->local_name = _strdup(local_name); file->remote_name = _wcsdup(remote_name); if (!file->local_name || !file->remote_name) goto error; if (stat(local_name, &statbuf)) { int err = errno; WLog_ERR(TAG, "failed to stat %s: %s", local_name, strerror(err)); goto error; } file->is_directory = S_ISDIR(statbuf.st_mode); file->size = statbuf.st_size; return file; error: free(file->local_name); free(file->remote_name); free(file); return NULL; } static void free_posix_file(void* the_file) { struct posix_file* file = the_file; if (!file) return; if (file->fd >= 0) { if (close(file->fd) < 0) { int err = errno; WLog_WARN(TAG, "failed to close fd %d: %s", file->fd, strerror(err)); } } free(file->local_name); free(file->remote_name); free(file); } static unsigned char hex_to_dec(char c, BOOL* valid) { if (('0' <= c) && (c <= '9')) return (c - '0'); if (('a' <= c) && (c <= 'f')) return (c - 'a') + 10; if (('A' <= c) && (c <= 'F')) return (c - 'A') + 10; *valid = FALSE; return 0; } static BOOL decode_percent_encoded_byte(const char* str, const char* end, char* value) { BOOL valid = TRUE; if ((end < str) || (end - str < strlen("%20"))) return FALSE; *value = 0; *value |= hex_to_dec(str[1], &valid); *value <<= 4; *value |= hex_to_dec(str[2], &valid); return valid; } static char* decode_percent_encoded_string(const char* str, size_t len) { char* buffer = NULL; char* next = NULL; const char* cur = str; const char* lim = str + len; /* Percent decoding shrinks data length, so len bytes will be enough. */ buffer = calloc(len + 1, sizeof(char)); if (!buffer) return NULL; next = buffer; while (cur < lim) { if (*cur != '%') { *next++ = *cur++; } else { if (!decode_percent_encoded_byte(cur, lim, next)) { WLog_ERR(TAG, "invalid percent encoding"); goto error; } cur += strlen("%20"); next += 1; } } return buffer; error: free(buffer); return NULL; } /* * Note that the function converts a single file name component, * it does not take care of component separators. */ static WCHAR* convert_local_name_component_to_remote(const char* local_name) { WCHAR* remote_name = NULL; /* * Note that local file names are not actually guaranteed to be * encoded in UTF-8. Filesystems and users can use whatever they * want. The OS does not care, aside from special treatment of * '\0' and '/' bytes. But we need to make some decision here. * Assuming UTF-8 is currently the most sane thing. */ if (!ConvertToUnicode(CP_UTF8, 0, local_name, -1, &remote_name, 0)) { WLog_ERR(TAG, "Unicode conversion failed for %s", local_name); goto error; } /* * Some file names are not valid on Windows. Check for these now * so that we won't get ourselves into a trouble later as such names * are known to crash some Windows shells when pasted via clipboard. */ if (!ValidFileNameComponent(remote_name)) { WLog_ERR(TAG, "invalid file name component: %s", local_name); goto error; } return remote_name; error: free(remote_name); return NULL; } static char* concat_local_name(const char* dir, const char* file) { size_t len_dir = 0; size_t len_file = 0; char* buffer = NULL; len_dir = strlen(dir); len_file = strlen(file); buffer = calloc(len_dir + 1 + len_file + 1, sizeof(char)); if (!buffer) return NULL; memcpy(buffer, dir, len_dir * sizeof(char)); buffer[len_dir] = '/'; memcpy(buffer + len_dir + 1, file, len_file * sizeof(char)); return buffer; } static WCHAR* concat_remote_name(const WCHAR* dir, const WCHAR* file) { size_t len_dir = 0; size_t len_file = 0; WCHAR* buffer = NULL; len_dir = _wcslen(dir); len_file = _wcslen(file); buffer = calloc(len_dir + 1 + len_file + 1, sizeof(WCHAR)); if (!buffer) return NULL; memcpy(buffer, dir, len_dir * sizeof(WCHAR)); buffer[len_dir] = L'\\'; memcpy(buffer + len_dir + 1, file, len_file * sizeof(WCHAR)); return buffer; } static BOOL add_file_to_list(const char* local_name, const WCHAR* remote_name, wArrayList* files); static BOOL add_directory_entry_to_list(const char* local_dir_name, const WCHAR* remote_dir_name, const struct dirent* entry, wArrayList* files) { BOOL result = FALSE; char* local_name = NULL; WCHAR* remote_name = NULL; WCHAR* remote_base_name = NULL; /* Skip special directory entries. */ if ((strcmp(entry->d_name, ".") == 0) || (strcmp(entry->d_name, "..") == 0)) return TRUE; remote_base_name = convert_local_name_component_to_remote(entry->d_name); if (!remote_base_name) return FALSE; local_name = concat_local_name(local_dir_name, entry->d_name); remote_name = concat_remote_name(remote_dir_name, remote_base_name); if (local_name && remote_name) result = add_file_to_list(local_name, remote_name, files); free(remote_base_name); free(remote_name); free(local_name); return result; } static BOOL do_add_directory_contents_to_list(const char* local_name, const WCHAR* remote_name, DIR* dirp, wArrayList* files) { /* * For some reason POSIX does not require readdir() to be thread-safe. * However, readdir_r() has really insane interface and is pretty bad * replacement for it. Fortunately, most C libraries guarantee thread- * safety of readdir() when it is used for distinct directory streams. * * Thus we can use readdir() in multithreaded applications if we are * sure that it will not corrupt some global data. It would be nice * to have a compile-time check for this here, but some C libraries * do not provide a #define because of reasons (I'm looking at you, * musl). We should not be breaking people's builds because of that, * so we do nothing and proceed with fingers crossed. */ for (;;) { struct dirent* entry = NULL; errno = 0; entry = readdir(dirp); if (!entry) { int err = errno; if (!err) break; WLog_ERR(TAG, "failed to read directory: %s", strerror(err)); return FALSE; } if (!add_directory_entry_to_list(local_name, remote_name, entry, files)) return FALSE; } return TRUE; } static BOOL add_directory_contents_to_list(const char* local_name, const WCHAR* remote_name, wArrayList* files) { BOOL result = FALSE; DIR* dirp = NULL; WLog_VRB(TAG, "adding directory: %s", local_name); dirp = opendir(local_name); if (!dirp) { int err = errno; WLog_ERR(TAG, "failed to open directory %s: %s", local_name, strerror(err)); goto out; } result = do_add_directory_contents_to_list(local_name, remote_name, dirp, files); if (closedir(dirp)) { int err = errno; WLog_WARN(TAG, "failed to close directory: %s", strerror(err)); } out: return result; } static BOOL add_file_to_list(const char* local_name, const WCHAR* remote_name, wArrayList* files) { struct posix_file* file = NULL; WLog_VRB(TAG, "adding file: %s", local_name); file = make_posix_file(local_name, remote_name); if (!file) return FALSE; if (ArrayList_Add(files, file) < 0) { free_posix_file(file); return FALSE; } if (file->is_directory) { /* * This is effectively a recursive call, but we do not track * recursion depth, thus filesystem loops can cause a crash. */ if (!add_directory_contents_to_list(local_name, remote_name, files)) return FALSE; } return TRUE; } static const char* get_basename(const char* name) { const char* c = name; const char* last_name = name; while (*c++) { if (*c == '/') last_name = c + 1; } return last_name; } static BOOL process_file_name(const char* local_name, wArrayList* files) { BOOL result = FALSE; const char* base_name = NULL; WCHAR* remote_name = NULL; /* * Start with the base name of the file. text/uri-list contains the * exact files selected by the user, and we want the remote files * to have names relative to that selection. */ base_name = get_basename(local_name); remote_name = convert_local_name_component_to_remote(base_name); if (!remote_name) return FALSE; result = add_file_to_list(local_name, remote_name, files); free(remote_name); return result; } static BOOL process_uri(const char* uri, size_t uri_len, wArrayList* files) { BOOL result = FALSE; char* name = NULL; WLog_VRB(TAG, "processing URI: %.*s", uri_len, uri); if ((uri_len < strlen("file://")) || strncmp(uri, "file://", strlen("file://"))) { WLog_ERR(TAG, "non-'file://' URI schemes are not supported"); goto out; } name = decode_percent_encoded_string(uri + strlen("file://"), uri_len - strlen("file://")); if (!name) goto out; result = process_file_name(name, files); out: free(name); return result; } static BOOL process_uri_list(const char* data, size_t length, wArrayList* files) { const char* cur = data; const char* lim = data + length; const char* start = NULL; const char* stop = NULL; WLog_VRB(TAG, "processing URI list:\n%.*s", length, data); ArrayList_Clear(files); /* * The "text/uri-list" Internet Media Type is specified by RFC 2483. * * While the RFCs 2046 and 2483 require the lines of text/... formats * to be terminated by CRLF sequence, be prepared for those who don't * read the spec, use plain LFs, and don't leave the trailing CRLF. */ while (cur < lim) { BOOL comment = (*cur == '#'); start = cur; for (stop = cur; stop < lim; stop++) { if (*stop == '\r') { if ((stop + 1 < lim) && (*(stop + 1) == '\n')) cur = stop + 2; else cur = stop + 1; break; } if (*stop == '\n') { cur = stop + 1; break; } } if (stop == lim) cur = lim; if (comment) continue; if (!process_uri(start, stop - start, files)) return FALSE; } return TRUE; } static BOOL convert_local_file_to_filedescriptor(const struct posix_file* file, FILEDESCRIPTOR* descriptor) { size_t remote_len = 0; descriptor->dwFlags = FD_ATTRIBUTES | FD_FILESIZE | FD_SHOWPROGRESSUI; if (file->is_directory) { descriptor->dwFileAttributes = FILE_ATTRIBUTE_DIRECTORY; descriptor->nFileSizeLow = 0; descriptor->nFileSizeHigh = 0; } else { descriptor->dwFileAttributes = FILE_ATTRIBUTE_NORMAL; descriptor->nFileSizeLow = (file->size >> 0) & 0xFFFFFFFF; descriptor->nFileSizeHigh = (file->size >> 32) & 0xFFFFFFFF; } remote_len = _wcslen(file->remote_name); if (remote_len + 1 > ARRAYSIZE(descriptor->cFileName)) { WLog_ERR(TAG, "file name too long (%"PRIuz" characters)", remote_len); return FALSE; } memcpy(descriptor->cFileName, file->remote_name, remote_len * sizeof(WCHAR)); return TRUE; } static FILEDESCRIPTOR* convert_local_file_list_to_filedescriptors(wArrayList* files) { int i; int count = 0; FILEDESCRIPTOR* descriptors = NULL; count = ArrayList_Count(files); descriptors = calloc(count, sizeof(descriptors[0])); if (!descriptors) goto error; for (i = 0; i < count; i++) { const struct posix_file* file = ArrayList_GetItem(files, i); if (!convert_local_file_to_filedescriptor(file, &descriptors[i])) goto error; } return descriptors; error: free(descriptors); return NULL; } static void* convert_uri_list_to_filedescriptors(wClipboard* clipboard, UINT32 formatId, const void* data, UINT32* pSize) { FILEDESCRIPTOR* descriptors = NULL; if (!clipboard || !data || !pSize) return NULL; if (formatId != ClipboardGetFormatId(clipboard, "text/uri-list")) return NULL; if (!process_uri_list((const char*) data, *pSize, clipboard->localFiles)) return NULL; descriptors = convert_local_file_list_to_filedescriptors(clipboard->localFiles); if (!descriptors) return NULL; *pSize = ArrayList_Count(clipboard->localFiles) * sizeof(FILEDESCRIPTOR); clipboard->fileListSequenceNumber = clipboard->sequenceNumber; return descriptors; } static BOOL register_file_formats_and_synthesizers(wClipboard* clipboard) { UINT32 file_group_format_id; UINT32 local_file_format_id; file_group_format_id = ClipboardRegisterFormat(clipboard, "FileGroupDescriptorW"); local_file_format_id = ClipboardRegisterFormat(clipboard, "text/uri-list"); if (!file_group_format_id || !local_file_format_id) goto error; clipboard->localFiles = ArrayList_New(FALSE); if (!clipboard->localFiles) goto error; ArrayList_Object(clipboard->localFiles)->fnObjectFree = free_posix_file; if (!ClipboardRegisterSynthesizer(clipboard, local_file_format_id, file_group_format_id, convert_uri_list_to_filedescriptors)) goto error_free_local_files; return TRUE; error_free_local_files: ArrayList_Free(clipboard->localFiles); clipboard->localFiles = NULL; error: return FALSE; } static UINT posix_file_get_size(const struct posix_file* file, INT64* size) { struct stat statbuf; if (stat(file->local_name, &statbuf) < 0) { int err = errno; WLog_ERR(TAG, "failed to stat %s: %s", file->local_name, strerror(err)); return ERROR_FILE_INVALID; } *size = statbuf.st_size; return NO_ERROR; } static UINT posix_file_request_size(wClipboardDelegate* delegate, const wClipboardFileSizeRequest* request) { UINT error = NO_ERROR; INT64 size = 0; struct posix_file* file = NULL; if (!delegate || !delegate->clipboard || !request) return ERROR_BAD_ARGUMENTS; if (delegate->clipboard->sequenceNumber != delegate->clipboard->fileListSequenceNumber) return ERROR_INVALID_STATE; file = ArrayList_GetItem(delegate->clipboard->localFiles, request->listIndex); if (!file) return ERROR_INDEX_ABSENT; error = posix_file_get_size(file, &size); if (error) error = delegate->ClipboardFileSizeFailure(delegate, request, error); else error = delegate->ClipboardFileSizeSuccess(delegate, request, size); if (error) WLog_WARN(TAG, "failed to report file size result: 0x%08X", error); return NO_ERROR; } static UINT posix_file_read_open(struct posix_file* file) { struct stat statbuf; if (file->fd >= 0) return NO_ERROR; file->fd = open(file->local_name, O_RDONLY); if (file->fd < 0) { int err = errno; WLog_ERR(TAG, "failed to open file %s: %s", file->local_name, strerror(err)); return ERROR_FILE_NOT_FOUND; } if (fstat(file->fd, &statbuf) < 0) { int err = errno; WLog_ERR(TAG, "failed to stat file: %s", strerror(err)); return ERROR_FILE_INVALID; } file->offset = 0; file->size = statbuf.st_size; WLog_VRB(TAG, "open file %d -> %s", file->fd, file->local_name); WLog_VRB(TAG, "file %d size: %"PRIu64" bytes", file->fd, file->size); return NO_ERROR; } static UINT posix_file_read_seek(struct posix_file* file, UINT64 offset) { /* * We should avoid seeking when possible as some filesystems (e.g., * an FTP server mapped via FUSE) may not support seeking. We keep * an accurate account of the current file offset and do not call * lseek() if the client requests file content sequentially. */ if (file->offset == offset) return NO_ERROR; WLog_VRB(TAG, "file %d force seeking to %"PRIu64", current %"PRIu64, file->fd, offset, file->offset); if (lseek(file->fd, offset, SEEK_SET) < 0) { int err = errno; WLog_ERR(TAG, "failed to seek file: %s", strerror(err)); return ERROR_SEEK; } return NO_ERROR; } static UINT posix_file_read_perform(struct posix_file* file, UINT32 size, BYTE** actual_data, UINT32* actual_size) { BYTE* buffer = NULL; ssize_t amount = 0; WLog_VRB(TAG, "file %d request read %"PRIu32" bytes", file->fd, size); buffer = malloc(size); if (!buffer) { WLog_ERR(TAG, "failed to allocate %"PRIu32" buffer bytes", size); return ERROR_NOT_ENOUGH_MEMORY; } amount = read(file->fd, buffer, size); if (amount < 0) { int err = errno; WLog_ERR(TAG, "failed to read file: %s", strerror(err)); goto error; } *actual_data = buffer; *actual_size = amount; file->offset += amount; WLog_VRB(TAG, "file %d actual read %"PRIu32" bytes (offset %"PRIu64")", file->fd, amount, file->offset); return NO_ERROR; error: free(buffer); return ERROR_READ_FAULT; } static UINT posix_file_read_close(struct posix_file* file) { if (file->fd < 0) return NO_ERROR; if (file->offset == file->size) { WLog_VRB(TAG, "close file %d", file->fd); if (close(file->fd) < 0) { int err = errno; WLog_WARN(TAG, "failed to close fd %d: %s", file->fd, strerror(err)); } file->fd = -1; } return NO_ERROR; } static UINT posix_file_get_range(struct posix_file* file, UINT64 offset, UINT32 size, BYTE** actual_data, UINT32* actual_size) { UINT error = NO_ERROR; error = posix_file_read_open(file); if (error) goto out; error = posix_file_read_seek(file, offset); if (error) goto out; error = posix_file_read_perform(file, size, actual_data, actual_size); if (error) goto out; error = posix_file_read_close(file); if (error) goto out; out: return error; } static UINT posix_file_request_range(wClipboardDelegate* delegate, const wClipboardFileRangeRequest* request) { UINT error = 0; BYTE* data = NULL; UINT32 size = 0; UINT64 offset = 0; struct posix_file* file = NULL; if (!delegate || !delegate->clipboard || !request) return ERROR_BAD_ARGUMENTS; if (delegate->clipboard->sequenceNumber != delegate->clipboard->fileListSequenceNumber) return ERROR_INVALID_STATE; file = ArrayList_GetItem(delegate->clipboard->localFiles, request->listIndex); if (!file) return ERROR_INDEX_ABSENT; offset = (((UINT64) request->nPositionHigh) << 32) | ((UINT64) request->nPositionLow); error = posix_file_get_range(file, offset, request->cbRequested, &data, &size); if (error) error = delegate->ClipboardFileRangeFailure(delegate, request, error); else error = delegate->ClipboardFileRangeSuccess(delegate, request, data, size); if (error) WLog_WARN(TAG, "failed to report file range result: 0x%08X", error); free(data); return NO_ERROR; } static UINT dummy_file_size_success(wClipboardDelegate* delegate, const wClipboardFileSizeRequest* request, UINT64 fileSize) { return ERROR_NOT_SUPPORTED; } static UINT dummy_file_size_failure(wClipboardDelegate* delegate, const wClipboardFileSizeRequest* request, UINT errorCode) { return ERROR_NOT_SUPPORTED; } static UINT dummy_file_range_success(wClipboardDelegate* delegate, const wClipboardFileRangeRequest* request, const BYTE* data, UINT32 size) { return ERROR_NOT_SUPPORTED; } static UINT dummy_file_range_failure(wClipboardDelegate* delegate, const wClipboardFileRangeRequest* request, UINT errorCode) { return ERROR_NOT_SUPPORTED; } static void setup_delegate(wClipboardDelegate* delegate) { delegate->ClientRequestFileSize = posix_file_request_size; delegate->ClipboardFileSizeSuccess = dummy_file_size_success; delegate->ClipboardFileSizeFailure = dummy_file_size_failure; delegate->ClientRequestFileRange = posix_file_request_range; delegate->ClipboardFileRangeSuccess = dummy_file_range_success; delegate->ClipboardFileRangeFailure = dummy_file_range_failure; } BOOL ClipboardInitPosixFileSubsystem(wClipboard* clipboard) { if (!clipboard) return FALSE; if (!register_file_formats_and_synthesizers(clipboard)) return FALSE; setup_delegate(&clipboard->delegate); return TRUE; }