/* smbget: a wget-like utility with support for recursive downloading of smb:// urls Copyright (C) 2003-2004 Jelmer Vernooij This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "includes.h" #include "system/filesys.h" #include "lib/cmdline/cmdline.h" #include "lib/param/param.h" #include "libsmbclient.h" #include "cmdline_contexts.h" #include "auth/credentials/credentials.h" #include "auth/gensec/gensec.h" static int columns = 0; static time_t total_start_time = 0; static off_t total_bytes = 0; #define SMB_MAXPATHLEN MAXPATHLEN /* * Number of bytes to read when checking whether local and remote file * are really the same file */ #define RESUME_CHECK_SIZE 512 #define RESUME_DOWNLOAD_OFFSET 1024 #define RESUME_CHECK_OFFSET (RESUME_DOWNLOAD_OFFSET+RESUME_CHECK_SIZE) /* Number of bytes to read at once */ #define SMB_DEFAULT_BLOCKSIZE 64000 struct opt { char *outputfile; size_t blocksize; int quiet; int dots; int verbose; int send_stdout; int update; unsigned limit_rate; }; static struct opt opt = { .blocksize = SMB_DEFAULT_BLOCKSIZE }; static bool smb_download_file(const char *base, const char *name, bool recursive, bool resume, bool toplevel, char *outfile); static int get_num_cols(void) { #ifdef TIOCGWINSZ struct winsize ws; if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &ws) < 0) { return 0; } return ws.ws_col; #else #warning No support for TIOCGWINSZ char *cols = getenv("COLUMNS"); if (!cols) { return 0; } return atoi(cols); #endif } static void change_columns(int sig) { columns = get_num_cols(); } static void human_readable(off_t s, char *buffer, int l) { if (s > 1024 * 1024 * 1024) { snprintf(buffer, l, "%.2fGB", 1.0 * s / (1024 * 1024 * 1024)); } else if (s > 1024 * 1024) { snprintf(buffer, l, "%.2fMB", 1.0 * s / (1024 * 1024)); } else if (s > 1024) { snprintf(buffer, l, "%.2fkB", 1.0 * s / 1024); } else { snprintf(buffer, l, "%jdb", (intmax_t)s); } } /* * Authentication callback for libsmbclient. * * The command line parser will take care asking for a password interactively! */ static void get_auth_data_with_context_fn(SMBCCTX *ctx, const char *srv, const char *shr, char *dom, int dom_len, char *usr, int usr_len, char *pwd, int pwd_len) { struct cli_credentials *creds = samba_cmdline_get_creds(); const char *username = NULL; const char *password = NULL; const char *domain = NULL; enum credentials_obtained obtained = CRED_UNINITIALISED; domain = cli_credentials_get_domain_and_obtained(creds, &obtained); if (domain != NULL) { bool overwrite = false; if (dom[0] == '\0') { overwrite = true; } if (obtained >= CRED_CALLBACK_RESULT) { overwrite = true; } if (overwrite) { strncpy(dom, domain, dom_len - 1); } } cli_credentials_set_domain(creds, dom, obtained); username = cli_credentials_get_username_and_obtained(creds, &obtained); if (username != NULL) { bool overwrite = false; if (usr[0] == '\0') { overwrite = true; } if (obtained >= CRED_CALLBACK_RESULT) { overwrite = true; } if (overwrite) { strncpy(usr, username, usr_len - 1); } } cli_credentials_set_username(creds, usr, obtained); password = cli_credentials_get_password_and_obtained(creds, &obtained); if (password != NULL) { bool overwrite = false; if (pwd[0] == '\0') { overwrite = true; } if (obtained >= CRED_CALLBACK_RESULT) { overwrite = true; } if (overwrite) { strncpy(pwd, password, pwd_len - 1); } } cli_credentials_set_password(creds, pwd, obtained); smbc_set_credentials_with_fallback(ctx, dom, usr, pwd); if (!opt.quiet) { if (usr[0] == '\0') { printf("Using guest user\n"); } else if (dom[0] == '\0') { printf("Using user: %s\n", usr); } else { printf("Using domain: %s, user: %s\n", dom, usr); } } } static bool smb_download_dir(const char *base, const char *name, int resume) { char path[SMB_MAXPATHLEN]; int dirhandle; struct smbc_dirent *dirent; const char *relname = name; char *tmpname; bool ok = false; snprintf(path, SMB_MAXPATHLEN-1, "%s%s%s", base, (base[0] && name[0] && name[0] != '/' && base[strlen(base)-1] != '/') ? "/" : "", name); /* List files in directory and call smb_download_file on them */ dirhandle = smbc_opendir(path); if (dirhandle < 1) { if (errno == ENOTDIR) { return smb_download_file(base, name, true, resume, false, NULL); } fprintf(stderr, "Can't open directory %s: %s\n", path, strerror(errno)); return false; } while (*relname == '/') { relname++; } if (strlen(relname) > 0) { int rc = mkdir(relname, 0755); if (rc == -1 && errno != EEXIST) { fprintf(stderr, "Can't create directory %s: %s\n", relname, strerror(errno)); return false; } } tmpname = SMB_STRDUP(name); while ((dirent = smbc_readdir(dirhandle))) { char *newname; if (!strcmp(dirent->name, ".") || !strcmp(dirent->name, "..")) { ok = true; continue; } if (asprintf(&newname, "%s/%s", tmpname, dirent->name) == -1) { free(tmpname); return false; } switch (dirent->smbc_type) { case SMBC_DIR: ok = smb_download_dir(base, newname, resume); break; case SMBC_WORKGROUP: ok = smb_download_dir("smb://", dirent->name, resume); break; case SMBC_SERVER: ok = smb_download_dir("smb://", dirent->name, resume); break; case SMBC_FILE: ok = smb_download_file(base, newname, true, resume, false, NULL); break; case SMBC_FILE_SHARE: ok = smb_download_dir(base, newname, resume); break; case SMBC_PRINTER_SHARE: if (!opt.quiet) { printf("Ignoring printer share %s\n", dirent->name); } break; case SMBC_COMMS_SHARE: if (!opt.quiet) { printf("Ignoring comms share %s\n", dirent->name); } break; case SMBC_IPC_SHARE: if (!opt.quiet) { printf("Ignoring ipc$ share %s\n", dirent->name); } break; default: fprintf(stderr, "Ignoring file '%s' of type '%d'\n", newname, dirent->smbc_type); break; } if (!ok) { fprintf(stderr, "Failed to download %s: %s\n", newname, strerror(errno)); free(newname); free(tmpname); return false; } free(newname); } free(tmpname); smbc_closedir(dirhandle); return ok; } static char *print_time(long t) { static char buffer[100]; int secs, mins, hours; if (t < -1) { strncpy(buffer, "Unknown", sizeof(buffer)); return buffer; } secs = (int)t % 60; mins = (int)t / 60 % 60; hours = (int)t / (60 * 60); snprintf(buffer, sizeof(buffer) - 1, "%02d:%02d:%02d", hours, mins, secs); return buffer; } static void print_progress(const char *name, time_t start, time_t now, off_t start_pos, off_t pos, off_t total) { double avg = 0.0; long eta = -1; double prcnt = 0.0; char hpos[22], htotal[22], havg[22]; char *status, *filename; int len; if (now - start) { avg = 1.0 * (pos - start_pos) / (now - start); } eta = (total - pos) / avg; if (total) { prcnt = 100.0 * pos / total; } human_readable(pos, hpos, sizeof(hpos)); human_readable(total, htotal, sizeof(htotal)); human_readable(avg, havg, sizeof(havg)); len = asprintf(&status, "%s of %s (%.2f%%) at %s/s ETA: %s", hpos, htotal, prcnt, havg, print_time(eta)); if (len == -1) { return; } if (columns) { int required = strlen(name), available = columns - len - strlen("[] "); if (required > available) { if (asprintf(&filename, "...%s", name + required - available + 3) == -1) { return; } } else { filename = SMB_STRNDUP(name, available); } } else { filename = SMB_STRDUP(name); } fprintf(stderr, "\r[%s] %s", filename, status); free(filename); free(status); } /* Return false on error, true on success. */ static bool smb_download_file(const char *base, const char *name, bool recursive, bool resume, bool toplevel, char *outfile) { int remotehandle, localhandle; time_t start_time = time_mono(NULL); const char *newpath; char path[SMB_MAXPATHLEN]; char checkbuf[2][RESUME_CHECK_SIZE]; char *readbuf = NULL; off_t offset_download = 0, offset_check = 0, curpos = 0, start_offset = 0; struct stat localstat, remotestat; clock_t start_of_bucket_ticks = 0; size_t bytes_in_bucket = 0; size_t bucket_size = 0; clock_t ticks_to_fill_bucket = 0; snprintf(path, SMB_MAXPATHLEN-1, "%s%s%s", base, (*base && *name && name[0] != '/' && base[strlen(base)-1] != '/') ? "/" : "", name); remotehandle = smbc_open(path, O_RDONLY, 0755); if (remotehandle < 0) { switch (errno) { case EISDIR: if (!recursive) { fprintf(stderr, "%s is a directory. Specify -R " "to download recursively\n", path); return false; } return smb_download_dir(base, name, resume); case ENOENT: fprintf(stderr, "%s can't be found on the remote server\n", path); return false; case ENOMEM: fprintf(stderr, "Not enough memory\n"); return false; case ENODEV: fprintf(stderr, "The share name used in %s does not exist\n", path); return false; case EACCES: fprintf(stderr, "You don't have enough permissions " "to access %s\n", path); return false; default: perror("smbc_open"); return false; } } if (smbc_fstat(remotehandle, &remotestat) < 0) { fprintf(stderr, "Can't stat %s: %s\n", path, strerror(errno)); return false; } if (outfile) { newpath = outfile; } else if (!name[0]) { newpath = strrchr(base, '/'); if (newpath) { newpath++; } else { newpath = base; } } else { newpath = name; } if (!toplevel && (newpath[0] == '/')) { newpath++; } /* Open local file according to the mode */ if (opt.update) { /* if it is up-to-date, skip */ if (stat(newpath, &localstat) == 0 && localstat.st_mtime >= remotestat.st_mtime) { if (opt.verbose) { printf("%s is up-to-date, skipping\n", newpath); } smbc_close(remotehandle); return true; } /* else open it for writing and truncate if it exists */ localhandle = open( newpath, O_CREAT | O_NONBLOCK | O_RDWR | O_TRUNC, 0775); if (localhandle < 0) { fprintf(stderr, "Can't open %s : %s\n", newpath, strerror(errno)); smbc_close(remotehandle); return false; } /* no offset */ } else if (!opt.send_stdout) { localhandle = open(newpath, O_CREAT | O_NONBLOCK | O_RDWR | (!resume ? O_EXCL : 0), 0755); if (localhandle < 0) { fprintf(stderr, "Can't open %s: %s\n", newpath, strerror(errno)); smbc_close(remotehandle); return false; } if (fstat(localhandle, &localstat) != 0) { fprintf(stderr, "Can't fstat %s: %s\n", newpath, strerror(errno)); smbc_close(remotehandle); close(localhandle); return false; } start_offset = localstat.st_size; if (localstat.st_size && localstat.st_size == remotestat.st_size) { if (opt.verbose) { fprintf(stderr, "%s is already downloaded " "completely.\n", path); } else if (!opt.quiet) { fprintf(stderr, "%s\n", path); } smbc_close(remotehandle); close(localhandle); return true; } if (localstat.st_size > RESUME_CHECK_OFFSET && remotestat.st_size > RESUME_CHECK_OFFSET) { offset_download = localstat.st_size - RESUME_DOWNLOAD_OFFSET; offset_check = localstat.st_size - RESUME_CHECK_OFFSET; if (opt.verbose) { printf("Trying to start resume of %s at %jd\n" "At the moment %jd of %jd bytes have " "been retrieved\n", newpath, (intmax_t)offset_check, (intmax_t)localstat.st_size, (intmax_t)remotestat.st_size); } } if (offset_check) { off_t off1, off2; /* First, check all bytes from offset_check to * offset_download */ off1 = lseek(localhandle, offset_check, SEEK_SET); if (off1 < 0) { fprintf(stderr, "Can't seek to %jd in local file %s\n", (intmax_t)offset_check, newpath); smbc_close(remotehandle); close(localhandle); return false; } off2 = smbc_lseek(remotehandle, offset_check, SEEK_SET); if (off2 < 0) { fprintf(stderr, "Can't seek to %jd in remote file %s\n", (intmax_t)offset_check, newpath); smbc_close(remotehandle); close(localhandle); return false; } if (off1 != off2) { fprintf(stderr, "Offset in local and remote " "files are different " "(local: %jd, remote: %jd)\n", (intmax_t)off1, (intmax_t)off2); smbc_close(remotehandle); close(localhandle); return false; } if (smbc_read(remotehandle, checkbuf[0], RESUME_CHECK_SIZE) != RESUME_CHECK_SIZE) { fprintf(stderr, "Can't read %d bytes from " "remote file %s\n", RESUME_CHECK_SIZE, path); smbc_close(remotehandle); close(localhandle); return false; } if (read(localhandle, checkbuf[1], RESUME_CHECK_SIZE) != RESUME_CHECK_SIZE) { fprintf(stderr, "Can't read %d bytes from " "local file %s\n", RESUME_CHECK_SIZE, name); smbc_close(remotehandle); close(localhandle); return false; } if (memcmp(checkbuf[0], checkbuf[1], RESUME_CHECK_SIZE) == 0) { if (opt.verbose) { printf("Current local and remote file " "appear to be the same. " "Starting download from " "offset %jd\n", (intmax_t)offset_download); } } else { fprintf(stderr, "Local and remote file appear " "to be different, not " "doing resume for %s\n", path); smbc_close(remotehandle); close(localhandle); return false; } } } else { localhandle = STDOUT_FILENO; start_offset = 0; offset_download = 0; offset_check = 0; } /* We implement rate limiting by filling up a bucket with bytes and * checking, once the bucket is filled, if it was filled too fast. * If so, we sleep for some time to get an average transfer rate that * equals to the one set by the user. * * The bucket size directly affects the traffic characteristics. * The smaller the bucket the more frequent the pause/resume cycle. * A large bucket can result in burst of high speed traffic and large * pauses. A cycle of 100ms looks like a good value. This value (in * ticks) is held in `ticks_to_fill_bucket`. The `bucket_size` is * calculated as: * `limit_rate * 1024 * / (CLOCKS_PER_SEC / ticks_to_fill_bucket)` * * After selecting the bucket size we also need to check the blocksize * of the transfer, since this is the minimum unit of traffic that we * can observe. Achieving a ~10% precision requires a blocksize with a * maximum size of `bucket_size / 10`. */ if (opt.limit_rate > 0) { unsigned max_block_size; /* This is the time that the bucket should take to fill. */ ticks_to_fill_bucket = 100 /*ms*/ * CLOCKS_PER_SEC / 1000; /* This is the size of the bucket in bytes. * If we fill the bucket too quickly we should pause */ bucket_size = opt.limit_rate * 1024 / (CLOCKS_PER_SEC / ticks_to_fill_bucket); max_block_size = bucket_size / 10; max_block_size = max_block_size > 0 ? max_block_size : 1; if (opt.blocksize > max_block_size) { if (opt.blocksize != SMB_DEFAULT_BLOCKSIZE) { fprintf(stderr, "Warning: Overriding block size to %d " "due to limit-rate", max_block_size); } opt.blocksize = max_block_size; } start_of_bucket_ticks = clock(); } readbuf = (char *)SMB_MALLOC(opt.blocksize); if (!readbuf) { fprintf(stderr, "Failed to allocate %zu bytes for read " "buffer (%s)", opt.blocksize, strerror(errno)); if (localhandle != STDOUT_FILENO) { close(localhandle); } return false; } /* Now, download all bytes from offset_download to the end */ for (curpos = offset_download; curpos < remotestat.st_size; curpos += opt.blocksize) { ssize_t bytesread; ssize_t byteswritten; /* Rate limiting. This pauses the transfer to limit traffic. */ if (opt.limit_rate > 0) { if (bytes_in_bucket > bucket_size) { clock_t now_ticks = clock(); clock_t diff_ticks = now_ticks - start_of_bucket_ticks; /* Check if the bucket filled up too fast. */ if (diff_ticks < ticks_to_fill_bucket) { /* Pause until `ticks_to_fill_bucket` */ double sleep_us = (ticks_to_fill_bucket - diff_ticks) * 1000000.0 / CLOCKS_PER_SEC; usleep(sleep_us); } /* Reset the byte counter and the ticks. */ bytes_in_bucket = 0; start_of_bucket_ticks = clock(); } } bytesread = smbc_read(remotehandle, readbuf, opt.blocksize); if (opt.limit_rate > 0) { bytes_in_bucket += bytesread; } if(bytesread < 0) { fprintf(stderr, "Can't read %zu bytes at offset %jd, file %s\n", opt.blocksize, (intmax_t)curpos, path); smbc_close(remotehandle); if (localhandle != STDOUT_FILENO) { close(localhandle); } free(readbuf); return false; } total_bytes += bytesread; byteswritten = write(localhandle, readbuf, bytesread); if (byteswritten != bytesread) { fprintf(stderr, "Can't write %zd bytes to local file %s at " "offset %jd\n", bytesread, path, (intmax_t)curpos); free(readbuf); smbc_close(remotehandle); if (localhandle != STDOUT_FILENO) { close(localhandle); } return false; } if (opt.dots) { fputc('.', stderr); } else if (!opt.quiet) { print_progress(newpath, start_time, time_mono(NULL), start_offset, curpos, remotestat.st_size); } } free(readbuf); if (opt.dots) { fputc('\n', stderr); printf("%s downloaded\n", path); } else if (!opt.quiet) { int i; fprintf(stderr, "\r%s", path); if (columns) { for (i = strlen(path); i < columns; i++) { fputc(' ', stderr); } } fputc('\n', stderr); } smbc_close(remotehandle); if (localhandle != STDOUT_FILENO) { close(localhandle); } return true; } static void clean_exit(void) { char bs[100]; human_readable(total_bytes, bs, sizeof(bs)); if (!opt.quiet) { fprintf(stderr, "Downloaded %s in %lu seconds\n", bs, (unsigned long)(time_mono(NULL) - total_start_time)); } exit(0); } static void signal_quit(int v) { clean_exit(); } int main(int argc, char **argv) { int c = 0; const char *file = NULL; int smb_encrypt = false; int resume = 0, recursive = 0; TALLOC_CTX *frame = talloc_stackframe(); bool ok = false; const char **argv_const = discard_const_p(const char *, argv); struct poptOption long_options[] = { POPT_AUTOHELP { .longName = "guest", .shortName = 'a', .argInfo = POPT_ARG_NONE, .arg = NULL, .val = 'a', .descrip = "Work as user guest" }, { .longName = "encrypt", .shortName = 'e', .argInfo = POPT_ARG_NONE, .arg = &smb_encrypt, .val = 1, .descrip = "Encrypt SMB transport" }, { .longName = "resume", .shortName = 'r', .argInfo = POPT_ARG_NONE, .arg = &resume, .val = 1, .descrip = "Automatically resume aborted files" }, { .longName = "update", .shortName = 'u', .argInfo = POPT_ARG_NONE, .arg = &opt.update, .val = 1, .descrip = "Download only when remote file is " "newer than local file or local file " "is missing" }, { .longName = "recursive", .shortName = 0, .argInfo = POPT_ARG_NONE, .arg = &recursive, .val = true, .descrip = "Recursively download files" }, { .longName = "blocksize", .shortName = 'b', .argInfo = POPT_ARG_INT, .arg = &opt.blocksize, .val = 'b', .descrip = "Change number of bytes in a block" }, { .longName = "outputfile", .shortName = 'o', .argInfo = POPT_ARG_STRING, .arg = &opt.outputfile, .val = 'o', .descrip = "Write downloaded data to specified file" }, { .longName = "stdout", .shortName = 0, .argInfo = POPT_ARG_NONE, .arg = &opt.send_stdout, .val = true, .descrip = "Write data to stdout" }, { .longName = "dots", .shortName = 'D', .argInfo = POPT_ARG_NONE, .arg = &opt.dots, .val = 1, .descrip = "Show dots as progress indication" }, { .longName = "quiet", .shortName = 'q', .argInfo = POPT_ARG_NONE, .arg = &opt.quiet, .val = 1, .descrip = "Be quiet" }, { .longName = "verbose", .shortName = 'v', .argInfo = POPT_ARG_NONE, .arg = &opt.verbose, .val = 1, .descrip = "Be verbose" }, { .longName = "limit-rate", .shortName = 0, .argInfo = POPT_ARG_INT, .arg = &opt.limit_rate, .val = 'l', .descrip = "Limit download speed to this many KB/s" }, POPT_COMMON_SAMBA POPT_COMMON_CONNECTION POPT_COMMON_CREDENTIALS POPT_LEGACY_S3 POPT_COMMON_VERSION POPT_TABLEEND }; poptContext pc = NULL; struct cli_credentials *creds = NULL; enum smb_encryption_setting encryption_state = SMB_ENCRYPTION_DEFAULT; enum credentials_use_kerberos use_kerberos = CRED_USE_KERBEROS_DESIRED; smbc_smb_encrypt_level encrypt_level = SMBC_ENCRYPTLEVEL_DEFAULT; #if 0 enum smb_signing_setting signing_state = SMB_SIGNING_DEFAULT; const char *use_signing = "auto"; #endif bool is_nt_hash = false; uint32_t gensec_features; bool use_wbccache = false; SMBCCTX *smb_ctx = NULL; int dbg_lvl = -1; int rc; smb_init_locale(); ok = samba_cmdline_init(frame, SAMBA_CMDLINE_CONFIG_CLIENT, false); if (!ok) { goto done; } #ifdef SIGWINCH signal(SIGWINCH, change_columns); #endif signal(SIGINT, signal_quit); signal(SIGTERM, signal_quit); pc = samba_popt_get_context(getprogname(), argc, argv_const, long_options, 0); if (pc == NULL) { ok = false; goto done; } creds = samba_cmdline_get_creds(); while ((c = poptGetNextOpt(pc)) != -1) { switch (c) { case 'a': cli_credentials_set_anonymous(creds); break; case POPT_ERROR_BADOPT: fprintf(stderr, "\nInvalid option %s: %s\n\n", poptBadOption(pc, 0), poptStrerror(c)); poptPrintUsage(pc, stderr, 0); ok = false; goto done; } if (c < -1) { fprintf(stderr, "%s: %s\n", poptBadOption(pc, POPT_BADOPTION_NOALIAS), poptStrerror(c)); ok = false; goto done; } } if ((opt.send_stdout || resume || opt.outputfile) && opt.update) { fprintf(stderr, "The -o, -R or -O and -U options can not be " "used together.\n"); ok = true; goto done; } if ((opt.send_stdout || opt.outputfile) && recursive) { fprintf(stderr, "The -o or -O and -R options can not be " "used together.\n"); ok = true; goto done; } if (opt.outputfile && opt.send_stdout) { fprintf(stderr, "The -o and -O options can not be " "used together.\n"); ok = true; goto done; } samba_cmdline_burn(argc, argv); /* smbc_new_context() will set the log level to 0 */ dbg_lvl = debuglevel_get(); smb_ctx = smbc_new_context(); if (smb_ctx == NULL) { fprintf(stderr, "Unable to initialize libsmbclient\n"); ok = false; goto done; } smbc_setDebug(smb_ctx, dbg_lvl); rc = smbc_setConfiguration(smb_ctx, lp_default_path()); if (rc < 0) { ok = false; goto done; } smbc_setFunctionAuthDataWithContext(smb_ctx, get_auth_data_with_context_fn); ok = smbc_init_context(smb_ctx); if (!ok) { goto done; } smbc_set_context(smb_ctx); encryption_state = cli_credentials_get_smb_encryption(creds); switch (encryption_state) { case SMB_ENCRYPTION_REQUIRED: encrypt_level = SMBC_ENCRYPTLEVEL_REQUIRE; break; case SMB_ENCRYPTION_DESIRED: case SMB_ENCRYPTION_IF_REQUIRED: encrypt_level = SMBC_ENCRYPTLEVEL_REQUEST; break; case SMB_ENCRYPTION_OFF: encrypt_level = SMBC_ENCRYPTLEVEL_NONE; break; case SMB_ENCRYPTION_DEFAULT: encrypt_level = SMBC_ENCRYPTLEVEL_DEFAULT; break; } if (smb_encrypt) { encrypt_level = SMBC_ENCRYPTLEVEL_REQUIRE; } smbc_setOptionSmbEncryptionLevel(smb_ctx, encrypt_level); #if 0 signing_state = cli_credentials_get_smb_signing(creds); if (encryption_state >= SMB_ENCRYPTION_DESIRED) { signing_state = SMB_SIGNING_REQUIRED; } switch (signing_state) { case SMB_SIGNING_REQUIRED: use_signing = "required"; break; case SMB_SIGNING_DEFAULT: case SMB_SIGNING_DESIRED: case SMB_SIGNING_IF_REQUIRED: use_signing = "yes"; break; case SMB_SIGNING_OFF: use_signing = "off"; break; default: use_signing = "auto"; break; } /* FIXME: There is no libsmbclient function to set signing state */ #endif use_kerberos = cli_credentials_get_kerberos_state(creds); switch (use_kerberos) { case CRED_USE_KERBEROS_REQUIRED: smbc_setOptionUseKerberos(smb_ctx, true); smbc_setOptionFallbackAfterKerberos(smb_ctx, false); break; case CRED_USE_KERBEROS_DESIRED: smbc_setOptionUseKerberos(smb_ctx, true); smbc_setOptionFallbackAfterKerberos(smb_ctx, true); break; case CRED_USE_KERBEROS_DISABLED: smbc_setOptionUseKerberos(smb_ctx, false); break; } /* Check if the password supplied is an NT hash */ is_nt_hash = cli_credentials_is_password_nt_hash(creds); smbc_setOptionUseNTHash(smb_ctx, is_nt_hash); /* Check if we should use the winbind ccache */ gensec_features = cli_credentials_get_gensec_features(creds); use_wbccache = (gensec_features & GENSEC_FEATURE_NTLM_CCACHE); smbc_setOptionUseCCache(smb_ctx, use_wbccache); columns = get_num_cols(); total_start_time = time_mono(NULL); while ((file = poptGetArg(pc))) { if (!recursive) { ok = smb_download_file(file, "", recursive, resume, true, opt.outputfile); } else { ok = smb_download_dir(file, "", resume); } } done: gfree_all(); poptFreeContext(pc); TALLOC_FREE(frame); if (ok) { clean_exit(); } return ok ? 0 : 1; }