/* * BSD 2-Clause License * * Copyright (c) 2014-2016, Lazaros Koromilas * Copyright (c) 2014-2016, Dimitris Papastamos * Copyright (c) 2016-2018, Arun Prakash Jana * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifdef __linux__ #if defined(__arm__) || defined(__i386__) #define _FILE_OFFSET_BITS 64 /* Support large files on 32-bit Linux */ #endif #include #define LINUX_INOTIFY #if !defined(__GLIBC__) #include #endif #endif #include #include #include #if defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__) || defined(__APPLE__) #include #include #include #define BSD_KQUEUE #else #include #endif #include #include #ifdef __linux__ /* Fix failure due to mvaddnwstr() */ #ifndef NCURSES_WIDECHAR #define NCURSES_WIDECHAR 1 #endif #elif defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__) || defined(__APPLE__) #ifndef _XOPEN_SOURCE_EXTENDED #define _XOPEN_SOURCE_EXTENDED #endif #endif #ifndef __USE_XOPEN /* Fix failure due to wcswidth(), ncursesw/curses.h includes whcar.h on Ubuntu 14.04 */ #define __USE_XOPEN #endif #include #include #include #include #include #include #ifdef __gnu_hurd__ #define PATH_MAX 4096 #endif #include #include #include #include #include #include #include #include #include #include #include #ifndef __USE_XOPEN_EXTENDED #define __USE_XOPEN_EXTENDED 1 #endif #include #include #ifndef S_BLKSIZE #define S_BLKSIZE 512 /* S_BLKSIZE is missing on Android NDK (Termux) */ #endif #include "nnn.h" #ifdef DEBUGMODE static int DEBUG_FD; static int xprintf(int fd, const char *fmt, ...) { char buf[BUFSIZ]; int r; va_list ap; va_start(ap, fmt); r = vsnprintf(buf, sizeof(buf), fmt, ap); if (r > 0) r = write(fd, buf, r); va_end(ap); return r; } static int enabledbg() { FILE *fp = fopen("/tmp/nnn_debug", "w"); if (!fp) { fprintf(stderr, "debug: open failed! (1)\n"); fp = fopen("./nnn_debug", "w"); if (!fp) { fprintf(stderr, "debug: open failed! (2)\n"); return -1; } } DEBUG_FD = fileno(fp); if (DEBUG_FD == -1) { fprintf(stderr, "debug: open fd failed!\n"); return -1; } return 0; } static void disabledbg() { close(DEBUG_FD); } #define DPRINTF_D(x) xprintf(DEBUG_FD, #x "=%d\n", x) #define DPRINTF_U(x) xprintf(DEBUG_FD, #x "=%u\n", x) #define DPRINTF_S(x) xprintf(DEBUG_FD, #x "=%s\n", x) #define DPRINTF_P(x) xprintf(DEBUG_FD, #x "=%p\n", x) #else #define DPRINTF_D(x) #define DPRINTF_U(x) #define DPRINTF_S(x) #define DPRINTF_P(x) #endif /* DEBUGMODE */ /* Macro definitions */ #define VERSION "2.1" #define GENERAL_INFO "License: BSD 2-Clause\nWebpage: https://github.com/jarun/nnn" #define LEN(x) (sizeof(x) / sizeof(*(x))) #undef MIN #define MIN(x, y) ((x) < (y) ? (x) : (y)) #define ISODD(x) ((x) & 1) #define TOUPPER(ch) \ (((ch) >= 'a' && (ch) <= 'z') ? ((ch) - 'a' + 'A') : (ch)) #define MAX_CMD_LEN 5120 #define CURSR " > " #define EMPTY " " #define CURSYM(flag) ((flag) ? CURSR : EMPTY) #define FILTER '/' #define REGEX_MAX 128 #define BM_MAX 10 #define ENTRY_INCR 64 /* Number of dir 'entry' structures to allocate per shot */ #define NAMEBUF_INCR 0x1000 /* 64 dir entries at a time, avg. 64 chars per filename = 64*64B = 4KB */ #define DESCRIPTOR_LEN 32 #define _ALIGNMENT 0x10 /* 16-byte alignment */ #define _ALIGNMENT_MASK 0xF #define SYMLINK_TO_DIR 0x1 #define MAX_HOME_LEN 64 #define MAX_CTX 4 #define DOT_FILTER_LEN 8 /* Macros to define process spawn behaviour as flags */ #define F_NONE 0x00 /* no flag set */ #define F_MARKER 0x01 /* draw marker to indicate nnn spawned (e.g. shell) */ #define F_NOWAIT 0x02 /* don't wait for child process (e.g. file manager) */ #define F_NOTRACE 0x04 /* suppress stdout and strerr (no traces) */ #define F_SIGINT 0x08 /* restore default SIGINT handler */ #define F_NORMAL 0x80 /* spawn child process in non-curses regular CLI mode */ /* CRC8 macros */ #define WIDTH (sizeof(unsigned char) << 3) #define TOPBIT (1 << (WIDTH - 1)) #define POLYNOMIAL 0xD8 /* 11011 followed by 0's */ #define CRC8_TABLE_LEN 256 /* Volume info */ #define FREE 0 #define CAPACITY 1 /* Function macros */ #define exitcurses() endwin() #define clearprompt() printmsg("") #define printwarn() printmsg(strerror(errno)) #define istopdir(path) ((path)[1] == '\0' && (path)[0] == '/') #define copycurname() xstrlcpy(lastname, dents[cur].name, NAME_MAX + 1) #define settimeout() timeout(1000) #define cleartimeout() timeout(-1) #define errexit() printerr(__LINE__) #define setdirwatch() (cfg.filtermode ? (presel = FILTER) : (dir_changed = TRUE)) #ifdef LINUX_INOTIFY #define EVENT_SIZE (sizeof(struct inotify_event)) #define EVENT_BUF_LEN (1024 * (EVENT_SIZE + 16)) #elif defined(BSD_KQUEUE) #define NUM_EVENT_SLOTS 1 #define NUM_EVENT_FDS 1 #endif /* TYPE DEFINITIONS */ typedef unsigned long ulong; typedef unsigned int uint; typedef unsigned char uchar; typedef unsigned short ushort; /* STRUCTURES */ /* Directory entry */ typedef struct entry { char *name; time_t t; off_t size; blkcnt_t blocks; /* number of 512B blocks allocated */ mode_t mode; ushort nlen; /* Length of file name; can be uchar (< NAME_MAX + 1) */ uchar flags; /* Flags specific to the file */ } __attribute__ ((packed, aligned(_ALIGNMENT))) *pEntry; /* Bookmark */ typedef struct { int key; char *loc; } bm; /* Settings */ typedef struct { uint filtermode : 1; /* Set to enter filter mode */ uint mtimeorder : 1; /* Set to sort by time modified */ uint sizeorder : 1; /* Set to sort by file size */ uint apparentsz : 1; /* Set to sort by apparent size (disk usage) */ uint blkorder : 1; /* Set to sort by blocks used (disk usage) */ uint showhidden : 1; /* Set to show hidden files */ uint copymode : 1; /* Set when copying files */ uint autoselect : 1; /* Auto-select dir in nav-as-you-type mode */ uint showdetail : 1; /* Clear to show fewer file info */ uint showcolor : 1; /* Set to show dirs in blue */ uint dircolor : 1; /* Current status of dir color */ uint metaviewer : 1; /* Index of metadata viewer in utils[] */ uint color : 3; /* Color code for directories */ uint ctxactive : 1; /* Context active or not */ uint reserved : 10; /* The following settings are global */ uint curctx : 2; /* Current context number */ uint picker : 1; /* Write selection to user-specified file */ uint pickraw : 1; /* Write selection to sdtout before exit */ uint nonavopen : 1; /* Open file on right arrow or `l` */ uint useeditor : 1; /* Use VISUAL to open text files */ } settings; /* Contexts or workspaces */ typedef struct { char c_path[PATH_MAX]; /* Current dir */ char c_init[PATH_MAX]; /* Initial dir */ char c_last[PATH_MAX]; /* Last visited dir */ char c_name[NAME_MAX + 1]; /* Current file name */ settings c_cfg; /* Current configuration */ char c_fltr[DOT_FILTER_LEN]; /* Hidden filter */ } context; /* GLOBALS */ /* Configuration, contexts */ static settings cfg = {0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 0, 0, 4, 1, 0, 0, 0, 0, 0, 0}; static context g_ctx[MAX_CTX] __attribute__ ((aligned)); static struct entry *dents; static char *pnamebuf, *pcopybuf; static int ndents, cur, total_dents = ENTRY_INCR; static uint idle; static uint idletimeout, copybufpos, copybuflen; static char *copier; static char *editor, *editor_arg; static char *pager, *pager_arg; static blkcnt_t ent_blocks; static blkcnt_t dir_blocks; static ulong num_files; static uint open_max; static bm bookmark[BM_MAX]; static size_t g_tmpfplen; /* path to tmp files for copy without X, keybind help and file stats */ static uchar g_crc; static uchar BLK_SHIFT = 9; /* CRC data */ static uchar crc8table[CRC8_TABLE_LEN] __attribute__ ((aligned)); /* For use in functions which are isolated and don't return the buffer */ static char g_buf[MAX_CMD_LEN] __attribute__ ((aligned)); /* Buffer for file path copy file */ static char g_cppath[PATH_MAX] __attribute__ ((aligned)); /* Buffer to store tmp file path */ static char g_tmpfpath[MAX_HOME_LEN] __attribute__ ((aligned)); #ifdef LINUX_INOTIFY static int inotify_fd, inotify_wd = -1; static uint INOTIFY_MASK = IN_ATTRIB | IN_CREATE | IN_DELETE | IN_DELETE_SELF | IN_MODIFY | IN_MOVE_SELF | IN_MOVED_FROM | IN_MOVED_TO; #elif defined(BSD_KQUEUE) static int kq, event_fd = -1; static struct kevent events_to_monitor[NUM_EVENT_FDS]; static uint KQUEUE_FFLAGS = NOTE_DELETE | NOTE_EXTEND | NOTE_LINK | NOTE_RENAME | NOTE_REVOKE | NOTE_WRITE; static struct timespec gtimeout; #endif /* Replace-str for xargs on different platforms */ #if defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__) || defined(__APPLE__) #define REPLACE_STR 'J' #elif defined(__linux__) || defined(__CYGWIN__) #define REPLACE_STR 'I' #else #define REPLACE_STR 'I' #endif /* Options to identify file mime */ #ifdef __APPLE__ #define FILE_OPTS "-bI" #else #define FILE_OPTS "-bi" #endif /* Macros for utilities */ #define MEDIAINFO 0 #define EXIFTOOL 1 #define OPENER 2 #define ATOOL 3 #define APACK 4 #define VIDIR 5 #define LOCKER 6 #define UNKNOWN 7 /* Utilities to open files, run actions */ static char * const utils[] = { "mediainfo", "exiftool", #ifdef __APPLE__ "/usr/bin/open", #elif defined __CYGWIN__ "cygstart", #else "xdg-open", #endif "atool", "apack", "vidir", #ifdef __APPLE__ "bashlock", #elif defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__) "lock", #else "vlock", #endif "UNKNOWN" }; /* Common strings */ #define STR_NFTWFAIL_ID 0 #define STR_NOHOME_ID 1 #define STR_INPUT_ID 2 #define STR_INVBM_KEY 3 #define STR_COPY_ID 4 #define STR_DATE_ID 5 static const char messages[][16] = { "nftw failed", "HOME not set", "no traversal", "invalid key", "copy not set", "%F %T %z", }; /* Forward declarations */ static void redraw(char *path); static char *get_output(char *buf, size_t bytes, char *file, char *arg1, char *arg2, int pager); int (*nftw_fn) (const char *fpath, const struct stat *sb, int typeflag, struct FTW *ftwbuf); /* Functions */ /* * CRC8 source: * https://barrgroup.com/Embedded-Systems/How-To/CRC-Calculation-C-Code */ static void crc8init() { uchar remainder, bit; uint dividend; /* Compute the remainder of each possible dividend */ for (dividend = 0; dividend < CRC8_TABLE_LEN; ++dividend) { /* Start with the dividend followed by zeros */ remainder = dividend << (WIDTH - 8); /* Perform modulo-2 division, a bit at a time */ for (bit = 8; bit > 0; --bit) { /* Try to divide the current data bit */ if (remainder & TOPBIT) remainder = (remainder << 1) ^ POLYNOMIAL; else remainder = (remainder << 1); } /* Store the result into the table */ crc8table[dividend] = remainder; } } static uchar crc8fast(uchar const message[], size_t n) { static uchar data, remainder; static size_t byte; /* Divide the message by the polynomial, a byte at a time */ for (remainder = byte = 0; byte < n; ++byte) { data = message[byte] ^ (remainder >> (WIDTH - 8)); remainder = crc8table[data] ^ (remainder << 8); } /* The final remainder is the CRC */ return remainder; } /* Messages show up at the bottom */ static void printmsg(const char *msg) { mvprintw(LINES - 1, 0, "%s\n", msg); } /* Kill curses and display error before exiting */ static void printerr(int linenum) { exitcurses(); fprintf(stderr, "line %d: (%d) %s\n", linenum, errno, strerror(errno)); if (!cfg.picker && g_cppath[0]) unlink(g_cppath); free(pcopybuf); exit(1); } /* Print prompt on the last line */ static void printprompt(const char *str) { clearprompt(); printw(str); } static int get_input(const char *prompt) { if (prompt) printprompt(prompt); cleartimeout(); int r = getch(); settimeout(); return r; } /* Increase the limit on open file descriptors, if possible */ static rlim_t max_openfds() { struct rlimit rl; rlim_t limit = getrlimit(RLIMIT_NOFILE, &rl); if (limit != 0) return 32; limit = rl.rlim_cur; rl.rlim_cur = rl.rlim_max; /* Return ~75% of max possible */ if (setrlimit(RLIMIT_NOFILE, &rl) == 0) { limit = rl.rlim_max - (rl.rlim_max >> 2); /* * 20K is arbitrary. If the limit is set to max possible * value, the memory usage increases to more than double. */ return limit > 20480 ? 20480 : limit; } return limit; } /* * Wrapper to realloc() * Frees current memory if realloc() fails and returns NULL. * * As per the docs, the *alloc() family is supposed to be memory aligned: * Ubuntu: http://manpages.ubuntu.com/manpages/xenial/man3/malloc.3.html * OS X: https://developer.apple.com/legacy/library/documentation/Darwin/Reference/ManPages/man3/malloc.3.html */ static void *xrealloc(void *pcur, size_t len) { static void *pmem; pmem = realloc(pcur, len); if (!pmem) free(pcur); return pmem; } /* * Just a safe strncpy(3) * Always null ('\0') terminates if both src and dest are valid pointers. * Returns the number of bytes copied including terminating null byte. */ static size_t xstrlcpy(char *dest, const char *src, size_t n) { static ulong *s, *d; static size_t len, blocks; static const uint lsize = sizeof(ulong); static const uint _WSHIFT = (sizeof(ulong) == 8) ? 3 : 2; if (!src || !dest || !n) return 0; len = strlen(src) + 1; if (n > len) n = len; else if (len > n) /* Save total number of bytes to copy in len */ len = n; /* * To enable -O3 ensure src and dest are 16-byte aligned * More info: http://www.felixcloutier.com/x86/MOVDQA.html */ if ((n >= lsize) && (((ulong)src & _ALIGNMENT_MASK) == 0 && ((ulong)dest & _ALIGNMENT_MASK) == 0)) { s = (ulong *)src; d = (ulong *)dest; blocks = n >> _WSHIFT; n &= lsize - 1; while (blocks) { *d = *s; ++d, ++s; --blocks; } if (!n) { dest = (char *)d; *--dest = '\0'; return len; } src = (char *)s; dest = (char *)d; } while (--n && (*dest = *src)) ++dest, ++src; if (!n) *dest = '\0'; return len; } /* * The poor man's implementation of memrchr(3). * We are only looking for '/' in this program. * And we are NOT expecting a '/' at the end. * Ideally 0 < n <= strlen(s). */ static void *xmemrchr(uchar *s, uchar ch, size_t n) { static uchar *ptr; if (!s || !n) return NULL; ptr = s + n; do { --ptr; if (*ptr == ch) return ptr; } while (s != ptr); return NULL; } /* * The following dirname(3) implementation does not * modify the input. We use a copy of the original. * * Modified from the glibc (GNU LGPL) version. */ static char *xdirname(const char *path) { static char * const buf = g_buf, *last_slash, *runp; xstrlcpy(buf, path, PATH_MAX); /* Find last '/'. */ last_slash = xmemrchr((uchar *)buf, '/', strlen(buf)); if (last_slash != NULL && last_slash != buf && last_slash[1] == '\0') { /* Determine whether all remaining characters are slashes. */ for (runp = last_slash; runp != buf; --runp) if (runp[-1] != '/') break; /* The '/' is the last character, we have to look further. */ if (runp != buf) last_slash = xmemrchr((uchar *)buf, '/', runp - buf); } if (last_slash != NULL) { /* Determine whether all remaining characters are slashes. */ for (runp = last_slash; runp != buf; --runp) if (runp[-1] != '/') break; /* Terminate the buffer. */ if (runp == buf) { /* The last slash is the first character in the string. * We have to return "/". As a special case we have to * return "//" if there are exactly two slashes at the * beginning of the string. See XBD 4.10 Path Name * Resolution for more information. */ if (last_slash == buf + 1) ++last_slash; else last_slash = buf + 1; } else last_slash = runp; last_slash[0] = '\0'; } else { /* This assignment is ill-designed but the XPG specs require to * return a string containing "." in any case no directory part * is found and so a static and constant string is required. */ buf[0] = '.'; buf[1] = '\0'; } return buf; } static char *xbasename(char *path) { static char *base; base = xmemrchr((uchar *)path, '/', strlen(path)); return base ? base + 1 : path; } /* Writes buflen char(s) from buf to a file */ static void writecp(const char *buf, const size_t buflen) { if (cfg.pickraw) { return; } if (!g_cppath[0]) { printmsg(messages[STR_COPY_ID]); return; } FILE *fp = fopen(g_cppath, "w"); if (fp) { fwrite(buf, 1, buflen, fp); fclose(fp); } else printwarn(); } static bool appendfpath(const char *path, const size_t len) { if ((copybufpos >= copybuflen) || ((len + 3) > (copybuflen - copybufpos))) { copybuflen += PATH_MAX; pcopybuf = xrealloc(pcopybuf, copybuflen); if (!pcopybuf) { printmsg("no memory!"); return FALSE; } } /* Enabling the following will miss files with newlines */ /* if (copybufpos) pcopybuf[copybufpos - 1] = '\n'; */ copybufpos += xstrlcpy(pcopybuf + copybufpos, path, len); return TRUE; } /* Write selected file paths to fd, linefeed separated */ static ssize_t selectiontofd(int fd) { char *pbuf = pcopybuf; ssize_t pos = 0, len, r, lastpos = copybufpos - 1; while (pos < copybufpos) { while(pcopybuf[pos]) ++pos; len = strlen(pbuf); r = write(fd, pbuf, len); if (r != len) return pos; if (pos != lastpos) { if (write(fd, "\n", 1) != 1) return pos; pbuf = pbuf + len + 1; } ++pos; } return pos; } static bool showcplist() { int fd; ssize_t pos; if (!copybufpos) return FALSE; if (g_tmpfpath[0]) xstrlcpy(g_tmpfpath + g_tmpfplen - 1, "/.nnnXXXXXX", MAX_HOME_LEN - g_tmpfplen); else { printmsg(messages[STR_NOHOME_ID]); return -1; } fd = mkstemp(g_tmpfpath); if (fd == -1) return FALSE; pos = selectiontofd(fd); close(fd); exitcurses(); if (pos && pos == copybufpos) get_output(NULL, 0, "cat", g_tmpfpath, NULL, 1); unlink(g_tmpfpath); refresh(); return TRUE; } /* Initialize curses mode */ static void initcurses(void) { if (initscr() == NULL) { char *term = getenv("TERM"); if (term != NULL) fprintf(stderr, "error opening TERM: %s\n", term); else fprintf(stderr, "initscr() failed\n"); exit(1); } cbreak(); noecho(); nonl(); intrflush(stdscr, FALSE); keypad(stdscr, TRUE); curs_set(FALSE); /* Hide cursor */ start_color(); use_default_colors(); if (cfg.showcolor) init_pair(1, cfg.color, -1); settimeout(); /* One second */ } /* * Spawns a child process. Behaviour can be controlled using flag. * Limited to 2 arguments to a program, flag works on bit set. */ static void spawn(const char *file, const char *arg1, const char *arg2, const char *dir, uchar flag) { static char *shlvl; static pid_t pid; static int status; if (flag & F_NORMAL) exitcurses(); pid = fork(); if (pid == 0) { if (dir != NULL) status = chdir(dir); shlvl = getenv("SHLVL"); /* Show a marker (to indicate nnn spawned shell) */ if (flag & F_MARKER && shlvl != NULL) { fprintf(stdout, "\n +-++-++-+\n | n n n |\n +-++-++-+\n\n"); fprintf(stdout, "Next shell level: %d\n", atoi(shlvl) + 1); } /* Suppress stdout and stderr */ if (flag & F_NOTRACE) { int fd = open("/dev/null", O_WRONLY, 0200); dup2(fd, 1); dup2(fd, 2); close(fd); } if (flag & F_NOWAIT) { signal(SIGHUP, SIG_IGN); signal(SIGPIPE, SIG_IGN); setsid(); } if (flag & F_SIGINT) signal(SIGINT, SIG_DFL); execlp(file, file, arg1, arg2, NULL); _exit(1); } else { if (!(flag & F_NOWAIT)) /* Ignore interruptions */ while (waitpid(pid, &status, 0) == -1) DPRINTF_D(status); DPRINTF_D(pid); if (flag & F_NORMAL) refresh(); } } /* Get program name from env var, else return fallback program */ static char *xgetenv(const char *name, char *fallback) { static char *value; if (name == NULL) return fallback; value = getenv(name); return value && value[0] ? value : fallback; } /* * Parse a string to get program and argument * NOTE: original string may be modified */ static void getprogarg(char *prog, char **arg) { char *argptr; while (*prog && *prog != ' ') ++prog; if (*prog) { *prog = '\0'; *arg = ++prog; argptr = *arg; /* Make sure there are no more args */ while (*argptr) { if (*argptr == ' ') { fprintf(stderr, "Too many %s args\n", prog); exit(1); } ++argptr; } } } /* Check if a dir exists, IS a dir and is readable */ static bool xdiraccess(const char *path) { static DIR *dirp; dirp = opendir(path); if (dirp == NULL) { printwarn(); return FALSE; } closedir(dirp); return TRUE; } /* * We assume none of the strings are NULL. * * Let's have the logic to sort numeric names in numeric order. * E.g., the order '1, 10, 2' doesn't make sense to human eyes. * * If the absolute numeric values are same, we fallback to alphasort. */ static int xstricmp(const char * const s1, const char * const s2) { static const char *c1, *c2; c1 = s1; while (isspace(*c1)) ++c1; c2 = s2; while (isspace(*c2)) ++c2; if (*c1 == '-' || *c1 == '+') ++c1; if (*c2 == '-' || *c2 == '+') ++c2; if (isdigit(*c1) && isdigit(*c2)) { while (*c1 >= '0' && *c1 <= '9') ++c1; while (isspace(*c1)) ++c1; while (*c2 >= '0' && *c2 <= '9') ++c2; while (isspace(*c2)) ++c2; } if (!*c1 && !*c2) { static long long num1, num2; num1 = strtoll(s1, NULL, 10); num2 = strtoll(s2, NULL, 10); if (num1 != num2) { if (num1 > num2) return 1; return -1; } } return strcoll(s1, s2); } /* Return the integer value of a char representing HEX */ static char xchartohex(char c) { if (c >= '0' && c <= '9') return c - '0'; c = TOUPPER(c); if (c >= 'A' && c <= 'F') return c - 'A' + 10; return c; } static char *getmime(const char *file) { static regex_t regex; static uint i; static const uint len = LEN(assocs); for (i = 0; i < len; ++i) { if (regcomp(®ex, assocs[i].regex, REG_NOSUB | REG_EXTENDED | REG_ICASE) != 0) continue; if (regexec(®ex, file, 0, NULL, 0) == 0) { regfree(®ex); return assocs[i].mime; } } regfree(®ex); return NULL; } static int setfilter(regex_t *regex, char *filter) { static size_t len; static int r; r = regcomp(regex, filter, REG_NOSUB | REG_EXTENDED | REG_ICASE); if (r != 0 && filter && filter[0] != '\0') { len = COLS; if (len > NAME_MAX) len = NAME_MAX; regerror(r, regex, g_buf, len); printmsg(g_buf); } return r; } static void initfilter(int dot, char *hfltr) { dot ? (hfltr[0] = '.', hfltr[1] = '\0') : xstrlcpy(hfltr, "^[^.]", DOT_FILTER_LEN); } static int visible(regex_t *regex, char *file) { return regexec(regex, file, 0, NULL, 0) == 0; } static int entrycmp(const void *va, const void *vb) { static pEntry pa, pb; pa = (pEntry)va; pb = (pEntry)vb; /* Sort directories first */ if (S_ISDIR(pb->mode) && !S_ISDIR(pa->mode)) return 1; if (S_ISDIR(pa->mode) && !S_ISDIR(pb->mode)) return -1; /* Do the actual sorting */ if (cfg.mtimeorder) return pb->t - pa->t; if (cfg.sizeorder) { if (pb->size > pa->size) return 1; if (pb->size < pa->size) return -1; } if (cfg.blkorder) { if (pb->blocks > pa->blocks) return 1; if (pb->blocks < pa->blocks) return -1; } return xstricmp(pa->name, pb->name); } /* * Returns SEL_* if key is bound and 0 otherwise. * Also modifies the run and env pointers (used on SEL_{RUN,RUNARG}). * The next keyboard input can be simulated by presel. */ static int nextsel(char **run, char **env, int *presel) { static int c; static uint i; static const uint len = LEN(bindings); #ifdef LINUX_INOTIFY static char inotify_buf[EVENT_BUF_LEN]; #elif defined(BSD_KQUEUE) static struct kevent event_data[NUM_EVENT_SLOTS]; #endif c = *presel; if (c == 0) { c = getch(); DPRINTF_D(c); } else { /* Unwatch dir if we are still in a filtered view */ #ifdef LINUX_INOTIFY if (*presel == FILTER && inotify_wd >= 0) { inotify_rm_watch(inotify_fd, inotify_wd); inotify_wd = -1; } #elif defined(BSD_KQUEUE) if (*presel == FILTER && event_fd >= 0) { close(event_fd); event_fd = -1; } #endif *presel = 0; } if (c == -1) { ++idle; /* * Do not check for directory changes in du mode. A redraw forces du calculation. * Check for changes every odd second. */ #ifdef LINUX_INOTIFY if (!cfg.blkorder && inotify_wd >= 0 && idle & 1 && read(inotify_fd, inotify_buf, EVENT_BUF_LEN) > 0) #elif defined(BSD_KQUEUE) if (!cfg.blkorder && event_fd >= 0 && idle & 1 && kevent(kq, events_to_monitor, NUM_EVENT_SLOTS, event_data, NUM_EVENT_FDS, >imeout) > 0) #endif c = CONTROL('L'); } else idle = 0; for (i = 0; i < len; ++i) if (c == bindings[i].sym) { *run = bindings[i].run; *env = bindings[i].env; return bindings[i].act; } return 0; } /* * Move non-matching entries to the end */ static int fill(struct entry **dents, int (*filter)(regex_t *, char *), regex_t *re) { static int count; static struct entry _dent, *pdent1, *pdent2; for (count = 0; count < ndents; ++count) { if (filter(re, (*dents)[count].name) == 0) { if (count != --ndents) { pdent1 = &(*dents)[count]; pdent2 = &(*dents)[ndents]; *(&_dent) = *pdent1; *pdent1 = *pdent2; *pdent2 = *(&_dent); --count; } continue; } } return ndents; } static int matches(char *fltr) { static regex_t re; /* Search filter */ if (setfilter(&re, fltr) != 0) return -1; ndents = fill(&dents, visible, &re); regfree(&re); if (!ndents) return 0; qsort(dents, ndents, sizeof(*dents), entrycmp); return 0; } static int filterentries(char *path) { static char ln[REGEX_MAX] __attribute__ ((aligned)); static wchar_t wln[REGEX_MAX] __attribute__ ((aligned)); static wint_t ch[2] = {0}; int r, total = ndents, oldcur = cur, len = 1; char *pln = ln + 1; ln[0] = wln[0] = FILTER; ln[1] = wln[1] = '\0'; cur = 0; cleartimeout(); curs_set(TRUE); printprompt(ln); while ((r = get_wch(ch)) != ERR) { switch (*ch) { case KEY_DC: // fallthrough case KEY_BACKSPACE: // fallthrough case '\b': // fallthrough case CONTROL('L'): // fallthrough case 127: /* handle DEL */ if (len == 1 && *ch != CONTROL('L')) { cur = oldcur; *ch = CONTROL('L'); goto end; } if (*ch == CONTROL('L')) while (len > 1) wln[--len] = '\0'; else wln[--len] = '\0'; if (len == 1) cur = oldcur; wcstombs(ln, wln, REGEX_MAX); ndents = total; if (matches(pln) != -1) redraw(path); printprompt(ln); continue; case 27: /* Exit filter mode on Escape */ cur = oldcur; *ch = CONTROL('L'); goto end; } if (r == OK) { /* Handle all control chars in main loop */ if (keyname(*ch)[0] == '^') { if (len == 1) cur = oldcur; goto end; } switch (*ch) { case '\r': // with nonl(), this is ENTER key value if (len == 1) { cur = oldcur; goto end; } if (matches(pln) == -1) goto end; redraw(path); goto end; case '?': // '?' is an invalid regex, show help instead if (len == 1) { cur = oldcur; goto end; } // fallthrough default: /* Reset cur in case it's a repeat search */ if (len == 1) cur = 0; if (len == REGEX_MAX - 1) break; wln[len] = (wchar_t)*ch; wln[++len] = '\0'; wcstombs(ln, wln, REGEX_MAX); /* Forward-filtering optimization: * - new matches can only be a subset of current matches. */ /* ndents = total; */ if (matches(pln) == -1) continue; /* If the only match is a dir, auto-select and cd into it */ if (ndents == 1 && cfg.filtermode && cfg.autoselect && S_ISDIR(dents[0].mode)) { *ch = KEY_ENTER; cur = 0; goto end; } /* * redraw() should be above the auto-select optimization, for * the case where there's an issue with dir auto-select, say, * due to a permission problem. The transition is _jumpy_ in * case of such an error. However, we optimize for successful * cases where the dir has permissions. This skips a redraw(). */ redraw(path); printprompt(ln); } } else { if (len == 1) cur = oldcur; goto end; } } end: curs_set(FALSE); settimeout(); /* Return keys for navigation etc. */ return *ch; } /* Show a prompt with input string and return the changes */ static char *xreadline(char *fname, char *prompt) { size_t len, pos; int x, y, r; wint_t ch[2] = {0}; static wchar_t * const buf = (wchar_t *)g_buf; cleartimeout(); printprompt(prompt); if (fname) { DPRINTF_S(fname); len = pos = mbstowcs(buf, fname, NAME_MAX); } else len = (size_t)-1; if (len == (size_t)-1) { buf[0] = '\0'; len = pos = 0; } getyx(stdscr, y, x); curs_set(TRUE); while (1) { buf[len] = ' '; mvaddnwstr(y, x, buf, len + 1); move(y, x + wcswidth(buf, pos)); r = get_wch(ch); if (r != ERR) { if (r == OK) { switch (*ch) { case KEY_ENTER: // fallthrough case '\n': // fallthrough case '\r': goto END; case 127: /* Handle DEL */ // fallthrough case '\b': /* some old curses (e.g. rhel25) still send '\b' for backspace */ if (pos > 0) { memmove(buf + pos - 1, buf + pos, (len - pos) << 2); --len, --pos; } // fallthrough case '\t': /* TAB breaks cursor position, ignore it */ continue; case CONTROL('L'): clearprompt(); printprompt(prompt); len = pos = 0; continue; case CONTROL('A'): pos = 0; continue; case CONTROL('E'): pos = len; continue; case CONTROL('U'): clearprompt(); printprompt(prompt); memmove(buf, buf + pos, (len - pos) << 2); len -= pos; pos = 0; continue; case 27: /* Exit prompt on Escape */ len = 0; goto END; } /* Filter out all other control chars */ if (keyname(*ch)[0] == '^') continue; if (pos < NAME_MAX - 1) { memmove(buf + pos + 1, buf + pos, (len - pos) << 2); buf[pos] = *ch; ++len, ++pos; continue; } } else { switch (*ch) { case KEY_LEFT: if (pos > 0) --pos; break; case KEY_RIGHT: if (pos < len) ++pos; break; case KEY_BACKSPACE: if (pos > 0) { memmove(buf + pos - 1, buf + pos, (len - pos) << 2); --len, --pos; } break; case KEY_DC: if (pos < len) { memmove(buf + pos, buf + pos + 1, (len - pos - 1) << 2); --len; } break; default: break; } } } } END: curs_set(FALSE); settimeout(); clearprompt(); buf[len] = '\0'; DPRINTF_S(buf); wcstombs(g_buf + ((NAME_MAX + 1) << 4), buf, NAME_MAX); return g_buf + ((NAME_MAX + 1) << 4); } /* * Updates out with "dir/name or "/name" * Returns the number of bytes copied including the terminating NULL byte */ static size_t mkpath(char *dir, char *name, char *out, size_t n) { static size_t len; /* Handle absolute path */ if (name[0] == '/') return xstrlcpy(out, name, n); /* Handle root case */ if (istopdir(dir)) len = 1; else len = xstrlcpy(out, dir, n); out[len - 1] = '/'; return (xstrlcpy(out + len, name, n - len) + len); } static int parsebmstr() { int i = 0; char *bms = getenv("NNN_BMS"); if (!bms) return 0; while (*bms && i < BM_MAX) { bookmark[i].key = *bms; if (!*++bms) { bookmark[i].key = '\0'; break; } if (*bms != ':') return -1; /* We support single char keys only */ bookmark[i].loc = ++bms; if (bookmark[i].loc[0] == '\0' || bookmark[i].loc[0] == ';') { bookmark[i].key = '\0'; break; } while (*bms && *bms != ';') ++bms; if (*bms) *bms = '\0'; else break; ++bms; ++i; } return 0; } /* * Get the real path to a bookmark * * NULL is returned in case of no match, path resolution failure etc. * buf would be modified, so check return value before access */ static char *get_bm_loc(int key, char *buf) { int r; for (r = 0; bookmark[r].key && r < BM_MAX; ++r) { if (bookmark[r].key == key) { if (bookmark[r].loc[0] == '~') { char *home = getenv("HOME"); if (!home) { DPRINTF_S(messages[STR_NOHOME_ID]); return NULL; } snprintf(buf, PATH_MAX, "%s%s", home, bookmark[r].loc + 1); } else xstrlcpy(buf, bookmark[r].loc, PATH_MAX); return buf; } } DPRINTF_S("Invalid key"); return NULL; } static void resetdircolor(mode_t mode) { if (cfg.dircolor && !S_ISDIR(mode)) { attroff(COLOR_PAIR(1) | A_BOLD); cfg.dircolor = 0; } } /* * Replace escape characters in a string with '?' * Adjust string length to maxcols if > 0; * * Interestingly, note that unescape() uses g_buf. What happens if * str also points to g_buf? In this case we assume that the caller * acknowledges that it's OK to lose the data in g_buf after this * call to unescape(). * The API, on its part, first converts str to multibyte (after which * it doesn't touch str anymore). Only after that it starts modifying * g_buf. This is a phased operation. */ static char *unescape(const char *str, uint maxcols) { static wchar_t wbuf[PATH_MAX] __attribute__ ((aligned)); static wchar_t *buf; static size_t len; /* Convert multi-byte to wide char */ len = mbstowcs(wbuf, str, PATH_MAX); g_buf[0] = '\0'; buf = wbuf; if (maxcols && len > maxcols) { len = wcswidth(wbuf, len); if (len > maxcols) wbuf[maxcols] = 0; } while (*buf) { if (*buf <= '\x1f' || *buf == '\x7f') *buf = '\?'; ++buf; } /* Convert wide char to multi-byte */ wcstombs(g_buf, wbuf, PATH_MAX); return g_buf; } static char *coolsize(off_t size) { static const char * const U = "BKMGTPEZY"; static char size_buf[12]; /* Buffer to hold human readable size */ static off_t rem; static int i; i = 0; rem = 0; while (size > 1024) { rem = size & (0x3FF); /* 1024 - 1 = 0x3FF */ size >>= 10; ++i; } if (i == 1) { rem = (rem * 1000) >> 10; rem /= 10; if (rem % 10 >= 5) { rem = (rem / 10) + 1; if (rem == 10) { ++size; rem = 0; } } else rem /= 10; } else if (i == 2) { rem = (rem * 1000) >> 10; if (rem % 10 >= 5) { rem = (rem / 10) + 1; if (rem == 100) { ++size; rem = 0; } } else rem /= 10; } else if (i > 0) { rem = (rem * 10000) >> 10; if (rem % 10 >= 5) { rem = (rem / 10) + 1; if (rem == 1000) { ++size; rem = 0; } } else rem /= 10; } if (i > 0 && i < 6) snprintf(size_buf, 12, "%lu.%0*lu%c", (ulong)size, i, (ulong)rem, U[i]); else snprintf(size_buf, 12, "%lu%c", (ulong)size, U[i]); return size_buf; } static char *get_file_sym(mode_t mode) { static char ind[2] = "\0\0"; if (S_ISDIR(mode)) ind[0] = '/'; else if (S_ISLNK(mode)) ind[0] = '@'; else if (S_ISSOCK(mode)) ind[0] = '='; else if (S_ISFIFO(mode)) ind[0] = '|'; else if (mode & 0100) ind[0] = '*'; else ind[0] = '\0'; return ind; } static void printent(struct entry *ent, int sel, uint namecols) { static char *pname; pname = unescape(ent->name, namecols); /* Directories are always shown on top */ resetdircolor(ent->mode); printw("%s%s%s\n", CURSYM(sel), pname, get_file_sym(ent->mode)); } static void printent_long(struct entry *ent, int sel, uint namecols) { static char buf[18], *pname; strftime(buf, 18, "%F %R", localtime(&ent->t)); pname = unescape(ent->name, namecols); /* Directories are always shown on top */ resetdircolor(ent->mode); if (sel) attron(A_REVERSE); if (S_ISDIR(ent->mode)) { if (cfg.blkorder) printw("%s%-16.16s %8.8s/ %s/\n", CURSYM(sel), buf, coolsize(ent->blocks << BLK_SHIFT), pname); else printw("%s%-16.16s / %s/\n", CURSYM(sel), buf, pname); } else if (S_ISLNK(ent->mode)) { if (ent->flags & SYMLINK_TO_DIR) printw("%s%-16.16s @/ %s@\n", CURSYM(sel), buf, pname); else printw("%s%-16.16s @ %s@\n", CURSYM(sel), buf, pname); } else if (S_ISSOCK(ent->mode)) printw("%s%-16.16s = %s=\n", CURSYM(sel), buf, pname); else if (S_ISFIFO(ent->mode)) printw("%s%-16.16s | %s|\n", CURSYM(sel), buf, pname); else if (S_ISBLK(ent->mode)) printw("%s%-16.16s b %s\n", CURSYM(sel), buf, pname); else if (S_ISCHR(ent->mode)) printw("%s%-16.16s c %s\n", CURSYM(sel), buf, pname); else if (ent->mode & 0100) { if (cfg.blkorder) printw("%s%-16.16s %8.8s* %s*\n", CURSYM(sel), buf, coolsize(ent->blocks << BLK_SHIFT), pname); else printw("%s%-16.16s %8.8s* %s*\n", CURSYM(sel), buf, coolsize(ent->size), pname); } else { if (cfg.blkorder) printw("%s%-16.16s %8.8s %s\n", CURSYM(sel), buf, coolsize(ent->blocks << BLK_SHIFT), pname); else printw("%s%-16.16s %8.8s %s\n", CURSYM(sel), buf, coolsize(ent->size), pname); } if (sel) attroff(A_REVERSE); } static void (*printptr)(struct entry *ent, int sel, uint namecols) = &printent_long; static char get_fileind(mode_t mode, char *desc) { static char c; if (S_ISREG(mode)) { c = '-'; xstrlcpy(desc, "regular file", DESCRIPTOR_LEN); if (mode & 0100) xstrlcpy(desc + 12, ", executable", DESCRIPTOR_LEN - 12); /* Length of string "regular file" is 12 */ } else if (S_ISDIR(mode)) { c = 'd'; xstrlcpy(desc, "directory", DESCRIPTOR_LEN); } else if (S_ISBLK(mode)) { c = 'b'; xstrlcpy(desc, "block special device", DESCRIPTOR_LEN); } else if (S_ISCHR(mode)) { c = 'c'; xstrlcpy(desc, "character special device", DESCRIPTOR_LEN); #ifdef S_ISFIFO } else if (S_ISFIFO(mode)) { c = 'p'; xstrlcpy(desc, "FIFO", DESCRIPTOR_LEN); #endif /* S_ISFIFO */ #ifdef S_ISLNK } else if (S_ISLNK(mode)) { c = 'l'; xstrlcpy(desc, "symbolic link", DESCRIPTOR_LEN); #endif /* S_ISLNK */ #ifdef S_ISSOCK } else if (S_ISSOCK(mode)) { c = 's'; xstrlcpy(desc, "socket", DESCRIPTOR_LEN); #endif /* S_ISSOCK */ #ifdef S_ISDOOR /* Solaris 2.6, etc. */ } else if (S_ISDOOR(mode)) { c = 'D'; desc[0] = '\0'; #endif /* S_ISDOOR */ } else { /* Unknown type -- possibly a regular file? */ c = '?'; desc[0] = '\0'; } return c; } /* Convert a mode field into "ls -l" type perms field. */ static char *get_lsperms(mode_t mode, char *desc) { static const char * const rwx[] = {"---", "--x", "-w-", "-wx", "r--", "r-x", "rw-", "rwx"}; static char bits[11] = {'\0'}; bits[0] = get_fileind(mode, desc); xstrlcpy(&bits[1], rwx[(mode >> 6) & 7], 4); xstrlcpy(&bits[4], rwx[(mode >> 3) & 7], 4); xstrlcpy(&bits[7], rwx[(mode & 7)], 4); if (mode & S_ISUID) bits[3] = (mode & 0100) ? 's' : 'S'; /* user executable */ if (mode & S_ISGID) bits[6] = (mode & 0010) ? 's' : 'l'; /* group executable */ if (mode & S_ISVTX) bits[9] = (mode & 0001) ? 't' : 'T'; /* others executable */ return bits; } /* * Gets only a single line (that's what we need * for now) or shows full command output in pager. * * If pager is valid, returns NULL */ static char *get_output(char *buf, size_t bytes, char *file, char *arg1, char *arg2, int pager) { pid_t pid; int pipefd[2]; FILE *pf; int tmp, flags; char *ret = NULL; if (pipe(pipefd) == -1) errexit(); for (tmp = 0; tmp < 2; ++tmp) { /* Get previous flags */ flags = fcntl(pipefd[tmp], F_GETFL, 0); /* Set bit for non-blocking flag */ flags |= O_NONBLOCK; /* Change flags on fd */ fcntl(pipefd[tmp], F_SETFL, flags); } pid = fork(); if (pid == 0) { /* In child */ close(pipefd[0]); dup2(pipefd[1], STDOUT_FILENO); dup2(pipefd[1], STDERR_FILENO); close(pipefd[1]); execlp(file, file, arg1, arg2, NULL); _exit(1); } /* In parent */ waitpid(pid, &tmp, 0); close(pipefd[1]); if (!pager) { pf = fdopen(pipefd[0], "r"); if (pf) { ret = fgets(buf, bytes, pf); close(pipefd[0]); } return ret; } pid = fork(); if (pid == 0) { /* Show in pager in child */ dup2(pipefd[0], STDIN_FILENO); close(pipefd[0]); execlp("less", "less", NULL); _exit(1); } /* In parent */ waitpid(pid, &tmp, 0); close(pipefd[0]); return NULL; } static char *xgetpwuid(uid_t uid) { struct passwd *pwd = getpwuid(uid); if (!pwd) return utils[UNKNOWN]; return pwd->pw_name; } static char *xgetgrgid(gid_t gid) { struct group *grp = getgrgid(gid); if (!grp) return utils[UNKNOWN]; return grp->gr_name; } /* * Follows the stat(1) output closely */ static int show_stats(char *fpath, char *fname, struct stat *sb) { char desc[DESCRIPTOR_LEN]; char *perms = get_lsperms(sb->st_mode, desc); char *p, *begin = g_buf; if (g_tmpfpath[0]) xstrlcpy(g_tmpfpath + g_tmpfplen - 1, "/.nnnXXXXXX", MAX_HOME_LEN - g_tmpfplen); else { printmsg(messages[STR_NOHOME_ID]); return -1; } int fd = mkstemp(g_tmpfpath); if (fd == -1) return -1; dprintf(fd, " File: '%s'", unescape(fname, 0)); /* Show file name or 'symlink' -> 'target' */ if (perms[0] == 'l') { /* Note that MAX_CMD_LEN > PATH_MAX */ ssize_t len = readlink(fpath, g_buf, MAX_CMD_LEN); if (len != -1) { struct stat tgtsb; if (!stat(fpath, &tgtsb) && S_ISDIR(tgtsb.st_mode)) g_buf[len++] = '/'; g_buf[len] = '\0'; /* * We pass g_buf but unescape() operates on g_buf too! * Read the API notes for information on how this works. */ dprintf(fd, " -> '%s'", unescape(g_buf, 0)); } } /* Show size, blocks, file type */ #if defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__) || defined(__APPLE__) dprintf(fd, "\n Size: %-15lld Blocks: %-10lld IO Block: %-6d %s", (long long)sb->st_size, (long long)sb->st_blocks, sb->st_blksize, desc); #else dprintf(fd, "\n Size: %-15ld Blocks: %-10ld IO Block: %-6ld %s", sb->st_size, sb->st_blocks, (long)sb->st_blksize, desc); #endif /* Show containing device, inode, hardlink count */ #if defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__) || defined(__APPLE__) snprintf(g_buf, 32, "%xh/%ud", sb->st_dev, sb->st_dev); dprintf(fd, "\n Device: %-15s Inode: %-11llu Links: %-9hu", g_buf, (unsigned long long)sb->st_ino, sb->st_nlink); #else snprintf(g_buf, 32, "%lxh/%lud", (ulong)sb->st_dev, (ulong)sb->st_dev); dprintf(fd, "\n Device: %-15s Inode: %-11lu Links: %-9lu", g_buf, sb->st_ino, (ulong)sb->st_nlink); #endif /* Show major, minor number for block or char device */ if (perms[0] == 'b' || perms[0] == 'c') dprintf(fd, " Device type: %x,%x", major(sb->st_rdev), minor(sb->st_rdev)); /* Show permissions, owner, group */ dprintf(fd, "\n Access: 0%d%d%d/%s Uid: (%u/%s) Gid: (%u/%s)", (sb->st_mode >> 6) & 7, (sb->st_mode >> 3) & 7, sb->st_mode & 7, perms, sb->st_uid, xgetpwuid(sb->st_uid), sb->st_gid, xgetgrgid(sb->st_gid)); /* Show last access time */ strftime(g_buf, 40, messages[STR_DATE_ID], localtime(&sb->st_atime)); dprintf(fd, "\n\n Access: %s", g_buf); /* Show last modification time */ strftime(g_buf, 40, messages[STR_DATE_ID], localtime(&sb->st_mtime)); dprintf(fd, "\n Modify: %s", g_buf); /* Show last status change time */ strftime(g_buf, 40, messages[STR_DATE_ID], localtime(&sb->st_ctime)); dprintf(fd, "\n Change: %s", g_buf); if (S_ISREG(sb->st_mode)) { /* Show file(1) output */ p = get_output(g_buf, MAX_CMD_LEN, "file", "-b", fpath, 0); if (p) { dprintf(fd, "\n\n "); while (*p) { if (*p == ',') { *p = '\0'; dprintf(fd, " %s\n", begin); begin = p + 1; } ++p; } dprintf(fd, " %s", begin); } dprintf(fd, "\n\n"); } else dprintf(fd, "\n\n\n"); close(fd); exitcurses(); get_output(NULL, 0, "cat", g_tmpfpath, NULL, 1); unlink(g_tmpfpath); refresh(); return 0; } static size_t get_fs_info(const char *path, bool type) { static struct statvfs svb; if (statvfs(path, &svb) == -1) return 0; if (type == CAPACITY) return svb.f_blocks << ffs(svb.f_bsize >> 1); return svb.f_bavail << ffs(svb.f_frsize >> 1); } static int show_mediainfo(char *fpath, char *arg) { if (!get_output(g_buf, MAX_CMD_LEN, "which", utils[cfg.metaviewer], NULL, 0)) return -1; exitcurses(); get_output(NULL, 0, utils[cfg.metaviewer], fpath, arg, 1); refresh(); return 0; } static int handle_archive(char *fpath, char *arg, char *dir) { if (!get_output(g_buf, MAX_CMD_LEN, "which", utils[ATOOL], NULL, 0)) return -1; if (arg[1] == 'x') spawn(utils[ATOOL], arg, fpath, dir, F_NORMAL); else { exitcurses(); get_output(NULL, 0, utils[ATOOL], arg, fpath, 1); refresh(); } return 0; } /* * The help string tokens (each line) start with a HEX value * which indicates the number of spaces to print before the * particular token. This method was chosen instead of a flat * string because the number of bytes in help was increasing * the binary size by around a hundred bytes. This would only * have increased as we keep adding new options. */ static int show_help(char *path) { if (g_tmpfpath[0]) xstrlcpy(g_tmpfpath + g_tmpfplen - 1, "/.nnnXXXXXX", MAX_HOME_LEN - g_tmpfplen); else { printmsg(messages[STR_NOHOME_ID]); return -1; } int i = 0, fd = mkstemp(g_tmpfpath); char *start, *end; static char helpstr[] = { "0\n" "1NAVIGATION\n" "7↑, k, ^P Up PgUp, ^U Scroll up\n" "7↓, j, ^N Down PgDn, ^D Scroll down\n" "1Home, g, ^, ^A First entry ~ Go HOME\n" "2End, G, $, ^E Last entry & Start dir\n" "1←, Bksp, h, ^H Parent dir - Last visited dir\n" "4→, ↵, l, ^M Open file/enter dir . Toggle show hidden\n" "e/ Filter Ins, ^I Toggle nav-as-you-type\n" "eb Pin current dir ^W Go to pinned dir\n" "ed Toggle detail view ^T Next active context\n" "a`, ^/ Leader key LeaderN Go to context N\n" "cEsc Exit prompt ^L Redraw, clear prompt\n" "d^G Quit and cd q Quit context\n" "aQ, ^Q Quit ? Help, config\n" "1FILES\n" "d^O Open with... n Create new\n" "eD File details ^R Rename entry\n" "a⎵, ^K Copy entry path r Open dir in vidir\n" "aY, ^Y Toggle selection y List selection\n" "eP Copy selection X Delete selection\n" "eV Move selection ^X Delete entry\n" "ef Archive entry F List archive\n" "d^F Extract archive m, M Brief/full media info\n" "ee Edit in EDITOR p Open in PAGER\n" "1ORDER\n" "d^J Toggle du mode S Toggle apparent size\n" "es Toggle sort by size t Toggle sort by mtime\n" "1MISC\n" "eo Launch GUI app !, ^] Spawn SHELL in dir\n" "eR Run custom script L Lock terminal\n"}; if (fd == -1) return -1; start = end = helpstr; while (*end) { while (*end != '\n') ++end; if (start == end) { ++end; continue; } dprintf(fd, "%*c%.*s", xchartohex(*start), ' ', (int)(end - start), start + 1); start = ++end; } dprintf(fd, "\nVOLUME: %s of ", coolsize(get_fs_info(path, FREE))); dprintf(fd, "%s free\n\n", coolsize(get_fs_info(path, CAPACITY))); if (getenv("NNN_BMS")) { dprintf(fd, "BOOKMARKS\n"); for (; i < BM_MAX; ++i) if (bookmark[i].key) dprintf(fd, " %c: %s\n", (char)bookmark[i].key, bookmark[i].loc); else break; dprintf(fd, "\n"); } if (cfg.useeditor) dprintf(fd, "NNN_USE_EDITOR: %s\n", editor); if (idletimeout) dprintf(fd, "NNN_IDLE_TIMEOUT: %d secs\n", idletimeout); if (copier) dprintf(fd, "NNN_COPIER: %s\n", copier); else if (g_cppath[0]) dprintf(fd, "copy file: %s\n", g_cppath); if (getenv("NNN_SCRIPT")) dprintf(fd, "NNN_SCRIPT: %s\n", getenv("NNN_SCRIPT")); if (getenv("NNN_MULTISCRIPT")) dprintf(fd, "NNN_MULTISCRIPT: 1\n"); if (getenv("NNN_SHOW_HIDDEN")) dprintf(fd, "NNN_SHOW_HIDDEN: 1\n"); if (getenv("NNN_NO_AUTOSELECT")) dprintf(fd, "NNN_NO_AUTOSELECT: 1\n"); if (getenv("DISABLE_FILE_OPEN_ON_NAV")) dprintf(fd, "DISABLE_FILE_OPEN_ON_NAV: 1\n"); dprintf(fd, "\n"); if (getenv("PWD")) dprintf(fd, "PWD: %s\n", getenv("PWD")); if (getenv("SHELL")) dprintf(fd, "SHELL: %s\n", getenv("SHELL")); if (getenv("SHLVL")) dprintf(fd, "SHLVL: %s\n", getenv("SHLVL")); if (getenv("VISUAL")) dprintf(fd, "VISUAL: %s\n", getenv("VISUAL")); else if (getenv("EDITOR")) dprintf(fd, "EDITOR: %s\n", getenv("EDITOR")); if (getenv("PAGER")) dprintf(fd, "PAGER: %s\n", getenv("PAGER")); dprintf(fd, "\nVersion: %s\n%s\n", VERSION, GENERAL_INFO); close(fd); exitcurses(); get_output(NULL, 0, "cat", g_tmpfpath, NULL, 1); unlink(g_tmpfpath); refresh(); return 0; } static int sum_bsizes(const char *fpath, const struct stat *sb, int typeflag, struct FTW *ftwbuf) { if (sb->st_blocks && (typeflag == FTW_F || typeflag == FTW_D)) ent_blocks += sb->st_blocks; ++num_files; return 0; } static int sum_sizes(const char *fpath, const struct stat *sb, int typeflag, struct FTW *ftwbuf) { if (sb->st_size && (typeflag == FTW_F || typeflag == FTW_D)) ent_blocks += sb->st_size; ++num_files; return 0; } static void dentfree(struct entry *dents) { free(pnamebuf); free(dents); } static int dentfill(char *path, struct entry **dents, int (*filter)(regex_t *, char *), regex_t *re) { static DIR *dirp; static struct dirent *dp; static char *namep, *pnb; static struct entry *dentp; static size_t off, namebuflen = NAMEBUF_INCR; static ulong num_saved; static int fd, n, count; static struct stat sb_path, sb; off = 0; dirp = opendir(path); if (dirp == NULL) return 0; fd = dirfd(dirp); n = 0; if (cfg.blkorder) { num_files = 0; dir_blocks = 0; if (fstatat(fd, ".", &sb_path, 0) == -1) { printwarn(); return 0; } } while ((dp = readdir(dirp)) != NULL) { namep = dp->d_name; if (filter(re, namep) == 0) { if (!cfg.blkorder) continue; /* Skip self and parent */ if ((namep[0] == '.' && (namep[1] == '\0' || (namep[1] == '.' && namep[2] == '\0')))) continue; if (fstatat(fd, namep, &sb, AT_SYMLINK_NOFOLLOW) == -1) continue; if (S_ISDIR(sb.st_mode)) { if (sb_path.st_dev == sb.st_dev) { ent_blocks = 0; mkpath(path, namep, g_buf, PATH_MAX); if (nftw(g_buf, nftw_fn, open_max, FTW_MOUNT | FTW_PHYS) == -1) { printmsg(messages[STR_NFTWFAIL_ID]); dir_blocks += (cfg.apparentsz ? sb.st_size : sb.st_blocks); } else dir_blocks += ent_blocks; } } else { dir_blocks += (cfg.apparentsz ? sb.st_size : sb.st_blocks); ++num_files; } continue; } /* Skip self and parent */ if ((namep[0] == '.' && (namep[1] == '\0' || (namep[1] == '.' && namep[2] == '\0')))) continue; if (fstatat(fd, namep, &sb, AT_SYMLINK_NOFOLLOW) == -1) { DPRINTF_S(namep); continue; } if (n == total_dents) { total_dents += ENTRY_INCR; *dents = xrealloc(*dents, total_dents * sizeof(**dents)); if (*dents == NULL) { free(pnamebuf); errexit(); } DPRINTF_P(*dents); } /* If there's not enough bytes left to copy a file name of length NAME_MAX, re-allocate */ if (namebuflen - off < NAME_MAX + 1) { namebuflen += NAMEBUF_INCR; pnb = pnamebuf; pnamebuf = (char *)xrealloc(pnamebuf, namebuflen); if (pnamebuf == NULL) { free(*dents); errexit(); } DPRINTF_P(pnamebuf); /* realloc() may result in memory move, we must re-adjust if that happens */ if (pnb != pnamebuf) { dentp = *dents; dentp->name = pnamebuf; for (count = 1; count < n; ++dentp, ++count) /* Current filename starts at last filename start + length */ (dentp + 1)->name = (char *)((size_t)dentp->name + dentp->nlen); } } dentp = *dents + n; /* Copy file name */ dentp->name = (char *)((size_t)pnamebuf + off); dentp->nlen = xstrlcpy(dentp->name, namep, NAME_MAX + 1); off += dentp->nlen; /* Copy other fields */ dentp->mode = sb.st_mode; dentp->t = sb.st_mtime; dentp->size = sb.st_size; if (cfg.blkorder) { if (S_ISDIR(sb.st_mode)) { ent_blocks = 0; num_saved = num_files + 1; mkpath(path, namep, g_buf, PATH_MAX); if (nftw(g_buf, nftw_fn, open_max, FTW_MOUNT | FTW_PHYS) == -1) { printmsg(messages[STR_NFTWFAIL_ID]); dentp->blocks = (cfg.apparentsz ? sb.st_size : sb.st_blocks); } else dentp->blocks = ent_blocks; if (sb_path.st_dev == sb.st_dev) dir_blocks += dentp->blocks; else num_files = num_saved; } else { dentp->blocks = (cfg.apparentsz ? sb.st_size : sb.st_blocks); dir_blocks += dentp->blocks; ++num_files; } } /* Flag if this is a symlink to a dir */ if (S_ISLNK(sb.st_mode)) if (!fstatat(fd, namep, &sb, 0)) { if (S_ISDIR(sb.st_mode)) dentp->flags |= SYMLINK_TO_DIR; else dentp->flags &= ~SYMLINK_TO_DIR; } ++n; } /* Should never be null */ if (closedir(dirp) == -1) { dentfree(*dents); errexit(); } return n; } /* Return the position of the matching entry or 0 otherwise */ static int dentfind(struct entry *dents, const char *fname, int n) { static int i; if (!fname) return 0; DPRINTF_S(fname); for (i = 0; i < n; ++i) if (strcmp(fname, dents[i].name) == 0) return i; return 0; } static int populate(char *path, char *lastname, char *fltr) { static regex_t re; /* Can fail when permissions change while browsing. * It's assumed that path IS a directory when we are here. */ if (access(path, R_OK) == -1) return -1; /* Search filter */ if (setfilter(&re, fltr) != 0) return -1; if (cfg.blkorder) { printmsg("calculating..."); refresh(); } #ifdef DEBUGMODE struct timespec ts1, ts2; clock_gettime(CLOCK_REALTIME, &ts1); /* Use CLOCK_MONOTONIC on FreeBSD */ #endif ndents = dentfill(path, &dents, visible, &re); regfree(&re); if (!ndents) return 0; qsort(dents, ndents, sizeof(*dents), entrycmp); #ifdef DEBUGMODE clock_gettime(CLOCK_REALTIME, &ts2); DPRINTF_U(ts2.tv_nsec - ts1.tv_nsec); #endif /* Find cur from history */ cur = dentfind(dents, lastname, ndents); return 0; } static void redraw(char *path) { static char buf[NAME_MAX + 65] __attribute__ ((aligned)); static size_t ncols; static int nlines, i; static bool mode_changed; mode_changed = FALSE; nlines = MIN(LINES - 4, ndents); /* Clear screen */ erase(); if (cfg.copymode) if (g_crc != crc8fast((uchar *)dents, ndents * sizeof(struct entry))) { cfg.copymode = 0; DPRINTF_S("selection off"); } /* Fail redraw if < than 11 columns, context info prints 10 chars */ if (COLS < 11) { printmsg("too few columns!"); return; } /* Strip trailing slashes */ for (i = strlen(path) - 1; i > 0; --i) if (path[i] == '/') path[i] = '\0'; else break; DPRINTF_D(cur); DPRINTF_S(path); if (!realpath(path, g_buf)) { printwarn(); return; } ncols = COLS; if (ncols > PATH_MAX) ncols = PATH_MAX; printw("["); for (i = 0; i < MAX_CTX; ++i) { /* Print current context in reverse */ if (cfg.curctx == i) { attron(A_REVERSE); printw("%d", i + 1); attroff(A_REVERSE); printw(" "); } else if (g_ctx[i].c_cfg.ctxactive) { attron(A_UNDERLINE); printw("%d", i + 1); attroff(A_UNDERLINE); printw(" "); } else printw("%d ", i + 1); } printw("\b] "); /* 10 chars printed in total for contexts - "[1 2 3 4] " */ attron(A_UNDERLINE); /* No text wrapping in cwd line */ g_buf[ncols - 11] = '\0'; printw("%s\n\n", g_buf); attroff(A_UNDERLINE); /* Fallback to light mode if less than 35 columns */ if (ncols < 35 && cfg.showdetail) { cfg.showdetail ^= 1; printptr = &printent; mode_changed = TRUE; } /* Calculate the number of cols available to print entry name */ if (cfg.showdetail) ncols -= 32; else ncols -= 5; if (cfg.showcolor) { attron(COLOR_PAIR(1) | A_BOLD); cfg.dircolor = 1; } /* Print listing */ if (cur < (nlines >> 1)) { for (i = 0; i < nlines; ++i) printptr(&dents[i], i == cur, ncols); } else if (cur >= ndents - (nlines >> 1)) { for (i = ndents - nlines; i < ndents; ++i) printptr(&dents[i], i == cur, ncols); } else { static int odd; odd = ISODD(nlines); nlines >>= 1; for (i = cur - nlines; i < cur + nlines + odd; ++i) printptr(&dents[i], i == cur, ncols); } /* Must reset e.g. no files in dir */ if (cfg.dircolor) { attroff(COLOR_PAIR(1) | A_BOLD); cfg.dircolor = 0; } if (cfg.showdetail) { if (ndents) { static char sort[9]; if (cfg.mtimeorder) xstrlcpy(sort, "by time ", 9); else if (cfg.sizeorder) xstrlcpy(sort, "by size ", 9); else sort[0] = '\0'; /* We need to show filename as it may be truncated in directory listing */ if (!cfg.blkorder) snprintf(buf, NAME_MAX + 65, "%d/%d %s[%s%s]", cur + 1, ndents, sort, unescape(dents[cur].name, NAME_MAX), get_file_sym(dents[cur].mode)); else { i = snprintf(buf, 64, "%d/%d ", cur + 1, ndents); if (cfg.apparentsz) buf[i++] = 'a'; else buf[i++] = 'd'; i += snprintf(buf + i, 64, "u: %s (%lu files) ", coolsize(dir_blocks << BLK_SHIFT), num_files); snprintf(buf + i, NAME_MAX, "vol: %s free [%s%s]", coolsize(get_fs_info(path, FREE)), unescape(dents[cur].name, NAME_MAX), get_file_sym(dents[cur].mode)); } printmsg(buf); } else printmsg("0 items"); } if (mode_changed) { cfg.showdetail ^= 1; printptr = &printent_long; } } static void browse(char *ipath) { static char newpath[PATH_MAX] __attribute__ ((aligned)); static char mark[PATH_MAX] __attribute__ ((aligned)); char *path, *lastdir, *lastname, *hfltr; char *dir, *tmp, *run = NULL, *env = NULL; struct stat sb; int r, fd, presel, ncp = 0, copystartid = 0, copyendid = 0; enum action sel = SEL_RUNARG + 1; bool dir_changed = FALSE; /* setup first context */ xstrlcpy(g_ctx[0].c_path, ipath, PATH_MAX); /* current directory */ path = g_ctx[0].c_path; xstrlcpy(g_ctx[0].c_init, ipath, PATH_MAX); /* start directory */ g_ctx[0].c_last[0] = g_ctx[0].c_name[0] = newpath[0] = mark[0] = '\0'; lastdir = g_ctx[0].c_last; /* last visited directory */ lastname = g_ctx[0].c_name; /* last visited filename */ g_ctx[0].c_cfg = cfg; /* current configuration */ initfilter(cfg.showhidden, g_ctx[0].c_fltr); /* Show hidden filter */ hfltr = g_ctx[0].c_fltr; if (cfg.filtermode) presel = FILTER; else presel = 0; dents = xrealloc(dents, total_dents * sizeof(struct entry)); if (dents == NULL) errexit(); DPRINTF_P(dents); /* Allocate buffer to hold names */ pnamebuf = (char *)xrealloc(pnamebuf, NAMEBUF_INCR); if (pnamebuf == NULL) { free(dents); errexit(); } DPRINTF_P(pnamebuf); begin: #ifdef LINUX_INOTIFY if ((presel == FILTER || dir_changed) && inotify_wd >= 0) { inotify_rm_watch(inotify_fd, inotify_wd); inotify_wd = -1; dir_changed = FALSE; } #elif defined(BSD_KQUEUE) if ((presel == FILTER || dir_changed) && event_fd >= 0) { close(event_fd); event_fd = -1; dir_changed = FALSE; } #endif if (populate(path, lastname, hfltr) == -1) { printwarn(); goto nochange; } #ifdef LINUX_INOTIFY if (inotify_wd == -1) inotify_wd = inotify_add_watch(inotify_fd, path, INOTIFY_MASK); #elif defined(BSD_KQUEUE) if (event_fd == -1) { #if defined(O_EVTONLY) event_fd = open(path, O_EVTONLY); #else event_fd = open(path, O_RDONLY); #endif if (event_fd >= 0) EV_SET(&events_to_monitor[0], event_fd, EVFILT_VNODE, EV_ADD | EV_CLEAR, KQUEUE_FFLAGS, 0, path); } #endif for (;;) { redraw(path); nochange: /* Exit if parent has exited */ if (getppid() == 1) _exit(0); sel = nextsel(&run, &env, &presel); switch (sel) { case SEL_BACK: /* There is no going back */ if (istopdir(path)) { /* Continue in navigate-as-you-type mode, if enabled */ if (cfg.filtermode) presel = FILTER; goto nochange; } dir = xdirname(path); if (access(dir, R_OK) == -1) { printwarn(); goto nochange; } /* Save history */ xstrlcpy(lastname, xbasename(path), NAME_MAX + 1); /* Save last working directory */ xstrlcpy(lastdir, path, PATH_MAX); xstrlcpy(path, dir, PATH_MAX); setdirwatch(); goto begin; case SEL_NAV_IN: // fallthrough case SEL_GOIN: /* Cannot descend in empty directories */ if (!ndents) goto begin; mkpath(path, dents[cur].name, newpath, PATH_MAX); DPRINTF_S(newpath); /* Get path info */ fd = open(newpath, O_RDONLY | O_NONBLOCK); if (fd == -1) { printwarn(); goto nochange; } if (fstat(fd, &sb) == -1) { printwarn(); close(fd); goto nochange; } close(fd); DPRINTF_U(sb.st_mode); switch (sb.st_mode & S_IFMT) { case S_IFDIR: if (access(newpath, R_OK) == -1) { printwarn(); goto nochange; } /* Save last working directory */ xstrlcpy(lastdir, path, PATH_MAX); xstrlcpy(path, newpath, PATH_MAX); lastname[0] = '\0'; setdirwatch(); goto begin; case S_IFREG: { /* If opened as vim plugin and Enter/^M pressed, pick */ if (cfg.picker && sel == SEL_GOIN) { r = mkpath(path, dents[cur].name, newpath, PATH_MAX); appendfpath(newpath, r); writecp(pcopybuf, copybufpos - 1); dentfree(dents); return; } /* If open file is disabled on right arrow or `l`, return */ if (cfg.nonavopen && sel == SEL_NAV_IN) continue; /* If NNN_USE_EDITOR is set, open text in EDITOR */ if (cfg.useeditor) { if (getmime(dents[cur].name)) { spawn(editor, newpath, editor_arg, path, F_NORMAL); continue; } /* Recognize and open plain * text files with vi */ if (get_output(g_buf, MAX_CMD_LEN, "file", FILE_OPTS, newpath, 0) == NULL) continue; if (strstr(g_buf, "text/") == g_buf) { spawn(editor, newpath, editor_arg, path, F_NORMAL); continue; } } /* Invoke desktop opener as last resort */ spawn(utils[OPENER], newpath, NULL, NULL, F_NOWAIT | F_NOTRACE); continue; } default: printmsg("unsupported file"); goto nochange; } case SEL_NEXT: if (cur < ndents - 1) ++cur; else if (ndents) /* Roll over, set cursor to first entry */ cur = 0; break; case SEL_PREV: if (cur > 0) --cur; else if (ndents) /* Roll over, set cursor to last entry */ cur = ndents - 1; break; case SEL_PGDN: if (cur < ndents - 1) cur += MIN((LINES - 4) / 2, ndents - 1 - cur); break; case SEL_PGUP: if (cur > 0) cur -= MIN((LINES - 4) / 2, cur); break; case SEL_HOME: cur = 0; break; case SEL_END: cur = ndents - 1; break; case SEL_CDHOME: dir = getenv("HOME"); if (dir == NULL) { clearprompt(); goto nochange; } // fallthrough case SEL_CDBEGIN: if (sel == SEL_CDBEGIN) dir = ipath; if (!xdiraccess(dir)) goto nochange; if (strcmp(path, dir) == 0) break; /* Save last working directory */ xstrlcpy(lastdir, path, PATH_MAX); xstrlcpy(path, dir, PATH_MAX); lastname[0] = '\0'; DPRINTF_S(path); setdirwatch(); goto begin; case SEL_CDLAST: // fallthrough case SEL_VISIT: if (sel == SEL_VISIT) { if (strcmp(mark, path) == 0) break; tmp = mark; } else tmp = lastdir; if (tmp[0] == '\0') { printmsg("not set"); goto nochange; } if (!xdiraccess(tmp)) goto nochange; xstrlcpy(newpath, tmp, PATH_MAX); xstrlcpy(lastdir, path, PATH_MAX); xstrlcpy(path, newpath, PATH_MAX); lastname[0] = '\0'; DPRINTF_S(path); setdirwatch(); goto begin; case SEL_LEADER: fd = get_input(NULL); // fallthrough case SEL_CYCLE: if (sel == SEL_CYCLE) fd = '>'; switch (fd) { case 'q': // fallthrough case '~': // fallthrough case '-': // fallthrough case '&': presel = fd; goto nochange; case '>': case '.': case '<': case ',': r = cfg.curctx; if (fd == '>' || fd == '.') do (r == MAX_CTX - 1) ? (r = 0) : ++r; while (!g_ctx[r].c_cfg.ctxactive); else do (r == 0) ? (r = MAX_CTX - 1) : --r; while (!g_ctx[r].c_cfg.ctxactive); // fallthrough fd = '1' + r; // fallthrough case '1': // fallthrough case '2': // fallthrough case '3': // fallthrough case '4': r = fd - '1'; /* Save the next context id */ if (cfg.curctx == r) continue; g_crc = 0; /* Save current context */ xstrlcpy(g_ctx[cfg.curctx].c_name, dents[cur].name, NAME_MAX + 1); g_ctx[cfg.curctx].c_cfg = cfg; if (g_ctx[r].c_cfg.ctxactive) /* Switch to saved context */ cfg = g_ctx[r].c_cfg; else { /* Setup a new context from current context */ g_ctx[r].c_cfg.ctxactive = 1; xstrlcpy(g_ctx[r].c_path, path, PATH_MAX); xstrlcpy(g_ctx[r].c_init, path, PATH_MAX); g_ctx[r].c_last[0] = '\0'; xstrlcpy(g_ctx[r].c_name, dents[cur].name, NAME_MAX + 1); g_ctx[r].c_cfg = cfg; xstrlcpy(g_ctx[r].c_fltr, hfltr, DOT_FILTER_LEN); } /* Reset the pointers */ path = g_ctx[r].c_path; ipath = g_ctx[r].c_init; lastdir = g_ctx[r].c_last; lastname = g_ctx[r].c_name; hfltr = g_ctx[r].c_fltr; cfg.curctx = r; setdirwatch(); goto begin; } if (get_bm_loc(fd, newpath) == NULL) { printmsg(messages[STR_INVBM_KEY]); goto nochange; } if (!xdiraccess(newpath)) goto nochange; if (strcmp(path, newpath) == 0) break; lastname[0] = '\0'; /* Save last working directory */ xstrlcpy(lastdir, path, PATH_MAX); /* Save the newly opted dir in path */ xstrlcpy(path, newpath, PATH_MAX); DPRINTF_S(path); setdirwatch(); goto begin; case SEL_PIN: xstrlcpy(mark, path, PATH_MAX); printmsg(mark); goto nochange; case SEL_FLTR: presel = filterentries(path); /* Save current */ if (ndents) copycurname(); goto nochange; case SEL_MFLTR: cfg.filtermode ^= 1; if (cfg.filtermode) { presel = FILTER; goto nochange; } /* Save current */ if (ndents) copycurname(); dir_changed = TRUE; /* Start watching the directory */ goto begin; case SEL_TOGGLEDOT: cfg.showhidden ^= 1; initfilter(cfg.showhidden, hfltr); /* Save current */ if (ndents) copycurname(); goto begin; case SEL_DETAIL: cfg.showdetail ^= 1; cfg.showdetail ? (printptr = &printent_long) : (printptr = &printent); /* Save current */ if (ndents) copycurname(); goto begin; case SEL_STATS: if (!ndents) break; mkpath(path, dents[cur].name, newpath, PATH_MAX); if (lstat(newpath, &sb) == -1) { dentfree(dents); errexit(); } if (show_stats(newpath, dents[cur].name, &sb) < 0) { printwarn(); goto nochange; } break; case SEL_LIST: // fallthrough case SEL_EXTRACT: // fallthrough case SEL_MEDIA: // fallthrough case SEL_FMEDIA: if (!ndents) break; mkpath(path, dents[cur].name, newpath, PATH_MAX); if (sel == SEL_MEDIA || sel == SEL_FMEDIA) r = show_mediainfo(newpath, run); else r = handle_archive(newpath, run, path); if (r == -1) { xstrlcpy(newpath, "missing ", PATH_MAX); if (sel == SEL_MEDIA || sel == SEL_FMEDIA) xstrlcpy(newpath + 8, utils[cfg.metaviewer], 32); else xstrlcpy(newpath + 8, utils[ATOOL], 32); printmsg(newpath); goto nochange; } /* In case of successful archive extract, reload contents */ if (sel == SEL_EXTRACT) { /* Continue in navigate-as-you-type mode, if enabled */ if (cfg.filtermode) presel = FILTER; /* Save current */ copycurname(); /* Repopulate as directory content may have changed */ goto begin; } break; case SEL_FSIZE: cfg.sizeorder ^= 1; cfg.mtimeorder = 0; cfg.apparentsz = 0; cfg.blkorder = 0; cfg.copymode = 0; /* Save current */ if (ndents) copycurname(); goto begin; case SEL_ASIZE: cfg.apparentsz ^= 1; if (cfg.apparentsz) { nftw_fn = &sum_sizes; cfg.blkorder = 1; BLK_SHIFT = 0; } else cfg.blkorder = 0; // fallthrough case SEL_BSIZE: if (sel == SEL_BSIZE) { if (!cfg.apparentsz) cfg.blkorder ^= 1; nftw_fn = &sum_bsizes; cfg.apparentsz = 0; BLK_SHIFT = ffs(S_BLKSIZE) - 1; } if (cfg.blkorder) { cfg.showdetail = 1; printptr = &printent_long; } cfg.mtimeorder = 0; cfg.sizeorder = 0; cfg.copymode = 0; /* Save current */ if (ndents) copycurname(); goto begin; case SEL_MTIME: cfg.mtimeorder ^= 1; cfg.sizeorder = 0; cfg.apparentsz = 0; cfg.blkorder = 0; cfg.copymode = 0; /* Save current */ if (ndents) copycurname(); goto begin; case SEL_REDRAW: /* Save current */ if (ndents) copycurname(); goto begin; case SEL_COPY: if (!ndents) goto nochange; if (cfg.copymode) { /* * Clear the tmp copy path file on first copy. * * This ensures that when the first file path is * copied into memory (but not written to tmp file * yet to save on writes), the tmp file is cleared. * The user may be in the middle of selection mode op * and issue a cp, mv of multi-rm assuming the files * in the copy list would be affected. However, these * ops read the source file paths from the tmp file. */ if (!ncp) writecp(NULL, 0); r = mkpath(path, dents[cur].name, newpath, PATH_MAX); if (!appendfpath(newpath, r)) goto nochange; ++ncp; } else { r = mkpath(path, dents[cur].name, newpath, PATH_MAX); /* Keep the copy buf in sync */ copybufpos = 0; appendfpath(newpath, r); writecp(newpath, r - 1); /* Truncate NULL from end */ if (copier) spawn(copier, NULL, NULL, NULL, F_NOTRACE); } printmsg(newpath); goto nochange; case SEL_COPYMUL: if (!ndents) goto nochange; cfg.copymode ^= 1; if (cfg.copymode) { g_crc = crc8fast((uchar *)dents, ndents * sizeof(struct entry)); copystartid = cur; copybufpos = 0; ncp = 0; printmsg("selection on"); DPRINTF_S("selection on"); goto nochange; } if (!ncp) { /* Handle range selection */ if (cur < copystartid) { copyendid = copystartid; copystartid = cur; } else copyendid = cur; if (copystartid < copyendid) { for (r = copystartid; r <= copyendid; ++r) if (!appendfpath(newpath, mkpath(path, dents[r].name, newpath, PATH_MAX))) goto nochange; snprintf(newpath, PATH_MAX, "%d files copied", copyendid - copystartid + 1); printmsg(newpath); } } if (copybufpos) { /* File path(s) written to the buffer */ writecp(pcopybuf, copybufpos - 1); /* Truncate NULL from end */ if (copier) spawn(copier, NULL, NULL, NULL, F_NOTRACE); if (ncp) { /* Some files cherry picked */ snprintf(newpath, PATH_MAX, "%d files copied", ncp); printmsg(newpath); } } else printmsg("selection off"); goto nochange; case SEL_COPYLIST: if (copybufpos) showcplist(); else printmsg("none selected"); goto nochange; case SEL_CP: case SEL_MV: case SEL_RMMUL: { /* Fail if copy file path not generated */ if (!g_cppath[0]) { printmsg("copy file not found"); goto nochange; } /* Warn if selection not completed */ if (cfg.copymode) { printmsg("finish selection first"); goto nochange; } /* Fail if copy file path isn't created */ if (access(g_cppath, R_OK) == -1) { printmsg("empty selection list"); goto nochange; } if (sel == SEL_CP) { snprintf(g_buf, MAX_CMD_LEN, #ifdef __linux__ "xargs -0 -a %s -%c src cp -iRp src .", #else "cat %s | xargs -0 -o -%c src cp -iRp src .", #endif g_cppath, REPLACE_STR); } else if (sel == SEL_MV) { snprintf(g_buf, MAX_CMD_LEN, #ifdef __linux__ "xargs -0 -a %s -%c src mv -i src .", #else "cat %s | xargs -0 -o -%c src mv -i src .", #endif g_cppath, REPLACE_STR); } else { /* SEL_RMMUL */ snprintf(g_buf, MAX_CMD_LEN, #ifdef __linux__ "xargs -0 -a %s rm -ir", #else "cat %s | xargs -0 -o rm -ir", #endif g_cppath); } spawn("sh", "-c", g_buf, path, F_NORMAL | F_SIGINT); copycurname(); if (cfg.filtermode) presel = FILTER; goto begin; } case SEL_RM: if (!ndents) break; mkpath(path, dents[cur].name, newpath, PATH_MAX); spawn("rm", "-ir", newpath, NULL, F_NORMAL | F_SIGINT); lastname[0] = '\0'; if (cfg.filtermode) presel = FILTER; goto begin; case SEL_OPEN: // fallthrough case SEL_ARCHIVE: if (!ndents) break; // fallthrough case SEL_LAUNCH: // fallthrough case SEL_NEW: if (sel == SEL_OPEN) tmp = xreadline(NULL, "open with: "); else if (sel == SEL_LAUNCH) tmp = xreadline(NULL, "launch: "); else if (sel == SEL_ARCHIVE) tmp = xreadline(dents[cur].name, "name: "); else tmp = xreadline(NULL, "name: "); if (tmp == NULL || tmp[0] == '\0') break; /* Allow only relative, same dir paths */ if ((sel != SEL_LAUNCH) && (tmp[0] == '/' || strcmp(xbasename(tmp), tmp) != 0)) { printmsg(messages[STR_INPUT_ID]); goto nochange; } if (sel == SEL_OPEN) { r = get_input("press 'c' for cli mode"); if (r == 'c') r = F_NORMAL; else r = F_NOWAIT | F_NOTRACE; mkpath(path, dents[cur].name, newpath, PATH_MAX); spawn(tmp, newpath, NULL, path, r); continue; } if (sel == SEL_LAUNCH) { uint args = 0; char *ptr = tmp, *ptr1 = NULL, *ptr2 = NULL; while (*ptr) { if (*ptr == ' ') { *ptr = '\0'; if (args == 0) ptr1 = ptr + 1; else if (args == 1) ptr2 = ptr + 1; else break; ++args; } ++ptr; } spawn(tmp, ptr1, ptr2, path, F_NOWAIT | F_NOTRACE); break; } if (sel == SEL_ARCHIVE) { /* newpath is used as temporary buffer */ if (!get_output(newpath, PATH_MAX, "which", utils[APACK], NULL, 0)) { printmsg("apack missing"); continue; } spawn(utils[APACK], tmp, dents[cur].name, path, F_NORMAL); /* Continue in navigate-as-you-type mode, if enabled */ if (cfg.filtermode) presel = FILTER; /* Save current */ copycurname(); /* Repopulate as directory content may have changed */ goto begin; } /* Open the descriptor to currently open directory */ fd = open(path, O_RDONLY | O_DIRECTORY); if (fd == -1) { printwarn(); goto nochange; } /* Check if another file with same name exists */ if (faccessat(fd, tmp, F_OK, AT_SYMLINK_NOFOLLOW) != -1) { printmsg("entry exists"); goto nochange; } /* Check if it's a dir or file */ r = get_input("press 'f'(ile) or 'd'(ir)"); if (r == 'f') { r = openat(fd, tmp, O_CREAT, 0666); close(r); } else if (r == 'd') r = mkdirat(fd, tmp, 0777); else { close(fd); break; } if (r == -1) { printwarn(); close(fd); goto nochange; } close(fd); xstrlcpy(lastname, tmp, NAME_MAX + 1); goto begin; case SEL_RENAME: if (!ndents) break; tmp = xreadline(dents[cur].name, ""); if (tmp == NULL || tmp[0] == '\0') break; /* Allow only relative, same dir paths */ if (tmp[0] == '/' || strcmp(xbasename(tmp), tmp) != 0) { printmsg(messages[STR_INPUT_ID]); goto nochange; } /* Skip renaming to same name */ if (strcmp(tmp, dents[cur].name) == 0) break; /* Open the descriptor to currently open directory */ fd = open(path, O_RDONLY | O_DIRECTORY); if (fd == -1) { printwarn(); goto nochange; } /* Check if another file with same name exists */ if (faccessat(fd, tmp, F_OK, AT_SYMLINK_NOFOLLOW) != -1) { /* File with the same name exists */ if (get_input("press 'y' to overwrite") != 'y') { close(fd); break; } } /* Rename the file */ if (renameat(fd, dents[cur].name, fd, tmp) != 0) { printwarn(); close(fd); goto nochange; } close(fd); xstrlcpy(lastname, tmp, NAME_MAX + 1); goto begin; case SEL_RENAMEALL: if (!get_output(g_buf, MAX_CMD_LEN, "which", utils[VIDIR], NULL, 0)) { printmsg("vidir missing"); goto nochange; } spawn(utils[VIDIR], ".", NULL, path, F_NORMAL); /* Save current */ if (ndents) copycurname(); goto begin; case SEL_HELP: show_help(path); /* Continue in navigate-as-you-type mode, if enabled */ if (cfg.filtermode) presel = FILTER; break; case SEL_RUN: // fallthrough case SEL_RUNSCRIPT: run = xgetenv(env, run); if (sel == SEL_RUNSCRIPT) { tmp = getenv("NNN_SCRIPT"); if (tmp) { if (getenv("NNN_MULTISCRIPT")) { size_t _len = xstrlcpy(newpath, tmp, PATH_MAX); tmp = xreadline(NULL, "script suffix: "); if (tmp && tmp[0]) xstrlcpy(newpath + _len - 1, tmp, PATH_MAX - _len); tmp = newpath; } char *curfile = NULL; if (ndents) curfile = dents[cur].name; spawn(run, tmp, curfile, path, F_NORMAL | F_SIGINT); } else printmsg("set NNN_SCRIPT"); } else { spawn(run, NULL, NULL, path, F_NORMAL | F_MARKER); /* Continue in navigate-as-you-type mode, if enabled */ if (cfg.filtermode) presel = FILTER; } /* Save current */ if (ndents) copycurname(); /* Repopulate as directory content may have changed */ goto begin; case SEL_RUNARG: tmp = NULL; run = xgetenv(env, run); if ((!run || !run[0]) && (strcmp("VISUAL", env) == 0)) { run = editor; tmp = editor_arg; } spawn(run, dents[cur].name, tmp, path, F_NORMAL); break; case SEL_LOCK: spawn(utils[LOCKER], NULL, NULL, NULL, F_NORMAL | F_SIGINT); break; case SEL_QUITCD: // fallthrough case SEL_QUIT: for (r = 0; r < MAX_CTX; ++r) if (r != cfg.curctx && g_ctx[r].c_cfg.ctxactive) { r = get_input("Quit all contexts? ('Enter' confirms)"); break; } if (!(r == MAX_CTX || r == 13)) break; if (sel == SEL_QUITCD) { /* In vim picker mode, clear selection and exit */ if (cfg.picker) { if (copybufpos) { if (cfg.pickraw) /* Reset for for raw pick */ copybufpos = 0; else /* Clear the picker file */ writecp(NULL, 0); } dentfree(dents); return; } tmp = getenv("NNN_TMPFILE"); if (!tmp) { printmsg("set NNN_TMPFILE"); goto nochange; } FILE *fp = fopen(tmp, "w"); if (fp) { fprintf(fp, "cd \"%s\"", path); fclose(fp); } } // fallthrough case SEL_QUITCTX: if (sel == SEL_QUITCTX) { uint iter = 1; r = cfg.curctx; while (iter < MAX_CTX) { (r == MAX_CTX - 1) ? (r = 0) : ++r; if (g_ctx[r].c_cfg.ctxactive) { g_ctx[cfg.curctx].c_cfg.ctxactive = 0; /* Switch to next active context */ path = g_ctx[r].c_path; ipath = g_ctx[r].c_init; lastdir = g_ctx[r].c_last; lastname = g_ctx[r].c_name; cfg = g_ctx[r].c_cfg; hfltr = g_ctx[r].c_fltr; cfg.curctx = r; setdirwatch(); goto begin; } ++iter; } } dentfree(dents); return; } /* switch (sel) */ /* Locker */ if (idletimeout != 0 && idle == idletimeout) { idle = 0; spawn(utils[LOCKER], NULL, NULL, NULL, F_NORMAL | F_SIGINT); } } } static void usage(void) { fprintf(stdout, "usage: nnn [-b key] [-c N] [-e] [-i] [-l]\n" " [-p file] [-S] [-v] [-h] [PATH]\n\n" "The missing terminal file manager for X.\n\n" "positional args:\n" " PATH start dir [default: current dir]\n\n" "optional args:\n" " -b key bookmark key to open\n" " -c N dir color, disables if N>7\n" " -e use exiftool instead of mediainfo\n" " -i start in navigate-as-you-type mode\n" " -l start in light mode\n" " -p file copy selection to file (stdout if '-')\n" " -S start in disk usage analyser mode\n" " -v show program version\n" " -h show this help\n\n" "Version: %s\n%s\n", VERSION, GENERAL_INFO); } int main(int argc, char *argv[]) { static char cwd[PATH_MAX] __attribute__ ((aligned)); char *ipath = NULL; int opt; /* Confirm we are in a terminal */ if (!isatty(0) || !isatty(1)) { fprintf(stderr, "stdin or stdout is not a tty\n"); exit(1); } while ((opt = getopt(argc, argv, "Slib:c:ep:vh")) != -1) { switch (opt) { case 'S': cfg.blkorder = 1; nftw_fn = sum_bsizes; BLK_SHIFT = ffs(S_BLKSIZE) - 1; break; case 'l': cfg.showdetail = 0; printptr = &printent; break; case 'i': cfg.filtermode = 1; break; case 'b': ipath = optarg; break; case 'c': if (atoi(optarg) > 7) cfg.showcolor = 0; else cfg.color = (uchar)atoi(optarg); break; case 'e': cfg.metaviewer = EXIFTOOL; break; case 'p': cfg.picker = 1; if (optarg[0] == '-' && optarg[1] == '\0') cfg.pickraw = 1; else { /* copier used as tmp var */ copier = realpath(optarg, g_cppath); if (!g_cppath[0]) { fprintf(stderr, "%s\n", strerror(errno)); exit(1); } } break; case 'v': fprintf(stdout, "%s\n", VERSION); return 0; case 'h': usage(); return 0; default: usage(); exit(1); } } /* Parse bookmarks string */ if (parsebmstr() < 0) { fprintf(stderr, "ERROR parsing NNN_BMS: set single-char bookmark keys only\n"); exit(1); } if (ipath) { /* Open a bookmark directly */ if (ipath[1] || get_bm_loc(*ipath, cwd) == NULL) { fprintf(stderr, "%s\n", messages[STR_INVBM_KEY]); exit(1); } ipath = cwd; } else if (argc == optind) { /* Start in the current directory */ ipath = getcwd(cwd, PATH_MAX); if (ipath == NULL) ipath = "/"; } else { ipath = realpath(argv[optind], cwd); if (!ipath) { fprintf(stderr, "%s: no such dir\n", argv[optind]); exit(1); } } /* Increase current open file descriptor limit */ open_max = max_openfds(); if (getuid() == 0 || getenv("NNN_SHOW_HIDDEN")) cfg.showhidden = 1; /* Get VISUAL/EDITOR */ editor = xgetenv("VISUAL", xgetenv("EDITOR", "vi")); getprogarg(editor, &editor_arg); /* Get PAGER */ pager = xgetenv("PAGER", "less"); getprogarg(pager, &pager_arg); /* Edit text in EDITOR, if opted */ if (getenv("NNN_USE_EDITOR")) cfg.useeditor = 1; #ifdef LINUX_INOTIFY /* Initialize inotify */ inotify_fd = inotify_init1(IN_NONBLOCK); if (inotify_fd < 0) { fprintf(stderr, "inotify init! %s\n", strerror(errno)); exit(1); } #elif defined(BSD_KQUEUE) kq = kqueue(); if (kq < 0) { fprintf(stderr, "kqueue init! %s\n", strerror(errno)); exit(1); } #endif /* Get locker wait time, if set; copier used as tmp var */ copier = getenv("NNN_IDLE_TIMEOUT"); if (copier) { opt = atoi(copier); idletimeout = opt * ((opt > 0) - (opt < 0)); } /* Get the clipboard copier, if set */ copier = getenv("NNN_COPIER"); if (getenv("HOME")) g_tmpfplen = xstrlcpy(g_tmpfpath, getenv("HOME"), MAX_HOME_LEN); else if (getenv("TMPDIR")) g_tmpfplen = xstrlcpy(g_tmpfpath, getenv("TMPDIR"), MAX_HOME_LEN); else if (xdiraccess("/tmp")) g_tmpfplen = xstrlcpy(g_tmpfpath, "/tmp", MAX_HOME_LEN); if (!cfg.picker && g_tmpfplen) { xstrlcpy(g_cppath, g_tmpfpath, MAX_HOME_LEN); xstrlcpy(g_cppath + g_tmpfplen - 1, "/.nnncp", MAX_HOME_LEN - g_tmpfplen); } /* Disable auto-select if opted */ if (getenv("NNN_NO_AUTOSELECT")) cfg.autoselect = 0; /* Disable opening files on right arrow and `l` */ if (getenv("DISABLE_FILE_OPEN_ON_NAV")) cfg.nonavopen = 1; signal(SIGINT, SIG_IGN); signal(SIGQUIT, SIG_IGN); /* Test initial path */ if (!xdiraccess(ipath)) { fprintf(stderr, "%s: %s\n", ipath, strerror(errno)); exit(1); } /* Set locale */ setlocale(LC_ALL, ""); crc8init(); #ifdef DEBUGMODE enabledbg(); #endif initcurses(); browse(ipath); exitcurses(); if (cfg.pickraw) { if (copybufpos) { opt = selectiontofd(1); if (opt != (int)(copybufpos)) fprintf(stderr, "%s\n", strerror(errno)); } } else if (!cfg.picker && g_cppath[0]) unlink(g_cppath); /* Free the copy buffer */ free(pcopybuf); #ifdef LINUX_INOTIFY /* Shutdown inotify */ if (inotify_wd >= 0) inotify_rm_watch(inotify_fd, inotify_wd); close(inotify_fd); #elif defined(BSD_KQUEUE) if (event_fd >= 0) close(event_fd); close(kq); #endif #ifdef DEBUGMODE disabledbg(); #endif exit(0); }