/* * Copyright (C) 2006-2015 Red Hat, Inc. All rights reserved. * * This file is part of the device-mapper userspace tools. * * This copyrighted material is made available to anyone wishing to use, * modify, copy, or redistribute it subject to the terms and conditions * of the GNU Lesser General Public License v.2.1. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "libdm/misc/dmlib.h" #include #include #include /* fabs() */ #include /* DBL_EPSILON */ /* * consume characters while they match the predicate function. */ static char *_consume(char *buffer, int (*fn) (int)) { while (*buffer && fn(*buffer)) buffer++; return buffer; } static int _isword(int c) { return !isspace(c); } /* * Split buffer into NULL-separated words in argv. * Returns number of words. */ int dm_split_words(char *buffer, unsigned max, unsigned ignore_comments __attribute__((unused)), char **argv) { unsigned arg; for (arg = 0; arg < max; arg++) { buffer = _consume(buffer, isspace); if (!*buffer) break; argv[arg] = buffer; buffer = _consume(buffer, _isword); if (*buffer) { *buffer = '\0'; buffer++; } } return arg; } /* * Remove hyphen quoting from a component of a name. * NULL-terminates the component and returns start of next component. */ static char *_unquote(char *component) { char *c = component; char *o = c; char *r; while (*c) { if (*(c + 1)) { if (*c == '-') { if (*(c + 1) == '-') c++; else break; } } *o = *c; o++; c++; } r = (*c) ? c + 1 : c; *o = '\0'; return r; } int dm_split_lvm_name(struct dm_pool *mem, const char *dmname, char **vgname, char **lvname, char **layer) { if (!vgname || !lvname || !layer) { log_error(INTERNAL_ERROR "dm_split_lvm_name: Forbidden NULL parameter detected."); return 0; } if (mem && (!dmname || !(*vgname = dm_pool_strdup(mem, dmname)))) { log_error("Failed to duplicate lvm name."); return 0; } else if (!*vgname) { log_error("Missing lvm name for split."); return 0; } _unquote(*layer = _unquote(*lvname = _unquote(*vgname))); return 1; } /* * On error, up to glibc 2.0.6, snprintf returned -1 if buffer was too small; * From glibc 2.1 it returns number of chars (excl. trailing null) that would * have been written had there been room. * * dm_snprintf reverts to the old behaviour. */ int dm_snprintf(char *buf, size_t bufsize, const char *format, ...) { int n; va_list ap; va_start(ap, format); n = vsnprintf(buf, bufsize, format, ap); va_end(ap); if (n < 0 || ((unsigned) n >= bufsize)) return -1; return n; } const char *dm_basename(const char *path) { const char *p = strrchr(path, '/'); return p ? p + 1 : path; } int dm_vasprintf(char **result, const char *format, va_list aq) { int i, n, size = 16; va_list ap; char *buf = dm_malloc(size); *result = 0; if (!buf) return -1; for (i = 0;; i++) { va_copy(ap, aq); n = vsnprintf(buf, size, format, ap); va_end(ap); if (0 <= n && n < size) break; dm_free(buf); /* Up to glibc 2.0.6 returns -1 */ size = (n < 0) ? size * 2 : n + 1; if (!(buf = dm_malloc(size))) return -1; } if (i > 1) { /* Reallocating more then once? */ if (!(*result = dm_strdup(buf))) { dm_free(buf); return -1; } dm_free(buf); } else *result = buf; return n + 1; } int dm_asprintf(char **result, const char *format, ...) { int r; va_list ap; va_start(ap, format); r = dm_vasprintf(result, format, ap); va_end(ap); return r; } /* * Count occurrences of 'c' in 'str' until we reach a null char. * * Returns: * len - incremented for each char we encounter. * count - number of occurrences of 'c' and 'c2'. */ static void _count_chars(const char *str, size_t *len, int *count, const int c1, const int c2) { const char *ptr; for (ptr = str; *ptr; ptr++, (*len)++) if (*ptr == c1 || *ptr == c2) (*count)++; } /* * Count occurrences of 'c' in 'str' of length 'size'. * * Returns: * Number of occurrences of 'c' */ unsigned dm_count_chars(const char *str, size_t len, const int c) { size_t i; unsigned count = 0; for (i = 0; i < len; i++) if (str[i] == c) count++; return count; } /* * Length of string after escaping double quotes and backslashes. */ size_t dm_escaped_len(const char *str) { size_t len = 1; int count = 0; _count_chars(str, &len, &count, '\"', '\\'); return count + len; } /* * Copies a string, quoting orig_char with quote_char. * Optionally also quote quote_char. */ static void _quote_characters(char **out, const char *src, const int orig_char, const int quote_char, int quote_quote_char) { while (*src) { if (*src == orig_char || (*src == quote_char && quote_quote_char)) *(*out)++ = quote_char; *(*out)++ = *src++; } } static void _unquote_one_character(char *src, const char orig_char, const char quote_char) { char *out; char s, n; /* Optimise for the common case where no changes are needed. */ while ((s = *src++)) { if (s == quote_char && ((n = *src) == orig_char || n == quote_char)) { out = src++; *(out - 1) = n; while ((s = *src++)) { if (s == quote_char && ((n = *src) == orig_char || n == quote_char)) { s = n; src++; } *out = s; out++; } *out = '\0'; return; } } } /* * Unquote each character given in orig_char array and unquote quote_char * as well. Also save the first occurrence of each character from orig_char * that was found unquoted in arr_substr_first_unquoted array. This way we can * process several characters in one go. */ static void _unquote_characters(char *src, const char *orig_chars, size_t num_orig_chars, const char quote_char, char *arr_substr_first_unquoted[]) { char *out = src; char c, s, n; unsigned i; while ((s = *src++)) { for (i = 0; i < num_orig_chars; i++) { c = orig_chars[i]; if (s == quote_char && ((n = *src) == c || n == quote_char)) { s = n; src++; break; } if (arr_substr_first_unquoted && (s == c) && !arr_substr_first_unquoted[i]) arr_substr_first_unquoted[i] = out; }; *out++ = s; } *out = '\0'; } /* * Copies a string, quoting hyphens with hyphens. */ static void _quote_hyphens(char **out, const char *src) { _quote_characters(out, src, '-', '-', 0); } /* * -- or if !layer just -. */ char *dm_build_dm_name(struct dm_pool *mem, const char *vgname, const char *lvname, const char *layer) { size_t len = 1; int hyphens = 1; char *r, *out; _count_chars(vgname, &len, &hyphens, '-', 0); _count_chars(lvname, &len, &hyphens, '-', 0); if (layer && *layer) { _count_chars(layer, &len, &hyphens, '-', 0); hyphens++; } len += hyphens; if (!(r = dm_pool_alloc(mem, len))) { log_error("build_dm_name: Allocation failed for %" PRIsize_t " for %s %s %s.", len, vgname, lvname, layer); return NULL; } out = r; _quote_hyphens(&out, vgname); *out++ = '-'; _quote_hyphens(&out, lvname); if (layer && *layer) { /* No hyphen if the layer begins with _ e.g. _mlog */ if (*layer != '_') *out++ = '-'; _quote_hyphens(&out, layer); } *out = '\0'; return r; } char *dm_build_dm_uuid(struct dm_pool *mem, const char *uuid_prefix, const char *lvid, const char *layer) { char *dmuuid; size_t len; if (!layer) layer = ""; len = strlen(uuid_prefix) + strlen(lvid) + strlen(layer) + 2; if (!(dmuuid = dm_pool_alloc(mem, len))) { log_error("build_dm_name: Allocation failed for %" PRIsize_t " %s %s.", len, lvid, layer); return NULL; } snprintf(dmuuid, len, "%s%s%s%s", uuid_prefix, lvid, (*layer) ? "-" : "", layer); return dmuuid; } /* * Copies a string, quoting double quotes with backslashes. */ char *dm_escape_double_quotes(char *out, const char *src) { char *buf = out; _quote_characters(&buf, src, '\"', '\\', 1); *buf = '\0'; return out; } /* * Undo quoting in situ. */ void dm_unescape_double_quotes(char *src) { _unquote_one_character(src, '\"', '\\'); } /* * Unescape colons and "at" signs in situ and save the substrings * starting at the position of the first unescaped colon and the * first unescaped "at" sign. This is normally used to unescape * device names used as PVs. */ void dm_unescape_colons_and_at_signs(char *src, char **substr_first_unquoted_colon, char **substr_first_unquoted_at_sign) { const char *orig_chars = ":@"; char *arr_substr_first_unquoted[] = {NULL, NULL, NULL}; _unquote_characters(src, orig_chars, 2, '\\', arr_substr_first_unquoted); if (substr_first_unquoted_colon) *substr_first_unquoted_colon = arr_substr_first_unquoted[0]; if (substr_first_unquoted_at_sign) *substr_first_unquoted_at_sign = arr_substr_first_unquoted[1]; } int dm_strncpy(char *dest, const char *src, size_t n) { if (memccpy(dest, src, 0, n)) return 1; if (n > 0) dest[n - 1] = '\0'; return 0; } /* Test if the doubles are close enough to be considered equal */ static int _close_enough(double d1, double d2) { return fabs(d1 - d2) < DBL_EPSILON; } #define BASE_UNKNOWN 0 #define BASE_SHARED 1 #define BASE_1024 8 #define BASE_1000 15 #define BASE_SPECIAL 21 #define NUM_UNIT_PREFIXES 6 #define NUM_SPECIAL 3 #define SIZE_BUF 128 const char *dm_size_to_string(struct dm_pool *mem, uint64_t size, char unit_type, int use_si_units, uint64_t unit_factor, int include_suffix, dm_size_suffix_t suffix_type) { unsigned base = BASE_UNKNOWN; unsigned s; int precision; double d; uint64_t byte = UINT64_C(0); uint64_t units = UINT64_C(1024); char *size_buf = NULL; char new_unit_type = '\0', unit_type_buf[2]; const char *prefix = ""; const char * const size_str[][3] = { /* BASE_UNKNOWN */ {" ", " ", " "}, /* [0] */ /* BASE_SHARED - Used if use_si_units = 0 */ {" Exabyte", " EB", "E"}, /* [1] */ {" Petabyte", " PB", "P"}, /* [2] */ {" Terabyte", " TB", "T"}, /* [3] */ {" Gigabyte", " GB", "G"}, /* [4] */ {" Megabyte", " MB", "M"}, /* [5] */ {" Kilobyte", " KB", "K"}, /* [6] */ {" Byte ", " B", "B"}, /* [7] */ /* BASE_1024 - Used if use_si_units = 1 */ {" Exbibyte", " EiB", "e"}, /* [8] */ {" Pebibyte", " PiB", "p"}, /* [9] */ {" Tebibyte", " TiB", "t"}, /* [10] */ {" Gibibyte", " GiB", "g"}, /* [11] */ {" Mebibyte", " MiB", "m"}, /* [12] */ {" Kibibyte", " KiB", "k"}, /* [13] */ {" Byte ", " B", "b"}, /* [14] */ /* BASE_1000 - Used if use_si_units = 1 */ {" Exabyte", " EB", "E"}, /* [15] */ {" Petabyte", " PB", "P"}, /* [16] */ {" Terabyte", " TB", "T"}, /* [17] */ {" Gigabyte", " GB", "G"}, /* [18] */ {" Megabyte", " MB", "M"}, /* [19] */ {" Kilobyte", " kB", "K"}, /* [20] */ /* BASE_SPECIAL */ {" Byte ", " B ", "B"}, /* [21] (shared with BASE_1000) */ {" Units ", " Un", "U"}, /* [22] */ {" Sectors ", " Se", "S"}, /* [23] */ }; if (!(size_buf = dm_pool_alloc(mem, SIZE_BUF))) { log_error("no memory for size display buffer"); return ""; } if (!use_si_units) { /* Case-independent match */ for (s = 0; s < NUM_UNIT_PREFIXES; s++) if (toupper((int) unit_type) == *size_str[BASE_SHARED + s][2]) { base = BASE_SHARED; break; } } else { /* Case-dependent match for powers of 1000 */ for (s = 0; s < NUM_UNIT_PREFIXES; s++) if (unit_type == *size_str[BASE_1000 + s][2]) { base = BASE_1000; break; } /* Case-dependent match for powers of 1024 */ if (base == BASE_UNKNOWN) for (s = 0; s < NUM_UNIT_PREFIXES; s++) if (unit_type == *size_str[BASE_1024 + s][2]) { base = BASE_1024; break; } } if (base == BASE_UNKNOWN) /* Check for special units - s, b or u */ for (s = 0; s < NUM_SPECIAL; s++) if (toupper((int) unit_type) == *size_str[BASE_SPECIAL + s][2]) { base = BASE_SPECIAL; break; } if (size == UINT64_C(0)) { if (base == BASE_UNKNOWN) s = 0; snprintf(size_buf, SIZE_BUF, "0%s", include_suffix ? size_str[base + s][suffix_type] : ""); return size_buf; } size *= UINT64_C(512); if (base != BASE_UNKNOWN) { if (!unit_factor) { unit_type_buf[0] = unit_type; unit_type_buf[1] = '\0'; if (!(unit_factor = dm_units_to_factor(&unit_type_buf[0], &new_unit_type, 1, NULL)) || unit_type != new_unit_type) { /* The two functions should match (and unrecognised units get treated like 'h'). */ log_error(INTERNAL_ERROR "Inconsistent units: %c and %c.", unit_type, new_unit_type); return ""; } } byte = unit_factor; } else { /* Human-readable style */ if (unit_type == 'H' || unit_type == 'R') { units = UINT64_C(1000); base = BASE_1000; } else { units = UINT64_C(1024); base = BASE_1024; } if (!use_si_units) base = BASE_SHARED; byte = units * units * units * units * units * units; for (s = 0; s < NUM_UNIT_PREFIXES && size < byte; s++) byte /= units; if ((s < NUM_UNIT_PREFIXES) && ((unit_type == 'R') || (unit_type == 'r'))) { /* When the rounding would cause difference, add '<' prefix * i.e. 2043M is more then 1.9949G prints <2.00G * This version is for 2 digits fixed precision */ d = 100. * (double) size / byte; if (!_close_enough(floorl(d), nearbyintl(d))) prefix = "<"; } include_suffix = 1; } /* FIXME Make precision configurable */ switch (toupper(*size_str[base + s][DM_SIZE_UNIT])) { case 'B': case 'S': precision = 0; break; default: precision = 2; } snprintf(size_buf, SIZE_BUF, "%s%.*f%s", prefix, precision, (double) size / byte, include_suffix ? size_str[base + s][suffix_type] : ""); return size_buf; } uint64_t dm_units_to_factor(const char *units, char *unit_type, int strict, const char **endptr) { char *ptr = NULL; uint64_t v; double custom_value = 0; uint64_t multiplier; if (endptr) *endptr = units; if (isdigit(*units)) { custom_value = strtod(units, &ptr); if (ptr == units) return 0; v = (uint64_t) strtoull(units, NULL, 10); if (_close_enough((double) v, custom_value)) custom_value = 0; /* Use integer arithmetic */ units = ptr; } else v = 1; /* Only one units char permitted in strict mode. */ if (strict && units[0] && units[1]) return 0; if (v == 1) *unit_type = *units; else *unit_type = 'U'; switch (*units) { case 'h': case 'H': case 'r': case 'R': multiplier = v = UINT64_C(1); *unit_type = *units; break; case 'b': case 'B': multiplier = UINT64_C(1); break; #define KILO UINT64_C(1024) case 's': case 'S': multiplier = (KILO/2); break; case 'k': multiplier = KILO; break; case 'm': multiplier = KILO * KILO; break; case 'g': multiplier = KILO * KILO * KILO; break; case 't': multiplier = KILO * KILO * KILO * KILO; break; case 'p': multiplier = KILO * KILO * KILO * KILO * KILO; break; case 'e': multiplier = KILO * KILO * KILO * KILO * KILO * KILO; break; #undef KILO #define KILO UINT64_C(1000) case 'K': multiplier = KILO; break; case 'M': multiplier = KILO * KILO; break; case 'G': multiplier = KILO * KILO * KILO; break; case 'T': multiplier = KILO * KILO * KILO * KILO; break; case 'P': multiplier = KILO * KILO * KILO * KILO * KILO; break; case 'E': multiplier = KILO * KILO * KILO * KILO * KILO * KILO; break; #undef KILO default: return 0; } if (endptr) *endptr = units + 1; if (_close_enough(custom_value, 0.)) return v * multiplier; /* Use integer arithmetic */ else return (uint64_t) (custom_value * multiplier); }