/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2010 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include /* * functions and structures to internally process a comma-separated string * of fields selected for output. */ typedef struct { char *s_buf; const char **s_fields; /* array of pointers to the fields in s_buf */ uint_t s_nfields; /* the number of fields in s_buf */ uint_t s_currfield; /* the current field being processed */ } split_t; static void splitfree(split_t *); static split_t *split_str(const char *, uint_t); static split_t *split_fields(const ofmt_field_t *, uint_t, uint_t); /* * The state of the output is tracked in a ofmt_state_t structure. * Each os_fields[i] entry points at an ofmt_field_t array for * the sub-command whose contents are provided by the caller, with * os_nfields set to the number of requested fields. */ typedef struct ofmt_state_s { ofmt_field_t *os_fields; uint_t os_nfields; boolean_t os_lastfield; uint_t os_overflow; struct winsize os_winsize; int os_nrow; uint_t os_flags; int os_nbad; char **os_badfields; int os_maxnamelen; /* longest name (f. multiline) */ } ofmt_state_t; /* * A B_TRUE return value from the callback function will print out the contents * of the output buffer, except when the buffer is returned with the empty * string "", in which case the OFMT_VAL_UNDEF will be printed. * * If the callback function returns B_FALSE, the "?" string will be emitted. */ #define OFMT_VAL_UNDEF "--" #define OFMT_VAL_UNKNOWN "?" /* * The maximum number of rows supported by the OFMT_WRAP option. */ #define OFMT_MAX_ROWS 128 static void ofmt_print_header(ofmt_state_t *); static void ofmt_print_field(ofmt_state_t *, ofmt_field_t *, const char *, boolean_t); /* * Split `str' into at most `maxfields' fields, Return a pointer to a * split_t containing the split fields, or NULL on failure. */ static split_t * split_str(const char *str, uint_t maxfields) { char *field, *token, *lasts = NULL; split_t *sp; if (*str == '\0' || maxfields == 0) return (NULL); sp = calloc(sizeof (split_t), 1); if (sp == NULL) return (NULL); sp->s_buf = strdup(str); sp->s_fields = malloc(sizeof (char *) * maxfields); if (sp->s_buf == NULL || sp->s_fields == NULL) goto fail; token = sp->s_buf; while ((field = strtok_r(token, ",", &lasts)) != NULL) { if (sp->s_nfields == maxfields) goto fail; token = NULL; sp->s_fields[sp->s_nfields++] = field; } return (sp); fail: splitfree(sp); return (NULL); } /* * Split `fields' into at most `maxfields' fields. Return a pointer to * a split_t containing the split fields, or NULL on failure. Invoked * when all fields are implicitly selected at handle creation by * passing in a NULL fields_str */ static split_t * split_fields(const ofmt_field_t *template, uint_t maxfields, uint_t maxcols) { split_t *sp; int i, cols; sp = calloc(sizeof (split_t), 1); if (sp == NULL) return (NULL); sp->s_fields = malloc(sizeof (char *) * maxfields); if (sp->s_fields == NULL) goto fail; cols = 0; for (i = 0; i < maxfields; i++) { cols += template[i].of_width; /* * If all fields are implied without explicitly passing * in a fields_str, build a list of field names, stopping * when we run out of columns. */ if (maxcols > 0 && cols > maxcols) break; sp->s_fields[sp->s_nfields++] = template[i].of_name; } return (sp); fail: splitfree(sp); return (NULL); } /* * Free the split_t structure pointed to by `sp'. */ static void splitfree(split_t *sp) { if (sp == NULL) return; free(sp->s_buf); free(sp->s_fields); free(sp); } /* * Open a handle to be used for printing formatted output. */ ofmt_status_t ofmt_open(const char *str, const ofmt_field_t *template, uint_t flags, uint_t maxcols, ofmt_handle_t *ofmt) { split_t *sp; uint_t i, j, of_index; const ofmt_field_t *ofp; ofmt_field_t *of; ofmt_state_t *os; int nfields = 0; ofmt_status_t err = OFMT_SUCCESS; boolean_t parsable = (flags & OFMT_PARSABLE); boolean_t wrap = (flags & OFMT_WRAP); boolean_t multiline = (flags & OFMT_MULTILINE); *ofmt = NULL; if (parsable) { if (multiline) return (OFMT_EPARSEMULTI); /* * For parsable output mode, the caller always needs * to specify precisely which fields are to be selected, * since the set of fields may change over time. */ if (str == NULL || str[0] == '\0') return (OFMT_EPARSENONE); if (strcasecmp(str, "all") == 0) return (OFMT_EPARSEALL); if (wrap) return (OFMT_EPARSEWRAP); } if (template == NULL) return (OFMT_ENOTEMPLATE); for (ofp = template; ofp->of_name != NULL; ofp++) nfields++; /* * split str into the columns selected, or construct the * full set of columns (equivalent to -o all). */ if (str != NULL && strcasecmp(str, "all") != 0) { sp = split_str(str, nfields); } else { if (parsable || (str != NULL && strcasecmp(str, "all") == 0)) maxcols = 0; sp = split_fields(template, nfields, maxcols); } if (sp == NULL) goto nomem; os = calloc(sizeof (ofmt_state_t) + sp->s_nfields * sizeof (ofmt_field_t), 1); if (os == NULL) goto nomem; *ofmt = os; os->os_fields = (ofmt_field_t *)&os[1]; os->os_flags = flags; of = os->os_fields; of_index = 0; /* * sp->s_nfields is the number of fields requested in fields_str. * nfields is the number of fields in template. */ for (i = 0; i < sp->s_nfields; i++) { for (j = 0; j < nfields; j++) { if (strcasecmp(sp->s_fields[i], template[j].of_name) == 0) { break; } } if (j == nfields) { int nbad = os->os_nbad++; err = OFMT_EBADFIELDS; if (os->os_badfields == NULL) { os->os_badfields = malloc(sp->s_nfields * sizeof (char *)); if (os->os_badfields == NULL) goto nomem; } os->os_badfields[nbad] = strdup(sp->s_fields[i]); if (os->os_badfields[nbad] == NULL) goto nomem; continue; } of[of_index].of_name = strdup(template[j].of_name); if (of[of_index].of_name == NULL) goto nomem; if (multiline) { int n = strlen(of[of_index].of_name); os->os_maxnamelen = MAX(n, os->os_maxnamelen); } of[of_index].of_width = template[j].of_width; of[of_index].of_id = template[j].of_id; of[of_index].of_cb = template[j].of_cb; of_index++; } splitfree(sp); if (of_index == 0) /* all values in str are bogus */ return (OFMT_ENOFIELDS); os->os_nfields = of_index; /* actual number of fields printed */ ofmt_update_winsize(*ofmt); return (err); nomem: err = OFMT_ENOMEM; if (os != NULL) ofmt_close(os); *ofmt = NULL; splitfree(sp); return (err); } /* * free resources associated with the ofmt_handle_t */ void ofmt_close(ofmt_handle_t ofmt) { ofmt_state_t *os = ofmt; int i; if (os == NULL) return; for (i = 0; i < os->os_nfields; i++) free(os->os_fields[i].of_name); for (i = 0; i < os->os_nbad; i++) free(os->os_badfields[i]); free(os->os_badfields); free(os); } /* * Print the value for the selected field by calling the callback-function * registered for the field. */ static void ofmt_print_field(ofmt_state_t *os, ofmt_field_t *ofp, const char *value, boolean_t escsep) { uint_t width = ofp->of_width; uint_t valwidth; uint_t compress; boolean_t parsable = (os->os_flags & OFMT_PARSABLE); boolean_t multiline = (os->os_flags & OFMT_MULTILINE); boolean_t rightjust = (os->os_flags & OFMT_RIGHTJUST); char c; /* * Parsable fields are separated by ':'. If such a field contains * a ':' or '\', this character is prefixed by a '\'. */ if (parsable) { if (os->os_nfields == 1) { (void) printf("%s", value); return; } while ((c = *value++) != '\0') { if (escsep && ((c == ':' || c == '\\'))) (void) putchar('\\'); (void) putchar(c); } if (!os->os_lastfield) (void) putchar(':'); } else if (multiline) { if (value[0] == '\0') value = OFMT_VAL_UNDEF; (void) printf("%*.*s: %s", os->os_maxnamelen, os->os_maxnamelen, ofp->of_name, value); if (!os->os_lastfield) (void) putchar('\n'); } else { if (os->os_lastfield) { if (rightjust) (void) printf("%*s", width, value); else (void) printf("%s", value); os->os_overflow = 0; return; } valwidth = strlen(value); if (valwidth + os->os_overflow >= width) { os->os_overflow += valwidth - width + 1; if (rightjust) (void) printf("%*s ", width, value); else (void) printf("%s ", value); return; } if (os->os_overflow > 0) { compress = MIN(os->os_overflow, width - valwidth); os->os_overflow -= compress; width -= compress; } if (rightjust) (void) printf("%*s ", width, value); else (void) printf("%-*s", width, value); } } /* * Print enough to fit the field width. */ static void ofmt_fit_width(split_t **spp, uint_t width, char *value, uint_t bufsize) { split_t *sp = *spp; char *ptr = value, *lim = ptr + bufsize; int i, nextlen; if (sp == NULL) { sp = split_str(value, OFMT_MAX_ROWS); if (sp == NULL) return; *spp = sp; } for (i = sp->s_currfield; i < sp->s_nfields; i++) { ptr += snprintf(ptr, lim - ptr, "%s,", sp->s_fields[i]); if (i + 1 == sp->s_nfields) { nextlen = 0; if (ptr > value) ptr[-1] = '\0'; } else { nextlen = strlen(sp->s_fields[i + 1]); } if (strlen(value) + nextlen > width || ptr >= lim) { i++; break; } } sp->s_currfield = i; } /* * Print one or more rows of output values for the selected columns. */ void ofmt_print(ofmt_handle_t ofmt, void *arg) { ofmt_state_t *os = ofmt; int i; char value[1024]; ofmt_field_t *of; boolean_t escsep, more_rows; ofmt_arg_t ofarg; split_t **sp = NULL; boolean_t parsable = (os->os_flags & OFMT_PARSABLE); boolean_t multiline = (os->os_flags & OFMT_MULTILINE); boolean_t wrap = (os->os_flags & OFMT_WRAP); if (wrap) { sp = calloc(sizeof (split_t *), os->os_nfields); if (sp == NULL) return; } if ((os->os_nrow++ % os->os_winsize.ws_row) == 0 && !parsable && !multiline) { ofmt_print_header(os); os->os_nrow++; } if (multiline && os->os_nrow > 1) (void) putchar('\n'); of = os->os_fields; escsep = (os->os_nfields > 1); more_rows = B_FALSE; for (i = 0; i < os->os_nfields; i++) { os->os_lastfield = (i + 1 == os->os_nfields); value[0] = '\0'; ofarg.ofmt_id = of[i].of_id; ofarg.ofmt_cbarg = arg; if ((*of[i].of_cb)(&ofarg, value, sizeof (value))) { if (wrap) { /* * 'value' will be split at comma boundaries * and stored into sp[i]. */ ofmt_fit_width(&sp[i], of[i].of_width, value, sizeof (value)); if (sp[i] != NULL && sp[i]->s_currfield < sp[i]->s_nfields) more_rows = B_TRUE; } ofmt_print_field(os, &of[i], (*value == '\0' && !parsable) ? OFMT_VAL_UNDEF : value, escsep); } else { ofmt_print_field(os, &of[i], OFMT_VAL_UNKNOWN, escsep); } } (void) putchar('\n'); while (more_rows) { more_rows = B_FALSE; for (i = 0; i < os->os_nfields; i++) { os->os_lastfield = (i + 1 == os->os_nfields); value[0] = '\0'; ofmt_fit_width(&sp[i], of[i].of_width, value, sizeof (value)); if (sp[i] != NULL && sp[i]->s_currfield < sp[i]->s_nfields) more_rows = B_TRUE; ofmt_print_field(os, &of[i], value, escsep); } (void) putchar('\n'); } (void) fflush(stdout); if (sp != NULL) { for (i = 0; i < os->os_nfields; i++) splitfree(sp[i]); free(sp); } } /* * Print the field headers */ static void ofmt_print_header(ofmt_state_t *os) { int i; ofmt_field_t *of = os->os_fields; boolean_t escsep = (os->os_nfields > 1); for (i = 0; i < os->os_nfields; i++) { os->os_lastfield = (i + 1 == os->os_nfields); ofmt_print_field(os, &of[i], of[i].of_name, escsep); } (void) putchar('\n'); } /* * Update the current window size. */ void ofmt_update_winsize(ofmt_handle_t ofmt) { ofmt_state_t *os = ofmt; struct winsize *winsize = &os->os_winsize; if (ioctl(1, TIOCGWINSZ, winsize) == -1 || winsize->ws_col == 0 || winsize->ws_row == 0) { winsize->ws_col = 80; winsize->ws_row = 24; } } /* * Return error diagnostics using the information in the ofmt_handle_t */ char * ofmt_strerror(ofmt_handle_t ofmt, ofmt_status_t err, char *buf, uint_t bufsize) { ofmt_state_t *os = ofmt; int i; const char *s; char ebuf[OFMT_BUFSIZE]; boolean_t parsable; /* * ebuf is intended for optional error-specific data to be appended * after the internationalized error string for an error code. */ ebuf[0] = '\0'; switch (err) { case OFMT_SUCCESS: s = "success"; break; case OFMT_EBADFIELDS: /* * Enumerate the singular/plural version of the warning * and error to simplify and improve localization. */ parsable = (os->os_flags & OFMT_PARSABLE); if (!parsable) { if (os->os_nbad > 1) s = "ignoring unknown output fields:"; else s = "ignoring unknown output field:"; } else { if (os->os_nbad > 1) s = "unknown output fields:"; else s = "unknown output field:"; } /* set up the bad fields in ebuf */ for (i = 0; i < os->os_nbad; i++) { (void) strlcat(ebuf, " `", sizeof (ebuf)); (void) strlcat(ebuf, os->os_badfields[i], sizeof (ebuf)); (void) strlcat(ebuf, "'", sizeof (ebuf)); } break; case OFMT_ENOFIELDS: s = "no valid output fields"; break; case OFMT_EPARSEMULTI: s = "multiline mode incompatible with parsable mode"; break; case OFMT_EPARSEALL: s = "output field `all' invalid in parsable mode"; break; case OFMT_EPARSENONE: s = "output fields must be specified in parsable mode"; break; case OFMT_EPARSEWRAP: s = "parsable mode is incompatible with wrap mode"; break; case OFMT_ENOTEMPLATE: s = "no template provided for fields"; break; case OFMT_ENOMEM: s = strerror(ENOMEM); break; default: (void) snprintf(buf, bufsize, dgettext(TEXT_DOMAIN, "unknown ofmt error (%d)"), err); return (buf); } (void) snprintf(buf, bufsize, dgettext(TEXT_DOMAIN, s)); (void) strlcat(buf, ebuf, bufsize); return (buf); }