/* * 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 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include "pmconfig.h" #include #include #ifdef sparc #include static char sf_cmt[] = "# Statefile\t\tPath\n"; #endif static char as_cmt[] = "# Auto-Shutdown\t\tIdle(min)\tStart/Finish(hh:mm)\tBehavior\n"; char **line_args; int lineno = 0; /* * cpr and pm combined permission/update status */ prmup_t cpr_status = { 0, OKUP, "cpr" }; prmup_t pm_status = { 0, OKUP, "pm" }; /* * For config file parsing to work correctly/efficiently, this table * needs to be sorted by .keyword and any longer string like "device" * must appear before a substring like "dev". */ static cinfo_t conftab[] = { "S3-support", S3sup, &pm_status, NULL, 2, 0, 1, "autoS3", autoS3, &pm_status, NULL, 2, 0, 1, "autopm", autopm, &pm_status, NULL, 2, 0, 1, "autoshutdown", autosd, &cpr_status, as_cmt, 5, 0, 1, "cpu-threshold", cputhr, &pm_status, NULL, 2, 0, 1, "cpupm", cpupm, &pm_status, NULL, 2, 0, 1, "device-dependency-property", ddprop, &pm_status, NULL, 3, 1, 1, "device-dependency", devdep, &pm_status, NULL, 3, 1, 1, "device-thresholds", devthr, &pm_status, NULL, 3, 1, 1, "diskreads", dreads, &cpr_status, NULL, 2, 0, 1, "idlecheck", idlechk, &cpr_status, NULL, 2, 0, 0, "loadaverage", loadavg, &cpr_status, NULL, 2, 0, 1, "nfsreqs", nfsreq, &cpr_status, NULL, 2, 0, 1, #ifdef sparc "statefile", sfpath, &cpr_status, sf_cmt, 2, 0, 0, #endif "system-threshold", systhr, &pm_status, NULL, 2, 0, 1, "ttychars", tchars, &cpr_status, NULL, 2, 0, 1, NULL, NULL, NULL, NULL, 0, 0, 0, }; /* * Set cpr/pm permission from default file info. */ static void set_perm(char *defstr, char *user, int *perm, int cons) { char *dinfo, *tk; /* * /etc/default/power entries are: * all (all users + root) * - (none + root) * (list users + root) * console-owner (console onwer + root) * Any error in reading/parsing the file limits the * access requirement to root. */ dinfo = defread(defstr); mesg(MDEBUG, "set_perm: \"%s\", value \"%s\"\n", defstr, dinfo ? dinfo : "NULL"); if (dinfo == NULL) return; else if (strcmp(dinfo, "all") == 0) *perm = 1; else if (strcmp(dinfo, "console-owner") == 0) *perm = cons; else if (user != NULL && (*dinfo == '<') && (tk = strrchr(++dinfo, '>'))) { /* Scan dinfo for a matching user. */ for (*tk = '\0'; tk = strtok(dinfo, ", "); dinfo = NULL) { mesg(MDEBUG, "match_user: cmp (\"%s\", \"%s\")\n", tk, user); if (strcmp(tk, user) == 0) { *perm = 1; break; } } } } /* * Lookup cpr/pm user permissions in "/etc/default/power". */ void lookup_perms(void) { struct passwd *pent; struct stat stbuf; int cons_perm; char *user; if ((ruid = getuid()) == 0) { cpr_status.perm = pm_status.perm = 1; return; } else if ((pent = getpwuid(ruid)) != NULL) { user = pent->pw_name; } else { user = NULL; } if (defopen("/etc/default/power") == -1) return; if (stat("/dev/console", &stbuf) == -1) cons_perm = 0; else cons_perm = (ruid == stbuf.st_uid); set_perm("PMCHANGEPERM=", user, &pm_status.perm, cons_perm); set_perm("CPRCHANGEPERM=", user, &cpr_status.perm, cons_perm); (void) defopen(NULL); } #ifdef sparc /* * Lookup energystar-v[23] property and set estar_vers. */ void lookup_estar_vers(void) { char es_prop[] = "energystar-v?", *fmt = "%s init/access error\n"; di_prom_handle_t ph; di_node_t node; uchar_t *prop_data; int last; char ch; if ((node = di_init("/", DINFOPROP)) == DI_NODE_NIL) { mesg(MERR, fmt, "di_init"); return; } else if ((ph = di_prom_init()) == DI_PROM_HANDLE_NIL) { mesg(MERR, fmt, "di_prom_init"); di_fini(node); return; } last = strlen(es_prop) - 1; for (ch = ESTAR_V2; ch <= ESTAR_V3; ch++) { es_prop[last] = ch; if (di_prom_prop_lookup_bytes(ph, node, es_prop, &prop_data) == 0) { mesg(MDEBUG, "get_estar_vers: %s prop found\n", es_prop); estar_vers = ch; break; } } di_prom_fini(ph); di_fini(node); } #endif /* sparc */ /* * limit open() to the real user */ static int pmc_open(char *name, int oflag) { uid_t euid; int fd; euid = geteuid(); if (seteuid(ruid) == -1) mesg(MEXIT, "cannot reset euid to %d, %s\n", ruid, strerror(errno)); fd = open(name, oflag); (void) seteuid(euid); return (fd); } /* * Alloc space and read a config file; caller needs to free the space. */ static char * get_conf_data(char *name) { struct stat stbuf; ssize_t nread; size_t size; char *buf; int fd; if ((fd = pmc_open(name, O_RDONLY)) == -1) mesg(MEXIT, "cannot open %s\n", name); else if (fstat(fd, &stbuf) == -1) mesg(MEXIT, "cannot stat %s\n", name); size = (size_t)stbuf.st_size; def_src = (stbuf.st_ino == def_info.st_ino && stbuf.st_dev == def_info.st_dev); if ((buf = malloc(size + 1)) == NULL) mesg(MEXIT, "cannot allocate %u for \"%s\"\n", size + 1, name); nread = read(fd, buf, size); (void) close(fd); if (nread != (ssize_t)size) mesg(MEXIT, "read error, expect %u, got %d, file \"%s\"\n", size, nread, name); *(buf + size) = '\0'; return (buf); } /* * Add an arg to line_args, adding space if needed. */ static void newarg(char *arg, int index) { static int alcnt; size_t size; if ((index + 1) > alcnt) { alcnt += 4; size = alcnt * sizeof (*line_args); if ((line_args = realloc(line_args, size)) == NULL) mesg(MEXIT, "cannot alloc %u for line args\n", size); } *(line_args + index) = arg; } /* * Convert blank-delimited words into an arg vector and return * the arg count; character strings get null-terminated in place. */ static int build_args(char *cline, char *tail) { extern int debug; char **vec, *arg, *cp; int cnt = 0; /* * Search logic: look for "\\\n" as a continuation marker, * treat any other "\\*" as ordinary arg data, scan until a * white-space delimiter is found, and if the arg has length, * null-terminate and save arg to line_args. The scan includes * tail so the last arg is found without any special-case code. */ for (arg = cp = cline; cp <= tail; cp++) { if (*cp == '\\') { if (*(cp + 1) && *(cp + 1) != '\n') { cp++; continue; } } else if (strchr(" \t\n", *cp) == NULL) continue; if (cp - arg) { *cp = '\0'; newarg(arg, cnt++); } arg = cp + 1; } newarg(NULL, cnt); if (debug) { mesg(MDEBUG, "\nline %d, found %d args:\n", lineno, cnt); for (vec = line_args; *vec; vec++) mesg(MDEBUG, " \"%s\"\n", *vec); } return (cnt); } /* * Match leading keyword from a conf line and * return a reference to a config info struct. */ static cinfo_t * get_cinfo(void) { cinfo_t *cip, *info = NULL; char *keyword; int chr_diff; /* * Scan the config table for a matching keyword; since the table * is sorted by keyword strings, a few optimizations can be done: * first compare only the first byte of the keyword, skip any * table string that starts with a lower ASCII value, compare the * full string only when the first byte matches, and stop checking * if the table string starts with a higher ASCII value. */ keyword = LINEARG(0); for (cip = conftab; cip->keyword; cip++) { chr_diff = (int)(*cip->keyword - *keyword); #if 0 mesg(MDEBUG, "line %d, ('%c' - '%c') = %d\n", lineno, *cip->keyword, *line, chr_diff); #endif if (chr_diff < 0) continue; else if (chr_diff == 0) { if (strcmp(keyword, cip->keyword) == 0) { info = cip; break; } } else break; } return (info); } /* * Find the end of a [possibly continued] conf line * and record the real/lf-delimited line count at *lcnt. */ static char * find_line_end(char *line, int *lcnt) { char *next, *lf; *lcnt = 0; next = line; while (lf = strchr(next, '\n')) { (*lcnt)++; if (lf == line || (*(lf - 1) != '\\') || *(lf + 1) == '\0') break; next = lf + 1; } return (lf); } /* * Parse the named conf file and for each conf line * call the action routine or conftab handler routine. */ void parse_conf_file(char *name, vact_t action) { char *file_buf, *cline, *line, *lend; cinfo_t *cip; int linc, cnt; size_t llen; int dontcare; /* * Do the "implied default" for autoS3 */ (void) S3_helper("S3-support-enable", "S3-support-disable", PM_ENABLE_S3, PM_DISABLE_S3, "S3-support", "default", &dontcare, -1); file_buf = get_conf_data(name); mesg(MDEBUG, "\nnow parsing \"%s\"...\n", name); lineno = 1; line = file_buf; while (lend = find_line_end(line, &linc)) { /* * Each line should start with valid data * but leading white-space can be ignored */ while (line < lend) { if (*line != ' ' && *line != '\t') break; line++; } /* * Copy line into allocated space and null-terminate * without the trailing line-feed. */ if ((llen = (lend - line)) != 0) { if ((cline = malloc(llen + 1)) == NULL) mesg(MEXIT, "cannot alloc %u bytes " "for line copy\n", llen); (void) memcpy(cline, line, llen); *(cline + llen) = '\0'; } else cline = NULL; /* * For blank and comment lines: possibly show a debug * message and otherwise ignore them. For other lines: * parse into an arg vector and try to match the first * arg with conftab keywords. When a match is found, * check for exact or minimum arg count, and call the * action or handler routine; if handler does not return * OKUP, set the referenced update value to NOUP so that * later CPR or PM updates are skipped. */ if (llen == 0) mesg(MDEBUG, "\nline %d, blank...\n", lineno); else if (*line == '#') mesg(MDEBUG, "\nline %d, comment...\n", lineno); else if (cnt = build_args(cline, cline + llen)) { if ((cip = get_cinfo()) == NULL) { mesg(MEXIT, "unrecognized keyword \"%s\"\n", LINEARG(0)); } else if (cnt != cip->argc && (cip->any == 0 || cnt < cip->argc)) { mesg(MEXIT, "found %d args, expect %d%s\n", cnt, cip->argc, cip->any ? "+" : ""); } else if (action) (*action)(line, llen + 1, cip); else if (cip->status->perm && (def_src || cip->alt)) { if ((*cip->handler)() != OKUP) cip->status->update = NOUP; } else { mesg(MDEBUG, "==> handler skipped: %s_perm %d, " "def_src %d, alt %d\n", cip->status->set, cip->status->perm, def_src, cip->alt); } } if (cline) free(cline); line = lend + 1; lineno += linc; } lineno = 0; free(file_buf); if (verify) { int ret = ioctl(pm_fd, PM_GET_PM_STATE, NULL); if (ret < 0) { mesg(MDEBUG, "Cannot get PM state: %s\n", strerror(errno)); } switch (ret) { case PM_SYSTEM_PM_ENABLED: mesg(MDEBUG, "Autopm Enabled\n"); break; case PM_SYSTEM_PM_DISABLED: mesg(MDEBUG, "Autopm Disabled\n"); break; } ret = ioctl(pm_fd, PM_GET_S3_SUPPORT_STATE, NULL); if (ret < 0) { mesg(MDEBUG, "Cannot get PM state: %s\n", strerror(errno)); } switch (ret) { case PM_S3_SUPPORT_ENABLED: mesg(MDEBUG, "S3 support Enabled\n"); break; case PM_S3_SUPPORT_DISABLED: mesg(MDEBUG, "S3 support Disabled\n"); break; } ret = ioctl(pm_fd, PM_GET_AUTOS3_STATE, NULL); if (ret < 0) { mesg(MDEBUG, "Cannot get PM state: %s\n", strerror(errno)); } switch (ret) { case PM_AUTOS3_ENABLED: mesg(MDEBUG, "AutoS3 Enabled\n"); break; case PM_AUTOS3_DISABLED: mesg(MDEBUG, "AutoS3 Disabled\n"); break; } } }