/* * 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 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dlmgmt_impl.h" typedef enum dlmgmt_db_op { DLMGMT_DB_OP_WRITE, DLMGMT_DB_OP_DELETE, DLMGMT_DB_OP_READ } dlmgmt_db_op_t; typedef struct dlmgmt_db_req_s { struct dlmgmt_db_req_s *ls_next; dlmgmt_db_op_t ls_op; char ls_link[MAXLINKNAMELEN]; datalink_id_t ls_linkid; zoneid_t ls_zoneid; uint32_t ls_flags; /* Either DLMGMT_ACTIVE or */ /* DLMGMT_PERSIST, not both. */ } dlmgmt_db_req_t; /* * List of pending db updates (e.g., because of a read-only filesystem). */ static dlmgmt_db_req_t *dlmgmt_db_req_head = NULL; static dlmgmt_db_req_t *dlmgmt_db_req_tail = NULL; /* * rewrite_needed is set to B_TRUE by process_link_line() if it encounters a * line with an old format. This will cause the file being read to be * re-written with the current format. */ static boolean_t rewrite_needed; static int dlmgmt_db_update(dlmgmt_db_op_t, const char *, dlmgmt_link_t *, uint32_t); static int dlmgmt_process_db_req(dlmgmt_db_req_t *); static int dlmgmt_process_db_onereq(dlmgmt_db_req_t *, boolean_t); static void *dlmgmt_db_update_thread(void *); static boolean_t process_link_line(char *, dlmgmt_link_t *); static int process_db_write(dlmgmt_db_req_t *, FILE *, FILE *); static int process_db_read(dlmgmt_db_req_t *, FILE *); static void generate_link_line(dlmgmt_link_t *, boolean_t, char *); #define BUFLEN(lim, ptr) (((lim) > (ptr)) ? ((lim) - (ptr)) : 0) #define MAXLINELEN 1024 typedef void db_walk_func_t(dlmgmt_link_t *); /* * Translator functions to go from dladm_datatype_t to character strings. * Each function takes a pointer to a buffer, the size of the buffer, * the name of the attribute, and the value to be written. The functions * return the number of bytes written to the buffer. If the buffer is not big * enough to hold the string representing the value, then nothing is written * and 0 is returned. */ typedef size_t write_func_t(char *, size_t, char *, void *); /* * Translator functions to read from a NULL terminated string buffer into * something of the given DLADM_TYPE_*. The functions each return the number * of bytes read from the string buffer. If there is an error reading data * from the buffer, then 0 is returned. It is the caller's responsibility * to free the data allocated by these functions. */ typedef size_t read_func_t(char *, void **); typedef struct translator_s { const char *type_name; write_func_t *write_func; read_func_t *read_func; } translator_t; /* * Translator functions, defined later but declared here so that * the translator table can be defined. */ static write_func_t write_str, write_boolean, write_uint64; static read_func_t read_str, read_boolean, read_int64; /* * Translator table, indexed by dladm_datatype_t. */ static translator_t translators[] = { { "string", write_str, read_str }, { "boolean", write_boolean, read_boolean }, { "int", write_uint64, read_int64 } }; static size_t ntranslators = sizeof (translators) / sizeof (translator_t); #define LINK_PROPERTY_DELIMINATOR ";" #define LINK_PROPERTY_TYPE_VALUE_SEP "," #define BASE_PROPERTY_LENGTH(t, n) (strlen(translators[(t)].type_name) +\ strlen(LINK_PROPERTY_TYPE_VALUE_SEP) +\ strlen(LINK_PROPERTY_DELIMINATOR) +\ strlen((n))) #define GENERATE_PROPERTY_STRING(buf, length, conv, name, type, val) \ (snprintf((buf), (length), "%s=%s%s" conv "%s", (name), \ translators[(type)].type_name, \ LINK_PROPERTY_TYPE_VALUE_SEP, (val), LINK_PROPERTY_DELIMINATOR)) /* * Name of the cache file to keep the active mapping */ char cachefile[MAXPATHLEN]; #define DLMGMT_PERSISTENT_DB_PATH "/etc/dladm/datalink.conf" #define DLMGMT_MAKE_FILE_DB_PATH(buffer, persistent) \ (void) snprintf((buffer), MAXPATHLEN, "%s", \ (persistent) ? DLMGMT_PERSISTENT_DB_PATH : cachefile); typedef struct zopen_arg { const char *zopen_modestr; int *zopen_pipe; int zopen_fd; } zopen_arg_t; typedef struct zrename_arg { const char *zrename_newname; } zrename_arg_t; typedef union zfoparg { zopen_arg_t zfop_openarg; zrename_arg_t zfop_renamearg; } zfoparg_t; typedef struct zfcbarg { boolean_t zfarg_inglobalzone; /* is callback in global zone? */ zoneid_t zfarg_finglobalzone; /* is file in global zone? */ const char *zfarg_filename; zfoparg_t *zfarg_oparg; } zfarg_t; #define zfarg_openarg zfarg_oparg->zfop_openarg #define zfarg_renamearg zfarg_oparg->zfop_renamearg /* zone file callback */ typedef int zfcb_t(zfarg_t *); /* * Execute an operation on filename relative to zoneid's zone root. If the * file is in the global zone, then the zfcb() callback will simply be called * directly. If the file is in a non-global zone, then zfcb() will be called * both from the global zone's context, and from the non-global zone's context * (from a fork()'ed child that has entered the non-global zone). This is * done to allow the callback to communicate with itself if needed (e.g. to * pass back the file descriptor of an opened file). */ static int dlmgmt_zfop(const char *filename, zoneid_t zoneid, zfcb_t *zfcb, zfoparg_t *zfoparg) { int ctfd; int err; pid_t childpid; siginfo_t info; zfarg_t zfarg; if (zoneid != GLOBAL_ZONEID) { /* * We need to access a file that isn't in the global zone. * Accessing non-global zone files from the global zone is * unsafe (due to symlink attacks), we'll need to fork a child * that enters the zone in question and executes the callback * that will operate on the file. * * Before we proceed with this zone tango, we need to create a * new process contract for the child, as required by * zone_enter(). */ errno = 0; ctfd = open64("/system/contract/process/template", O_RDWR); if (ctfd == -1) return (errno); if ((err = ct_tmpl_set_critical(ctfd, 0)) != 0 || (err = ct_tmpl_set_informative(ctfd, 0)) != 0 || (err = ct_pr_tmpl_set_fatal(ctfd, CT_PR_EV_HWERR)) != 0 || (err = ct_pr_tmpl_set_param(ctfd, CT_PR_PGRPONLY)) != 0 || (err = ct_tmpl_activate(ctfd)) != 0) { return (err); } childpid = fork(); (void) ct_tmpl_clear(ctfd); (void) close(ctfd); switch (childpid) { case -1: return (err); case 0: /* * Elevate our privileges as zone_enter() requires all * privileges. */ if ((err = dlmgmt_elevate_privileges()) != 0) _exit(err); if (zone_enter(zoneid) == -1) _exit(errno); if ((err = dlmgmt_drop_privileges()) != 0) _exit(err); break; default: if (waitid(P_PID, childpid, &info, WEXITED) == -1) return (errno); if (info.si_status != 0) return (info.si_status); } } zfarg.zfarg_inglobalzone = (zoneid == GLOBAL_ZONEID || childpid != 0); zfarg.zfarg_finglobalzone = (zoneid == GLOBAL_ZONEID); zfarg.zfarg_filename = filename; zfarg.zfarg_oparg = zfoparg; err = zfcb(&zfarg); if (!zfarg.zfarg_inglobalzone) _exit(err); return (err); } static int dlmgmt_zopen_cb(zfarg_t *zfarg) { struct strrecvfd recvfd; boolean_t newfile = B_FALSE; boolean_t inglobalzone = zfarg->zfarg_inglobalzone; zoneid_t finglobalzone = zfarg->zfarg_finglobalzone; const char *filename = zfarg->zfarg_filename; const char *modestr = zfarg->zfarg_openarg.zopen_modestr; int *p = zfarg->zfarg_openarg.zopen_pipe; struct stat statbuf; int oflags; mode_t mode; int fd = -1; int err; /* We only ever open a file for reading or writing, not both. */ oflags = (modestr[0] == 'r') ? O_RDONLY : O_WRONLY | O_CREAT | O_TRUNC; mode = (modestr[0] == 'r') ? 0 : S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH; /* Open the file if we're in the same zone as the file. */ if (inglobalzone == finglobalzone) { /* * First determine if we will be creating the file as part of * opening it. If so, then we'll need to ensure that it has * the proper ownership after having opened it. */ if (oflags & O_CREAT) { if (stat(filename, &statbuf) == -1) { if (errno == ENOENT) newfile = B_TRUE; else return (errno); } } if ((fd = open(filename, oflags, mode)) == -1) return (errno); if (newfile) { if (chown(filename, UID_DLADM, GID_SYS) == -1) { err = errno; (void) close(fd); return (err); } } } /* * If we're not in the global zone, send the file-descriptor back to * our parent in the global zone. */ if (!inglobalzone) { assert(!finglobalzone); assert(fd != -1); return (ioctl(p[1], I_SENDFD, fd) == -1 ? errno : 0); } /* * At this point, we know we're in the global zone. If the file was * in a non-global zone, receive the file-descriptor from our child in * the non-global zone. */ if (!finglobalzone) { if (ioctl(p[0], I_RECVFD, &recvfd) == -1) return (errno); fd = recvfd.fd; } zfarg->zfarg_openarg.zopen_fd = fd; return (0); } static int dlmgmt_zunlink_cb(zfarg_t *zfarg) { if (zfarg->zfarg_inglobalzone != zfarg->zfarg_finglobalzone) return (0); return (unlink(zfarg->zfarg_filename) == 0 ? 0 : errno); } static int dlmgmt_zrename_cb(zfarg_t *zfarg) { if (zfarg->zfarg_inglobalzone != zfarg->zfarg_finglobalzone) return (0); return (rename(zfarg->zfarg_filename, zfarg->zfarg_renamearg.zrename_newname) == 0 ? 0 : errno); } /* * Same as fopen(3C), except that it opens the file relative to zoneid's zone * root. */ static FILE * dlmgmt_zfopen(const char *filename, const char *modestr, zoneid_t zoneid, int *err) { int p[2]; zfoparg_t zfoparg; FILE *fp = NULL; if (zoneid != GLOBAL_ZONEID && pipe(p) == -1) { *err = errno; return (NULL); } zfoparg.zfop_openarg.zopen_modestr = modestr; zfoparg.zfop_openarg.zopen_pipe = p; *err = dlmgmt_zfop(filename, zoneid, dlmgmt_zopen_cb, &zfoparg); if (zoneid != GLOBAL_ZONEID) { (void) close(p[0]); (void) close(p[1]); } if (*err == 0) { fp = fdopen(zfoparg.zfop_openarg.zopen_fd, modestr); if (fp == NULL) { *err = errno; (void) close(zfoparg.zfop_openarg.zopen_fd); } } return (fp); } /* * Same as rename(2), except that old and new are relative to zoneid's zone * root. */ static int dlmgmt_zrename(const char *old, const char *new, zoneid_t zoneid) { zfoparg_t zfoparg; zfoparg.zfop_renamearg.zrename_newname = new; return (dlmgmt_zfop(old, zoneid, dlmgmt_zrename_cb, &zfoparg)); } /* * Same as unlink(2), except that filename is relative to zoneid's zone root. */ static int dlmgmt_zunlink(const char *filename, zoneid_t zoneid) { return (dlmgmt_zfop(filename, zoneid, dlmgmt_zunlink_cb, NULL)); } static size_t write_str(char *buffer, size_t buffer_length, char *name, void *value) { char *ptr = value; size_t data_length = strnlen(ptr, buffer_length); /* * Strings are assumed to be NULL terminated. In order to fit in * the buffer, the string's length must be less then buffer_length. * If the value is empty, there's no point in writing it, in fact, * we shouldn't even see that case. */ if (data_length + BASE_PROPERTY_LENGTH(DLADM_TYPE_STR, name) == buffer_length || data_length == 0) return (0); /* * Since we know the string will fit in the buffer, snprintf will * always return less than buffer_length, so we can just return * whatever snprintf returns. */ return (GENERATE_PROPERTY_STRING(buffer, buffer_length, "%s", name, DLADM_TYPE_STR, ptr)); } static size_t write_boolean(char *buffer, size_t buffer_length, char *name, void *value) { boolean_t *ptr = value; /* * Booleans are either zero or one, so we only need room for two * characters in the buffer. */ if (buffer_length <= 1 + BASE_PROPERTY_LENGTH(DLADM_TYPE_BOOLEAN, name)) return (0); return (GENERATE_PROPERTY_STRING(buffer, buffer_length, "%d", name, DLADM_TYPE_BOOLEAN, *ptr)); } static size_t write_uint64(char *buffer, size_t buffer_length, char *name, void *value) { uint64_t *ptr = value; /* * Limit checking for uint64_t is a little trickier. */ if (snprintf(NULL, 0, "%lld", *ptr) + BASE_PROPERTY_LENGTH(DLADM_TYPE_UINT64, name) >= buffer_length) return (0); return (GENERATE_PROPERTY_STRING(buffer, buffer_length, "%lld", name, DLADM_TYPE_UINT64, *ptr)); } static size_t read_str(char *buffer, void **value) { char *ptr = calloc(MAXLINKATTRVALLEN, sizeof (char)); ssize_t len; if (ptr == NULL || (len = strlcpy(ptr, buffer, MAXLINKATTRVALLEN)) >= MAXLINKATTRVALLEN) { free(ptr); return (0); } *(char **)value = ptr; /* Account for NULL terminator */ return (len + 1); } static size_t read_boolean(char *buffer, void **value) { boolean_t *ptr = calloc(1, sizeof (boolean_t)); if (ptr == NULL) return (0); *ptr = atoi(buffer); *(boolean_t **)value = ptr; return (sizeof (boolean_t)); } static size_t read_int64(char *buffer, void **value) { int64_t *ptr = calloc(1, sizeof (int64_t)); if (ptr == NULL) return (0); *ptr = (int64_t)atoll(buffer); *(int64_t **)value = ptr; return (sizeof (int64_t)); } static dlmgmt_db_req_t * dlmgmt_db_req_alloc(dlmgmt_db_op_t op, const char *linkname, datalink_id_t linkid, zoneid_t zoneid, uint32_t flags, int *err) { dlmgmt_db_req_t *req; if ((req = calloc(1, sizeof (dlmgmt_db_req_t))) == NULL) { *err = errno; } else { req->ls_op = op; if (linkname != NULL) (void) strlcpy(req->ls_link, linkname, MAXLINKNAMELEN); req->ls_linkid = linkid; req->ls_zoneid = zoneid; req->ls_flags = flags; } return (req); } /* * Update the db entry with name "entryname" using information from "linkp". */ static int dlmgmt_db_update(dlmgmt_db_op_t op, const char *entryname, dlmgmt_link_t *linkp, uint32_t flags) { dlmgmt_db_req_t *req; int err; /* It is either a persistent request or an active request, not both. */ assert((flags == DLMGMT_PERSIST) || (flags == DLMGMT_ACTIVE)); if ((req = dlmgmt_db_req_alloc(op, entryname, linkp->ll_linkid, linkp->ll_zoneid, flags, &err)) == NULL) return (err); /* * If the return error is EINPROGRESS, this request is handled * asynchronously; return success. */ err = dlmgmt_process_db_req(req); if (err != EINPROGRESS) free(req); else err = 0; return (err); } #define DLMGMT_DB_OP_STR(op) \ (((op) == DLMGMT_DB_OP_READ) ? "read" : \ (((op) == DLMGMT_DB_OP_WRITE) ? "write" : "delete")) #define DLMGMT_DB_CONF_STR(flag) \ (((flag) == DLMGMT_ACTIVE) ? "active" : \ (((flag) == DLMGMT_PERSIST) ? "persistent" : "")) static int dlmgmt_process_db_req(dlmgmt_db_req_t *req) { pthread_t tid; boolean_t writeop; int err; /* * If there are already pending "write" requests, queue this request in * the pending list. Note that this function is called while the * dlmgmt_rw_lock is held, so it is safe to access the global variables. */ writeop = (req->ls_op != DLMGMT_DB_OP_READ); if (writeop && (req->ls_flags == DLMGMT_PERSIST) && (dlmgmt_db_req_head != NULL)) { dlmgmt_db_req_tail->ls_next = req; dlmgmt_db_req_tail = req; return (EINPROGRESS); } err = dlmgmt_process_db_onereq(req, writeop); if (err != EINPROGRESS && err != 0 && err != ENOENT) { /* * Log the error unless the request processing is still in * progress or if the configuration file hasn't been created * yet (ENOENT). */ dlmgmt_log(LOG_WARNING, "dlmgmt_process_db_onereq() %s " "operation on %s configuration failed: %s", DLMGMT_DB_OP_STR(req->ls_op), DLMGMT_DB_CONF_STR(req->ls_flags), strerror(err)); } if (err == EINPROGRESS) { assert(req->ls_flags == DLMGMT_PERSIST); assert(writeop && dlmgmt_db_req_head == NULL); dlmgmt_db_req_tail = dlmgmt_db_req_head = req; err = pthread_create(&tid, NULL, dlmgmt_db_update_thread, NULL); if (err == 0) return (EINPROGRESS); } return (err); } static int dlmgmt_process_db_onereq(dlmgmt_db_req_t *req, boolean_t writeop) { int err = 0; FILE *fp, *nfp = NULL; char file[MAXPATHLEN]; char newfile[MAXPATHLEN]; DLMGMT_MAKE_FILE_DB_PATH(file, (req->ls_flags == DLMGMT_PERSIST)); fp = dlmgmt_zfopen(file, "r", req->ls_zoneid, &err); /* * Note that it is not an error if the file doesn't exist. If we're * reading, we treat this case the same way as an empty file. If * we're writing, the file will be created when we open the file for * writing below. */ if (fp == NULL && !writeop) return (err); if (writeop) { (void) snprintf(newfile, MAXPATHLEN, "%s.new", file); nfp = dlmgmt_zfopen(newfile, "w", req->ls_zoneid, &err); if (nfp == NULL) { /* * EROFS can happen at boot when the file system is * read-only. Return EINPROGRESS so that the caller * can add this request to the pending request list * and start a retry thread. */ err = (errno == EROFS ? EINPROGRESS : errno); goto done; } } if (writeop) { if ((err = process_db_write(req, fp, nfp)) == 0) err = dlmgmt_zrename(newfile, file, req->ls_zoneid); } else { err = process_db_read(req, fp); } done: if (nfp != NULL) { (void) fclose(nfp); if (err != 0) (void) dlmgmt_zunlink(newfile, req->ls_zoneid); } (void) fclose(fp); return (err); } /*ARGSUSED*/ static void * dlmgmt_db_update_thread(void *arg) { dlmgmt_db_req_t *req; dlmgmt_table_lock(B_TRUE); assert(dlmgmt_db_req_head != NULL); while ((req = dlmgmt_db_req_head) != NULL) { assert(req->ls_flags == DLMGMT_PERSIST); if (dlmgmt_process_db_onereq(req, B_TRUE) == EINPROGRESS) { /* * The filesystem is still read only. Go to sleep and * try again. */ dlmgmt_table_unlock(); (void) sleep(5); dlmgmt_table_lock(B_TRUE); continue; } /* * The filesystem is no longer read only. Continue processing * and remove the request from the pending list. */ dlmgmt_db_req_head = req->ls_next; if (dlmgmt_db_req_tail == req) { assert(dlmgmt_db_req_head == NULL); dlmgmt_db_req_tail = NULL; } free(req); } dlmgmt_table_unlock(); return (NULL); } static int parse_linkprops(char *buf, dlmgmt_link_t *linkp) { boolean_t found_type = B_FALSE; dladm_datatype_t type = DLADM_TYPE_STR; int i, len; int err = 0; char *curr; char attr_name[MAXLINKATTRLEN]; size_t attr_buf_len = 0; void *attr_buf = NULL; curr = buf; len = strlen(buf); attr_name[0] = '\0'; for (i = 0; i < len && err == 0; i++) { char c = buf[i]; boolean_t match = (c == '=' || (c == ',' && !found_type) || c == ';'); /* * Move to the next character if there is no match and * if we have not reached the last character. */ if (!match && i != len - 1) continue; if (match) { /* * NUL-terminate the string pointed to by 'curr'. */ buf[i] = '\0'; if (*curr == '\0') goto parse_fail; } if (attr_name[0] != '\0' && found_type) { /* * We get here after we have processed the "=" * pattern. The pattern we are now interested in is * ";". */ if (c == '=') goto parse_fail; if (strcmp(attr_name, "linkid") == 0) { (void) read_int64(curr, &attr_buf); linkp->ll_linkid = (datalink_class_t)*(int64_t *)attr_buf; } else if (strcmp(attr_name, "name") == 0) { (void) read_str(curr, &attr_buf); (void) snprintf(linkp->ll_link, MAXLINKNAMELEN, "%s", attr_buf); } else if (strcmp(attr_name, "class") == 0) { (void) read_int64(curr, &attr_buf); linkp->ll_class = (datalink_class_t)*(int64_t *)attr_buf; } else if (strcmp(attr_name, "media") == 0) { (void) read_int64(curr, &attr_buf); linkp->ll_media = (uint32_t)*(int64_t *)attr_buf; } else { attr_buf_len = translators[type].read_func(curr, &attr_buf); err = linkattr_set(&(linkp->ll_head), attr_name, attr_buf, attr_buf_len, type); } free(attr_buf); attr_name[0] = '\0'; found_type = B_FALSE; } else if (attr_name[0] != '\0') { /* * Non-zero length attr_name and found_type of false * indicates that we have not found the type for this * attribute. The pattern now is ",;", we * want the part of the pattern. */ for (type = 0; type < ntranslators; type++) { if (strcmp(curr, translators[type].type_name) == 0) { found_type = B_TRUE; break; } } if (!found_type) goto parse_fail; } else { /* * A zero length attr_name indicates we are looking * at the beginning of a link attribute. */ if (c != '=') goto parse_fail; (void) snprintf(attr_name, MAXLINKATTRLEN, "%s", curr); } curr = buf + i + 1; } return (err); parse_fail: return (-1); } static boolean_t process_link_line(char *buf, dlmgmt_link_t *linkp) { int i, len, llen; char *str, *lasts; char tmpbuf[MAXLINELEN]; bzero(linkp, sizeof (*linkp)); linkp->ll_linkid = DATALINK_INVALID_LINKID; /* * Use a copy of buf for parsing so that we can do whatever we want. */ (void) strlcpy(tmpbuf, buf, MAXLINELEN); /* * Skip leading spaces, blank lines, and comments. */ len = strlen(tmpbuf); for (i = 0; i < len; i++) { if (!isspace(tmpbuf[i])) break; } if (i == len || tmpbuf[i] == '#') return (B_TRUE); str = tmpbuf + i; /* * Find the link name and assign it to the link structure. */ if (strtok_r(str, " \n\t", &lasts) == NULL) goto fail; llen = strlen(str); /* * Note that a previous version of the persistent datalink.conf file * stored the linkid as the first field. In that case, the name will * be obtained through parse_linkprops from a property with the format * "name=". If we encounter such a format, we set * rewrite_needed so that dlmgmt_db_init() can rewrite the file with * the new format after it's done reading in the data. */ if (isdigit(str[0])) { linkp->ll_linkid = atoi(str); rewrite_needed = B_TRUE; } else { if (strlcpy(linkp->ll_link, str, sizeof (linkp->ll_link)) >= sizeof (linkp->ll_link)) goto fail; } str += llen + 1; if (str >= tmpbuf + len) goto fail; /* * Now find the list of link properties. */ if ((str = strtok_r(str, " \n\t", &lasts)) == NULL) goto fail; if (parse_linkprops(str, linkp) < 0) goto fail; return (B_TRUE); fail: /* * Delete corrupted line. */ buf[0] = '\0'; return (B_FALSE); } /* * Find any properties in linkp that refer to "old", and rename to "new". * Return B_TRUE if any renaming occurred. */ static int dlmgmt_attr_rename(dlmgmt_link_t *linkp, const char *old, const char *new, boolean_t *renamed) { dlmgmt_linkattr_t *attrp; char *newval = NULL, *pname; char valcp[MAXLINKATTRVALLEN]; size_t newsize; *renamed = B_FALSE; if ((attrp = linkattr_find(linkp->ll_head, "linkover")) != NULL || (attrp = linkattr_find(linkp->ll_head, "simnetpeer")) != NULL) { if (strcmp(old, (char *)attrp->lp_val) == 0) { newsize = strlen(new) + 1; if ((newval = malloc(newsize)) == NULL) return (errno); (void) strcpy(newval, new); free(attrp->lp_val); attrp->lp_val = newval; attrp->lp_sz = newsize; *renamed = B_TRUE; } return (0); } if ((attrp = linkattr_find(linkp->ll_head, "portnames")) == NULL) return (0); /* :[:]... */ if ((newval = calloc(MAXLINKATTRVALLEN, sizeof (char))) == NULL) return (errno); bcopy(attrp->lp_val, valcp, sizeof (valcp)); pname = strtok(valcp, ":"); while (pname != NULL) { if (strcmp(pname, old) == 0) { (void) strcat(newval, new); *renamed = B_TRUE; } else { (void) strcat(newval, pname); } (void) strcat(newval, ":"); pname = strtok(NULL, ":"); } if (*renamed) { free(attrp->lp_val); attrp->lp_val = newval; attrp->lp_sz = strlen(newval) + 1; } else { free(newval); } return (0); } static int process_db_write(dlmgmt_db_req_t *req, FILE *fp, FILE *nfp) { boolean_t done = B_FALSE; int err = 0; dlmgmt_link_t link_in_file, *linkp = NULL, *dblinkp; boolean_t persist = (req->ls_flags == DLMGMT_PERSIST); boolean_t writeall, rename, attr_renamed; char buf[MAXLINELEN]; writeall = (req->ls_linkid == DATALINK_ALL_LINKID); if (req->ls_op == DLMGMT_DB_OP_WRITE && !writeall) { /* * find the link in the avl tree with the given linkid. */ linkp = link_by_id(req->ls_linkid, req->ls_zoneid); if (linkp == NULL || (linkp->ll_flags & req->ls_flags) == 0) { /* * This link has already been changed. This could * happen if the request is pending because of * read-only file-system. If so, we are done. */ return (0); } /* * In the case of a rename, linkp's name has been updated to * the new name, and req->ls_link is the old link name. */ rename = (strcmp(req->ls_link, linkp->ll_link) != 0); } /* * fp can be NULL if the file didn't initially exist and we're * creating it as part of this write operation. */ if (fp == NULL) goto write; while (err == 0 && fgets(buf, sizeof (buf), fp) != NULL && process_link_line(buf, &link_in_file)) { if (link_in_file.ll_link[0] == '\0' || done) { /* * this is a comment line or we are done updating the * line for the specified link, write the rest of * lines out. */ if (fputs(buf, nfp) == EOF) err = errno; continue; } switch (req->ls_op) { case DLMGMT_DB_OP_WRITE: /* * For write operations, we generate a new output line * if we're either writing all links (writeall) or if * the name of the link in the file matches the one * we're looking for. Otherwise, we write out the * buffer as-is. * * If we're doing a rename operation, ensure that any * references to the link being renamed in link * properties are also updated before we write * anything. */ if (writeall) { linkp = link_by_name(link_in_file.ll_link, req->ls_zoneid); } if (writeall || strcmp(req->ls_link, link_in_file.ll_link) == 0) { generate_link_line(linkp, persist, buf); if (!writeall && !rename) done = B_TRUE; } else if (rename && persist) { dblinkp = link_by_name(link_in_file.ll_link, req->ls_zoneid); err = dlmgmt_attr_rename(dblinkp, req->ls_link, linkp->ll_link, &attr_renamed); if (err != 0) break; if (attr_renamed) { generate_link_line(dblinkp, persist, buf); } } if (fputs(buf, nfp) == EOF) err = errno; break; case DLMGMT_DB_OP_DELETE: /* * Delete is simple. If buf does not represent the * link we're deleting, write it out. */ if (strcmp(req->ls_link, link_in_file.ll_link) != 0) { if (fputs(buf, nfp) == EOF) err = errno; } else { done = B_TRUE; } break; case DLMGMT_DB_OP_READ: default: err = EINVAL; break; } } write: /* * If we get to the end of the file and have not seen what linkid * points to, write it out then. */ if (req->ls_op == DLMGMT_DB_OP_WRITE && !writeall && !rename && !done) { generate_link_line(linkp, persist, buf); done = B_TRUE; if (fputs(buf, nfp) == EOF) err = errno; } return (err); } static int process_db_read(dlmgmt_db_req_t *req, FILE *fp) { avl_index_t name_where, id_where; dlmgmt_link_t link_in_file, *newlink, *link_in_db; char buf[MAXLINELEN]; int err = 0; /* * This loop processes each line of the configuration file. */ while (fgets(buf, MAXLINELEN, fp) != NULL) { if (!process_link_line(buf, &link_in_file)) { err = EINVAL; break; } /* * Skip the comment line. */ if (link_in_file.ll_link[0] == '\0') continue; if ((req->ls_flags & DLMGMT_ACTIVE) && link_in_file.ll_linkid == DATALINK_INVALID_LINKID) continue; link_in_file.ll_zoneid = req->ls_zoneid; link_in_db = avl_find(&dlmgmt_name_avl, &link_in_file, &name_where); if (link_in_db != NULL) { /* * If the link in the database already has the flag * for this request set, then the entry is a * duplicate. If it's not a duplicate, then simply * turn on the appropriate flag on the existing link. */ if (link_in_db->ll_flags & req->ls_flags) { dlmgmt_log(LOG_WARNING, "Duplicate links " "in the repository: %s", link_in_file.ll_link); } else { if (req->ls_flags & DLMGMT_PERSIST) { /* * Save the newly read properties into * the existing link. */ assert(link_in_db->ll_head == NULL); link_in_db->ll_head = link_in_file.ll_head; } link_in_db->ll_flags |= req->ls_flags; } } else { /* * This is a new link. Allocate a new dlmgmt_link_t * and add it to the trees. */ newlink = calloc(1, sizeof (*newlink)); if (newlink == NULL) { dlmgmt_log(LOG_WARNING, "Unable to allocate " "memory to create new link %s", link_in_file.ll_link); continue; } bcopy(&link_in_file, newlink, sizeof (*newlink)); if (newlink->ll_linkid == DATALINK_INVALID_LINKID) newlink->ll_linkid = dlmgmt_nextlinkid; if (avl_find(&dlmgmt_id_avl, newlink, &id_where) != NULL) { link_destroy(newlink); continue; } if ((req->ls_flags & DLMGMT_ACTIVE) && link_activate(newlink) != 0) { dlmgmt_log(LOG_WARNING, "Unable to activate %s", newlink->ll_link); link_destroy(newlink); continue; } avl_insert(&dlmgmt_name_avl, newlink, name_where); avl_insert(&dlmgmt_id_avl, newlink, id_where); dlmgmt_advance(newlink); newlink->ll_flags |= req->ls_flags; } } return (err); } /* * Generate an entry in the link database. * Each entry has this format: * =,;...;=,; */ static void generate_link_line(dlmgmt_link_t *linkp, boolean_t persist, char *buf) { char tmpbuf[MAXLINELEN]; char *ptr = tmpbuf; char *lim = tmpbuf + MAXLINELEN; dlmgmt_linkattr_t *cur_p = NULL; uint64_t u64; ptr += snprintf(ptr, BUFLEN(lim, ptr), "%s\t", linkp->ll_link); if (!persist) { /* * We store the linkid in the active database so that dlmgmtd * can recover in the event that it is restarted. */ u64 = linkp->ll_linkid; ptr += write_uint64(ptr, BUFLEN(lim, ptr), "linkid", &u64); } u64 = linkp->ll_class; ptr += write_uint64(ptr, BUFLEN(lim, ptr), "class", &u64); u64 = linkp->ll_media; ptr += write_uint64(ptr, BUFLEN(lim, ptr), "media", &u64); /* * The daemon does not keep any active link attribute. Only store the * attributes if this request is for persistent configuration, */ if (persist) { for (cur_p = linkp->ll_head; cur_p != NULL; cur_p = cur_p->lp_next) { ptr += translators[cur_p->lp_type].write_func(ptr, BUFLEN(lim, ptr), cur_p->lp_name, cur_p->lp_val); } } if (ptr <= lim) (void) snprintf(buf, MAXLINELEN, "%s\n", tmpbuf); } int dlmgmt_delete_db_entry(dlmgmt_link_t *linkp, uint32_t flags) { return (dlmgmt_db_update(DLMGMT_DB_OP_DELETE, linkp->ll_link, linkp, flags)); } int dlmgmt_write_db_entry(const char *entryname, dlmgmt_link_t *linkp, uint32_t flags) { int err; if (flags & DLMGMT_PERSIST) { if ((err = dlmgmt_db_update(DLMGMT_DB_OP_WRITE, entryname, linkp, DLMGMT_PERSIST)) != 0) { return (err); } } if (flags & DLMGMT_ACTIVE) { if (((err = dlmgmt_db_update(DLMGMT_DB_OP_WRITE, entryname, linkp, DLMGMT_ACTIVE)) != 0) && (flags & DLMGMT_PERSIST)) { (void) dlmgmt_db_update(DLMGMT_DB_OP_DELETE, entryname, linkp, DLMGMT_PERSIST); return (err); } } return (0); } /* * Upgrade properties that have link IDs as values to link names. Because '.' * is a valid linkname character, the port separater for link aggregations * must be changed to ':'.4 */ static void linkattr_upgrade(dlmgmt_linkattr_t *attrp) { datalink_id_t linkid; char *portidstr; char portname[MAXLINKNAMELEN + 1]; dlmgmt_link_t *linkp; char *new_attr_val; size_t new_attr_sz; boolean_t upgraded = B_FALSE; if (strcmp(attrp->lp_name, "linkover") == 0 || strcmp(attrp->lp_name, "simnetpeer") == 0) { if (attrp->lp_type == DLADM_TYPE_UINT64) { linkid = *(datalink_id_t *)attrp->lp_val; if ((linkp = link_by_id(linkid, GLOBAL_ZONEID)) == NULL) return; new_attr_sz = strlen(linkp->ll_link) + 1; if ((new_attr_val = malloc(new_attr_sz)) == NULL) return; (void) strcpy(new_attr_val, linkp->ll_link); upgraded = B_TRUE; } } else if (strcmp(attrp->lp_name, "portnames") == 0) { /* * The old format for "portnames" was * ".[.]...". The new format is * ":[:]...". */ if (!isdigit(((char *)attrp->lp_val)[0])) return; new_attr_val = calloc(MAXLINKATTRVALLEN, sizeof (char)); if (new_attr_val == NULL) return; portidstr = (char *)attrp->lp_val; while (*portidstr != '\0') { errno = 0; linkid = strtol(portidstr, &portidstr, 10); if (linkid == 0 || *portidstr != '.' || (linkp = link_by_id(linkid, GLOBAL_ZONEID)) == NULL) { free(new_attr_val); return; } (void) snprintf(portname, sizeof (portname), "%s:", linkp->ll_link); if (strlcat(new_attr_val, portname, MAXLINKATTRVALLEN) >= MAXLINKATTRVALLEN) { free(new_attr_val); return; } /* skip the '.' delimiter */ portidstr++; } new_attr_sz = strlen(new_attr_val) + 1; upgraded = B_TRUE; } if (upgraded) { attrp->lp_type = DLADM_TYPE_STR; attrp->lp_sz = new_attr_sz; free(attrp->lp_val); attrp->lp_val = new_attr_val; } } static void dlmgmt_db_upgrade(dlmgmt_link_t *linkp) { dlmgmt_linkattr_t *attrp; for (attrp = linkp->ll_head; attrp != NULL; attrp = attrp->lp_next) linkattr_upgrade(attrp); } static void dlmgmt_db_phys_activate(dlmgmt_link_t *linkp) { linkp->ll_flags |= DLMGMT_ACTIVE; (void) dlmgmt_write_db_entry(linkp->ll_link, linkp, DLMGMT_ACTIVE); } static void dlmgmt_db_walk(zoneid_t zoneid, datalink_class_t class, db_walk_func_t *func) { dlmgmt_link_t *linkp; for (linkp = avl_first(&dlmgmt_id_avl); linkp != NULL; linkp = AVL_NEXT(&dlmgmt_id_avl, linkp)) { if (linkp->ll_zoneid == zoneid && (linkp->ll_class & class)) func(linkp); } } /* * Initialize the datalink mapping and the link's * attributes list based on the configuration file /etc/dladm/datalink.conf * and the active configuration cache file * /etc/svc/volatile/dladm/datalink-management:default.cache. */ int dlmgmt_db_init(zoneid_t zoneid) { dlmgmt_db_req_t *req; int err; boolean_t boot = B_FALSE; if ((req = dlmgmt_db_req_alloc(DLMGMT_DB_OP_READ, NULL, DATALINK_INVALID_LINKID, zoneid, DLMGMT_ACTIVE, &err)) == NULL) return (err); if ((err = dlmgmt_process_db_req(req)) != 0) { /* * If we get back ENOENT, that means that the active * configuration file doesn't exist yet, and is not an error. * We'll create it down below after we've loaded the * persistent configuration. */ if (err != ENOENT) goto done; boot = B_TRUE; } req->ls_flags = DLMGMT_PERSIST; err = dlmgmt_process_db_req(req); if (err != 0 && err != ENOENT) goto done; err = 0; if (rewrite_needed) { /* * First update links in memory, then dump the entire db to * disk. */ dlmgmt_db_walk(zoneid, DATALINK_CLASS_ALL, dlmgmt_db_upgrade); req->ls_op = DLMGMT_DB_OP_WRITE; req->ls_linkid = DATALINK_ALL_LINKID; if ((err = dlmgmt_process_db_req(req)) != 0 && err != EINPROGRESS) goto done; } if (boot) { dlmgmt_db_walk(zoneid, DATALINK_CLASS_PHYS, dlmgmt_db_phys_activate); } done: if (err == EINPROGRESS) err = 0; else free(req); return (err); } /* * Remove all links in the given zoneid. */ void dlmgmt_db_fini(zoneid_t zoneid) { dlmgmt_link_t *linkp = avl_first(&dlmgmt_name_avl), *next_linkp; while (linkp != NULL) { next_linkp = AVL_NEXT(&dlmgmt_name_avl, linkp); if (linkp->ll_zoneid == zoneid) { (void) dlmgmt_destroy_common(linkp, DLMGMT_ACTIVE | DLMGMT_PERSIST); } linkp = next_linkp; } }