/* * 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 (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2012 Milan Jurik. All rights reserved. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * These can be replaced with wanbootutil.h once the openssl interfaces * are moved to libwanboot. */ #include #include #include #include #include /* * Exit status: */ #define WBCGI_STATUS_OK 0 #define WBCGI_STATUS_ERR 1 #define WBCGI_FILE_EXISTS(file, statbuf) \ (stat(file, &statbuf) == 0 && S_ISREG(statbuf.st_mode)) #define WBCGI_DIR_EXISTS(dir, statbuf) \ (stat(dir, &statbuf) == 0 && S_ISDIR(statbuf.st_mode)) #define WBCGI_HMAC_PATH "/usr/lib/inet/wanboot/hmac" #define WBCGI_ENCR_PATH "/usr/lib/inet/wanboot/encr" #define WBCGI_KEYMGMT_PATH "/usr/lib/inet/wanboot/keymgmt" #define WBCGI_MKISOFS_PATH "/bin/mkisofs" #define WBCGI_DEV_URANDOM "/dev/urandom" #define WBCGI_CONTENT_TYPE "Content-Type: " #define WBCGI_CONTENT_LENGTH "Content-Length: " #define WBCGI_WANBOOT_BNDTXT "WANBoot_Part_Boundary" #define WBCGI_CRNL "\r\n" #define WBCGI_CNSTR "CN=" #define WBCGI_CNSTR_LEN (sizeof (WBCGI_CNSTR) - 1) #define WBCGI_NAMESEP ",/\n\r" #define WBCGI_MAXBUF 256 /* * Possible return values from netboot_ftw(): */ #define WBCGI_FTW_CBOK 2 /* CB terminated walk OK */ #define WBCGI_FTW_CBCONT 1 /* CB wants walk should continue */ #define WBCGI_FTW_DONE 0 /* Walk terminated without CBERR/CBOK */ #define WBCGI_FTW_CBERR -1 /* CB terminated walk with err */ /* * getsubopt() is used to map one of the contents[] keywords * to one of these types */ #define WBCGI_CONTENT_ERROR -1 #define WBCGI_CONTENT_BOOTFILE 0 #define WBCGI_CONTENT_BOOTFS 1 #define WBCGI_CONTENT_ROOTFS 2 static char *contents[] = { "bootfile", "bootfs", "rootfs", NULL }; /* * getsubopt() is used to parse the query string for * the keywords defined by queryopts[] */ #define WBCGI_QUERYOPT_CONTENT 0 #define WBCGI_QUERYOPT_NET 1 #define WBCGI_QUERYOPT_CID 2 #define WBCGI_QUERYOPT_NONCE 3 static char *queryopts[] = { "CONTENT", "IP", "CID", "NONCE", NULL }; static bc_handle_t bc_handle; static char * status_msg(int status) { char *msg; switch (status) { case 400: msg = "Bad Request"; break; case 403: msg = "Forbidden"; break; case 500: msg = "Internal Server Error"; break; default: msg = "Unknown status"; break; } return (msg); } static void print_status(int status, const char *spec_msg) { if (spec_msg == NULL) { spec_msg = ""; } (void) fprintf(stdout, "Status: %d %s %s%s", status, status_msg(status), spec_msg, WBCGI_CRNL); } static char * make_path(const char *root, const char *suffix) { char path[MAXPATHLEN]; char *ptr = NULL; int chars; if ((chars = snprintf(path, sizeof (path), "%s/%s", root, suffix)) < 0 || chars > sizeof (path) || (ptr = strdup(path)) == NULL) { print_status(500, "(error making path)"); } return (ptr); } static void free_path(char **pathp) { if (*pathp != NULL) { free(*pathp); *pathp = NULL; } } static char * gen_tmppath(const char *prefix, const char *net, const char *cid) { pid_t pid; time_t secs; int chars; char path[MAXPATHLEN]; char *ptr = NULL; if ((pid = getpid()) < 0 || (secs = time(NULL)) < 0 || (chars = snprintf(path, sizeof (path), "/tmp/%s_%s_%s_%ld_%ld", prefix, net, cid, pid, secs)) < 0 || chars > sizeof (path) || (ptr = strdup(path)) == NULL) { print_status(500, "(error creating temporary filename)"); } return (ptr); } /* * File I/O stuff: */ static boolean_t write_buffer(int fd, const void *buffer, size_t buflen) { size_t nwritten; ssize_t nbytes; const char *buf = buffer; for (nwritten = 0; nwritten < buflen; nwritten += nbytes) { nbytes = write(fd, &buf[nwritten], buflen - nwritten); if (nbytes <= 0) { return (B_FALSE); } } return (B_TRUE); } static boolean_t write_file(int ofd, const char *filename, size_t size) { boolean_t ret = B_TRUE; int ifd; char buf[1024]; size_t rlen; ssize_t wlen; if ((ifd = open(filename, O_RDONLY)) < 0) { return (B_FALSE); } for (; size != 0; size -= wlen) { rlen = (size < sizeof (buf)) ? size : sizeof (buf); if ((wlen = read(ifd, buf, rlen)) < 0 || !write_buffer(ofd, buf, wlen)) { ret = B_FALSE; break; } } (void) close(ifd); return (ret); } static boolean_t copy_file(const char *src, const char *dest) { boolean_t ret = B_FALSE; char message[WBCGI_MAXBUF]; const size_t chunksize = 16 * PAGESIZE; size_t validsize; size_t nwritten = 0; size_t nbytes = 0; off_t roff; int mflags = MAP_PRIVATE; char *buf = NULL; struct stat st; int rfd = -1; int wfd = -1; int chars; if ((rfd = open(src, O_RDONLY)) < 0 || (wfd = open(dest, O_CREAT|O_EXCL|O_RDWR, S_IRUSR|S_IWUSR)) < 0 || fstat(rfd, &st) == -1) { goto cleanup; } for (nbytes = st.st_size, roff = 0; nwritten < nbytes; nwritten += validsize, roff += validsize) { buf = mmap(buf, chunksize, PROT_READ, mflags, rfd, roff); if (buf == MAP_FAILED) { goto cleanup; } mflags |= MAP_FIXED; validsize = MIN(chunksize, nbytes - nwritten); if (!write_buffer(wfd, buf, validsize)) { (void) munmap(buf, chunksize); goto cleanup; } } if (buf != NULL) { (void) munmap(buf, chunksize); } ret = B_TRUE; cleanup: if (ret == B_FALSE) { if ((chars = snprintf(message, sizeof (message), "error copying %s to %s", src, dest)) > 0 && chars <= sizeof (message)) { print_status(500, message); } else { print_status(500, NULL); } } if (rfd != -1) { (void) close(rfd); } if (wfd != -1) { (void) close(wfd); } return (ret); } static boolean_t create_nonce(const char *noncepath, const char *nonce) { boolean_t ret = B_TRUE; int fd; if ((fd = open(noncepath, O_WRONLY|O_CREAT|O_EXCL, S_IRUSR|S_IWUSR)) == -1 || !write_buffer(fd, nonce, strlen(nonce))) { print_status(500, "(error creating nonce file)"); ret = B_FALSE; } if (fd != -1) { (void) close(fd); } return (ret); } static boolean_t create_timestamp(const char *timestamppath, const char *timestamp) { boolean_t ret = B_TRUE; int fd; if ((fd = open(timestamppath, O_WRONLY|O_CREAT|O_EXCL, S_IRUSR|S_IWUSR)) == -1 || !write_buffer(fd, timestamp, strlen(timestamp))) { print_status(500, "(error creating timestamp file)"); ret = B_FALSE; } if (fd != -1) { (void) close(fd); } return (ret); } static boolean_t create_urandom(const char *urandompath) { boolean_t ret = B_TRUE; int fd; if ((fd = open(urandompath, O_WRONLY|O_CREAT|O_EXCL, S_IRUSR|S_IWUSR)) == -1 || !write_file(fd, WBCGI_DEV_URANDOM, 32 * 1024)) { print_status(500, "(error creating urandom file)"); ret = B_FALSE; } if (fd != -1) { (void) close(fd); } return (ret); } static boolean_t create_null_hash(const char *hashpath) { boolean_t ret = B_TRUE; int fd; static char null_hash[HMAC_DIGEST_LEN]; if ((fd = open(hashpath, O_WRONLY|O_CREAT|O_EXCL, S_IRUSR|S_IWUSR)) == -1 || !write_buffer(fd, null_hash, sizeof (null_hash))) { print_status(500, "(error creating null hash)"); ret = B_FALSE; } if (fd != -1) { (void) close(fd); } return (ret); } static char * determine_doc_root(void) { char *doc_root; /* * If DOCUMENT_ROOT is valid, use that. */ if ((doc_root = getenv("DOCUMENT_ROOT")) == NULL || strlen(doc_root) == 0) { /* * No DOCUMENT_ROOT - try PATH_TRANSLATED. */ if ((doc_root = getenv("PATH_TRANSLATED")) == NULL || strlen(doc_root) == 0) { /* * Can't determine the document root. */ return (NULL); } } return (doc_root); } static boolean_t get_request_info(int *contentp, char **netp, char **cidp, char **noncep, char **docrootp) { char *method; char *query_string; char *value; char *junk; int i; if ((method = getenv("REQUEST_METHOD")) == NULL || strncasecmp(method, "GET", strlen("GET") != 0)) { print_status(403, "(GET method expected)"); return (B_FALSE); } if ((query_string = getenv("QUERY_STRING")) == NULL) { print_status(400, "(empty query string)"); return (B_FALSE); } for (i = 0; i < strlen(query_string); i++) { if (query_string[i] == '&') { query_string[i] = ','; } } *contentp = WBCGI_CONTENT_ERROR; *netp = *cidp = *noncep = NULL; if ((*docrootp = determine_doc_root()) == NULL) { print_status(400, "(unable to determine document root)"); return (B_FALSE); } while (*query_string != '\0') { switch (getsubopt(&query_string, queryopts, &value)) { case WBCGI_QUERYOPT_CONTENT: *contentp = getsubopt(&value, contents, &junk); break; case WBCGI_QUERYOPT_NET: *netp = value; break; case WBCGI_QUERYOPT_CID: *cidp = value; break; case WBCGI_QUERYOPT_NONCE: *noncep = value; break; default: print_status(400, "(illegal query string)"); return (B_FALSE); } } switch (*contentp) { default: print_status(400, "(missing or illegal CONTENT)"); return (B_FALSE); case WBCGI_CONTENT_BOOTFS: if (*netp == NULL || *cidp == NULL || *noncep == NULL) { print_status(400, "(CONTENT, IP, CID and NONCE required)"); return (B_FALSE); } break; case WBCGI_CONTENT_BOOTFILE: case WBCGI_CONTENT_ROOTFS: if (*netp == NULL || *cidp == NULL || *docrootp == NULL) { print_status(400, "(CONTENT, IP, CID and DOCUMENT_ROOT required)"); return (B_FALSE); } break; } return (B_TRUE); } static boolean_t encrypt_payload(const char *payload, const char *encr_payload, const char *keyfile, const char *encryption_type) { struct stat sbuf; int chars; char cmd[MAXPATHLEN]; FILE *fp; int status; char msg[WBCGI_MAXBUF]; if (!WBCGI_FILE_EXISTS(payload, sbuf)) { print_status(500, "(encrypt_payload: missing payload)"); return (B_FALSE); } if ((chars = snprintf(cmd, sizeof (cmd), "%s -o type=%s -k %s < %s > %s", WBCGI_ENCR_PATH, encryption_type, keyfile, payload, encr_payload)) < 0 || chars > sizeof (cmd)) { print_status(500, "(encrypt_payload: buffer overflow)"); return (B_FALSE); } if ((fp = popen(cmd, "w")) == NULL) { print_status(500, "(encrypt_payload: missing/file error)"); return (B_FALSE); } if ((status = WEXITSTATUS(pclose(fp))) != 0) { (void) snprintf(msg, sizeof (msg), "(encrypt_payload: failed, status=%d)", status); print_status(500, msg); return (B_FALSE); } if (!WBCGI_FILE_EXISTS(encr_payload, sbuf)) { print_status(500, "(encrypt_payload: bad encrypted file)"); return (B_FALSE); } return (B_TRUE); } static boolean_t hash_payload(const char *payload, const char *payload_hash, const char *keyfile) { struct stat sbuf; int chars; char cmd[MAXPATHLEN]; FILE *fp; int status; char msg[WBCGI_MAXBUF]; if (!WBCGI_FILE_EXISTS(payload, sbuf)) { print_status(500, "(hash_payload: missing payload)"); return (B_FALSE); } if ((chars = snprintf(cmd, sizeof (cmd), "%s -i %s -k %s > %s", WBCGI_HMAC_PATH, payload, keyfile, payload_hash)) < 0 || chars > sizeof (cmd)) { print_status(500, "(hash_payload: buffer overflow)"); return (B_FALSE); } if ((fp = popen(cmd, "w")) == NULL) { print_status(500, "(hash_payload: missing/file error)"); return (B_FALSE); } if ((status = WEXITSTATUS(pclose(fp))) != 0) { (void) snprintf(msg, sizeof (msg), "(hash_payload: failed, status=%d)", status); print_status(500, msg); return (B_FALSE); } if (!WBCGI_FILE_EXISTS(payload_hash, sbuf) || sbuf.st_size < HMAC_DIGEST_LEN) { print_status(500, "(hash_payload: bad signature file)"); return (B_FALSE); } return (B_TRUE); } static boolean_t extract_keystore(const char *path, const char *keystorepath) { struct stat sbuf; int chars; char cmd[MAXPATHLEN]; FILE *fp; int status; char msg[WBCGI_MAXBUF]; if (!WBCGI_FILE_EXISTS(path, sbuf)) { print_status(500, "(extract_keystore: missing keystore)"); return (B_FALSE); } if ((chars = snprintf(cmd, sizeof (cmd), "%s -x -f %s -s %s -o type=rsa", WBCGI_KEYMGMT_PATH, keystorepath, path)) < 0 || chars > sizeof (cmd)) { print_status(500, "(extract_keystore: buffer overflow)"); return (B_FALSE); } if ((fp = popen(cmd, "w")) == NULL) { print_status(500, "(extract_keystore: missing/file error)"); return (B_FALSE); } if ((status = WEXITSTATUS(pclose(fp))) != 0) { (void) snprintf(msg, sizeof (msg), "(extract_keystore: failed, status=%d)", status); print_status(500, msg); return (B_FALSE); } if (!WBCGI_FILE_EXISTS(keystorepath, sbuf)) { print_status(500, "(extract_keystore: failed to create)"); return (B_FALSE); } return (B_TRUE); } static boolean_t mkisofs(const char *image_dir, const char *image) { struct stat sbuf; int chars; char cmd[MAXPATHLEN]; FILE *fp; int status; char msg[WBCGI_MAXBUF]; if (!WBCGI_DIR_EXISTS(image_dir, sbuf)) { print_status(500, "(mksiofs: missing image_dir)"); return (B_FALSE); } if ((chars = snprintf(cmd, sizeof (cmd), "%s -quiet -o %s -r %s", WBCGI_MKISOFS_PATH, image, image_dir)) < 0 || chars > sizeof (cmd)) { print_status(500, "(mkisofs: buffer overflow)"); return (B_FALSE); } if ((fp = popen(cmd, "w")) == NULL) { print_status(500, "(mkisofs: missing/file error)"); return (B_FALSE); } if ((status = WEXITSTATUS(pclose(fp))) != 0) { (void) snprintf(msg, sizeof (msg), "(mkisofs: failed, status=%d)", status); print_status(500, msg); return (B_FALSE); } if (!WBCGI_FILE_EXISTS(image, sbuf)) { print_status(500, "(mksiofs: failed to create image)"); return (B_FALSE); } return (B_TRUE); } /* * This function, when invoked with a file name, optional network and * client ID strings, and callback function will search for the file * in the following locations: * * NB_NETBOOT_ROOT/// * NB_NETBOOT_ROOT// * NB_NETBOOT_ROOT// * NB_NETBOOT_ROOT/ * * The callback function is invoked each time the file is found until * we have searched all of the above locations or the callback function * returns a value other than WBCGI_FTW_CBCONT. * * Arguments: * filename - Name of file to search for. * net - Optional network number to include in search hierarchy. * cid - Optional client ID to include in search hierarchy. * cb - Callback function to be called when file is found. * arg - Argument to be supplied to the callback funtion. * * Returns: * WBCGI_FTW_DONE, WBCGI_FTW_CBOK or WBCGI_FTW_CBERR. */ static int netboot_ftw(const char *filename, const char *net, const char *cid, int (*cb)(const char *, void *arg), void *arg) { char ckpath[4][MAXPATHLEN]; int ret; struct stat buf; int i = 0; if (snprintf(ckpath[i++], MAXPATHLEN, "%s%s", NB_NETBOOT_ROOT, filename) >= MAXPATHLEN) return (WBCGI_FTW_CBERR); if (net != NULL && snprintf(ckpath[i++], MAXPATHLEN, "%s%s/%s", NB_NETBOOT_ROOT, net, filename) >= MAXPATHLEN) return (WBCGI_FTW_CBERR); if (cid != NULL) { if (snprintf(ckpath[i++], MAXPATHLEN, "%s%s/%s", NB_NETBOOT_ROOT, cid, filename) >= MAXPATHLEN) return (WBCGI_FTW_CBERR); if (net != NULL && snprintf(ckpath[i++], MAXPATHLEN, "%s%s/%s/%s", NB_NETBOOT_ROOT, net, cid, filename) >= MAXPATHLEN) return (WBCGI_FTW_CBERR); } /* * Loop through hierarchy and check for file existence. */ while (i > 0) { --i; if (WBCGI_FILE_EXISTS(ckpath[i], buf)) { if ((ret = cb(ckpath[i], arg)) != WBCGI_FTW_CBCONT) return (ret); } } return (WBCGI_FTW_DONE); } /*ARGSUSED*/ static int noact_cb(const char *path, void *arg) { return (WBCGI_FTW_CBOK); } static int set_pathname(const char *path, void *pathname) { *(char **)pathname = strdup((char *)path); return (WBCGI_FTW_CBOK); } static int create_keystore(const char *path, void *keystorepath) { if (!extract_keystore(path, (char *)keystorepath)) { return (WBCGI_FTW_CBERR); } return (WBCGI_FTW_CBOK); } static int copy_certstore(const char *path, void *certstorepath) { if (!copy_file(path, (char *)certstorepath)) { return (WBCGI_FTW_CBERR); } return (WBCGI_FTW_CBOK); } /* * Add the certs found in the trustfile found in path (a trust store) to * the file found at bootfs_dir/truststore. If necessary, create the * output file. */ static int build_trustfile(const char *path, void *truststorepath) { int ret = WBCGI_FTW_CBERR; STACK_OF(X509) *i_anchors = NULL; STACK_OF(X509) *o_anchors = NULL; char message[WBCGI_MAXBUF]; PKCS12 *p12 = NULL; FILE *rfp = NULL; FILE *wfp = NULL; struct stat i_st; struct stat o_st; X509 *x = NULL; int errtype = 0; int wfd = -1; int chars; int i; if (!WBCGI_FILE_EXISTS(path, i_st)) { goto cleanup; } if (WBCGI_FILE_EXISTS((char *)truststorepath, o_st)) { /* * If we are inadvertantly writing to the input file. * return success. * XXX Pete: how can this happen, and why success? */ if (i_st.st_ino == o_st.st_ino) { ret = WBCGI_FTW_CBCONT; goto cleanup; } if ((wfp = fopen((char *)truststorepath, "r+")) == NULL) { goto cleanup; } /* * Read what's already there, so that new information * can be added. */ if ((p12 = d2i_PKCS12_fp(wfp, NULL)) == NULL) { errtype = 1; goto cleanup; } i = sunw_PKCS12_parse(p12, WANBOOT_PASSPHRASE, DO_NONE, NULL, 0, NULL, NULL, NULL, &o_anchors); if (i <= 0) { errtype = 1; goto cleanup; } PKCS12_free(p12); p12 = NULL; } else { if (errno != ENOENT) { chars = snprintf(message, sizeof (message), "(error accessing file %s, error %s)", path, strerror(errno)); if (chars > 0 && chars < sizeof (message)) print_status(500, message); else print_status(500, NULL); return (WBCGI_FTW_CBERR); } /* * Note: We could copy the file to the new trustfile, but * we can't verify the password that way. Therefore, copy * it by reading it. */ if ((wfd = open((char *)truststorepath, O_CREAT|O_EXCL|O_RDWR, 0700)) < 0) { goto cleanup; } if ((wfp = fdopen(wfd, "w+")) == NULL) { goto cleanup; } o_anchors = sk_X509_new_null(); if (o_anchors == NULL) { goto cleanup; } } if ((rfp = fopen(path, "r")) == NULL) { goto cleanup; } if ((p12 = d2i_PKCS12_fp(rfp, NULL)) == NULL) { errtype = 1; goto cleanup; } i = sunw_PKCS12_parse(p12, WANBOOT_PASSPHRASE, DO_NONE, NULL, 0, NULL, NULL, NULL, &i_anchors); if (i <= 0) { errtype = 1; goto cleanup; } PKCS12_free(p12); p12 = NULL; /* * Merge the two stacks of pkcs12 certs. */ for (i = 0; i < sk_X509_num(i_anchors); i++) { /* LINTED */ x = sk_X509_delete(i_anchors, i); (void) sk_X509_push(o_anchors, x); } /* * Create the pkcs12 structure from the modified input stack and * then write out that structure. */ p12 = sunw_PKCS12_create((const char *)WANBOOT_PASSPHRASE, NULL, NULL, o_anchors); if (p12 == NULL) { goto cleanup; } rewind(wfp); if (i2d_PKCS12_fp(wfp, p12) == 0) { goto cleanup; } ret = WBCGI_FTW_CBCONT; cleanup: if (ret == WBCGI_FTW_CBERR) { if (errtype == 1) { chars = snprintf(message, sizeof (message), "(internal PKCS12 error while copying %s to %s)", path, (char *)truststorepath); } else { chars = snprintf(message, sizeof (message), "(error copying %s to %s)", path, (char *)truststorepath); } if (chars > 0 && chars <= sizeof (message)) { print_status(500, message); } else { print_status(500, NULL); } } if (rfp != NULL) { (void) fclose(rfp); } if (wfp != NULL) { /* Will also close wfd */ (void) fclose(wfp); } if (p12 != NULL) { PKCS12_free(p12); } if (i_anchors != NULL) { sk_X509_pop_free(i_anchors, X509_free); } if (o_anchors != NULL) { sk_X509_pop_free(o_anchors, X509_free); } return (ret); } static boolean_t check_key_type(const char *keyfile, const char *keytype, int flag) { boolean_t ret = B_FALSE; FILE *key_fp = NULL; wbku_key_attr_t ka; /* * Map keytype into the ka structure */ if (wbku_str_to_keyattr(keytype, &ka, flag) != WBKU_SUCCESS) { goto cleanup; } /* * Open the key file for reading. */ if ((key_fp = fopen(keyfile, "r")) == NULL) { goto cleanup; } /* * Find the valid client key, if it exists. */ if (wbku_find_key(key_fp, NULL, &ka, NULL, B_FALSE) != WBKU_SUCCESS) { goto cleanup; } ret = B_TRUE; cleanup: if (key_fp != NULL) { (void) fclose(key_fp); } return (ret); } static boolean_t resolve_hostname(const char *hostname, nvlist_t *nvl, boolean_t may_be_crap) { struct sockaddr_in sin; struct hostent *hp; struct utsname un; static char myname[SYS_NMLN] = { '\0' }; char *cp = NULL; char msg[WBCGI_MAXBUF]; /* * Initialize cached nodename */ if (strlen(myname) == 0) { if (uname(&un) == -1) { (void) snprintf(msg, sizeof (msg), "(unable to retrieve uname, errno %d)", errno); print_status(500, msg); return (B_FALSE); } (void) strcpy(myname, un.nodename); } /* * If hostname is local node name, return the address this * request came in on, which is supplied as SERVER_ADDR in the * cgi environment. This ensures we don't send back a possible * alternate address that may be unreachable from the client's * network. Otherwise, just resolve with nameservice. */ if ((strcmp(hostname, myname) != 0) || ((cp = getenv("SERVER_ADDR")) == NULL)) { if (((hp = gethostbyname(hostname)) == NULL) || (hp->h_addrtype != AF_INET) || (hp->h_length != sizeof (struct in_addr))) { if (!may_be_crap) { print_status(500, "(error resolving hostname)"); } return (may_be_crap); } (void) memcpy(&sin.sin_addr, hp->h_addr, hp->h_length); cp = inet_ntoa(sin.sin_addr); } if (nvlist_add_string(nvl, (char *)hostname, cp) != 0) { print_status(500, "(error adding hostname to nvlist)"); return (B_FALSE); } return (B_TRUE); } /* * one_name() is called for each certificate found and is passed the string * that X509_NAME_oneline() returns. Its job is to find the common name and * determine whether it is a host name; if it is then a line suitable for * inclusion in /etc/inet/hosts is written to that file. */ static boolean_t one_name(const char *namestr, nvlist_t *nvl) { boolean_t ret = B_TRUE; char *p; char *q; char c; if (namestr != NULL && (p = strstr(namestr, WBCGI_CNSTR)) != NULL) { p += WBCGI_CNSTR_LEN; if ((q = strpbrk(p, WBCGI_NAMESEP)) != NULL) { c = *q; *q = '\0'; ret = resolve_hostname(p, nvl, B_TRUE); *q = c; } else { ret = resolve_hostname(p, nvl, B_TRUE); } } return (ret); } /* * Loop through the certificates in a file */ static int get_hostnames(const char *path, void *nvl) { int ret = WBCGI_FTW_CBERR; STACK_OF(X509) *certs = NULL; PKCS12 *p12 = NULL; char message[WBCGI_MAXBUF]; char buf[WBCGI_MAXBUF + 1]; FILE *rfp = NULL; X509 *x = NULL; int errtype = 0; int chars; int i; if ((rfp = fopen(path, "r")) == NULL) { goto cleanup; } if ((p12 = d2i_PKCS12_fp(rfp, NULL)) == NULL) { errtype = 1; goto cleanup; } i = sunw_PKCS12_parse(p12, WANBOOT_PASSPHRASE, DO_NONE, NULL, 0, NULL, NULL, NULL, &certs); if (i <= 0) { errtype = 1; goto cleanup; } PKCS12_free(p12); p12 = NULL; for (i = 0; i < sk_X509_num(certs); i++) { /* LINTED */ x = sk_X509_value(certs, i); if (!one_name(sunw_issuer_attrs(x, buf, sizeof (buf) - 1), nvl)) { goto cleanup; } } ret = WBCGI_FTW_CBCONT; cleanup: if (ret == WBCGI_FTW_CBERR) { if (errtype == 1) { chars = snprintf(message, sizeof (message), "(internal PKCS12 error reading %s)", path); } else { chars = snprintf(message, sizeof (message), "error reading %s", path); } if (chars > 0 && chars <= sizeof (message)) { print_status(500, message); } else { print_status(500, NULL); } } if (rfp != NULL) { (void) fclose(rfp); } if (p12 != NULL) { PKCS12_free(p12); } if (certs != NULL) { sk_X509_pop_free(certs, X509_free); } return (ret); } /* * Create a hosts file by extracting hosts from client and truststore * files. Use the CN. Then we should copy that file to the inet dir. */ static boolean_t create_hostsfile(const char *hostsfile, const char *net, const char *cid) { boolean_t ret = B_FALSE; nvlist_t *nvl; nvpair_t *nvp; FILE *hostfp = NULL; int hostfd = -1; int i; char *hostslist; const char *bc_urls[] = { BC_ROOT_SERVER, BC_BOOT_LOGGER, NULL }; /* * Allocate nvlist handle to store our hostname/IP pairs. */ if (nvlist_alloc(&nvl, NV_UNIQUE_NAME, 0) != 0) { print_status(500, "(error allocating hostname nvlist)"); goto cleanup; } /* * Extract and resolve hostnames from CNs. */ if (netboot_ftw(NB_CLIENT_CERT, net, cid, get_hostnames, nvl) == WBCGI_FTW_CBERR || netboot_ftw(NB_CA_CERT, net, cid, get_hostnames, nvl) == WBCGI_FTW_CBERR) { goto cleanup; } /* * Extract and resolve hostnames from any URLs in bootconf. */ for (i = 0; bc_urls[i] != NULL; ++i) { char *urlstr; url_t url; if ((urlstr = bootconf_get(&bc_handle, bc_urls[i])) != NULL && url_parse(urlstr, &url) == URL_PARSE_SUCCESS) { if (!resolve_hostname(url.hport.hostname, nvl, B_FALSE)) { goto cleanup; } } } /* * If there is a resolve-hosts list in bootconf, resolve those * hostnames too. */ if ((hostslist = bootconf_get(&bc_handle, BC_RESOLVE_HOSTS)) != NULL) { char *hostname; for (hostname = strtok(hostslist, ","); hostname != NULL; hostname = strtok(NULL, ",")) { if (!resolve_hostname(hostname, nvl, B_FALSE)) { goto cleanup; } } } /* * Now write the hostname/IP pairs gathered to the hosts file. */ if ((hostfd = open(hostsfile, O_RDWR|O_CREAT|O_EXCL, S_IRUSR|S_IWUSR)) == -1 || (hostfp = fdopen(hostfd, "w+")) == NULL) { print_status(500, "(error creating hosts file)"); goto cleanup; } for (nvp = nvlist_next_nvpair(nvl, NULL); nvp != NULL; nvp = nvlist_next_nvpair(nvl, nvp)) { char *hostname; char *ipstr; hostname = nvpair_name(nvp); if (nvpair_value_string(nvp, &ipstr) != 0) { print_status(500, "(nvl error writing hosts file)"); goto cleanup; } if (fprintf(hostfp, "%s\t%s\n", ipstr, hostname) < 0) { print_status(500, "(error writing hosts file)"); goto cleanup; } } ret = B_TRUE; cleanup: if (nvl != NULL) { nvlist_free(nvl); } if (hostfp != NULL) { /* * hostfd is automatically closed as well. */ (void) fclose(hostfp); } return (ret); } static boolean_t bootfile_payload(const char *docroot, char **bootpathp) { boolean_t ret = B_FALSE; char *boot_file; struct stat sbuf; if ((boot_file = bootconf_get(&bc_handle, BC_BOOT_FILE)) == NULL) { print_status(500, "(boot_file must be specified)"); goto cleanup; } if ((*bootpathp = make_path(docroot, boot_file)) == NULL) { goto cleanup; } if (!WBCGI_FILE_EXISTS(*bootpathp, sbuf)) { print_status(500, "(boot_file missing)"); goto cleanup; } ret = B_TRUE; cleanup: return (ret); } /* * Create the wanboot file system whose contents are determined by the * security configuration specified in bootconf. */ static boolean_t wanbootfs_payload(const char *net, const char *cid, const char *nonce, const char *bootconf, char **wanbootfs_imagep) { int ret = B_FALSE; char *server_authentication; char *client_authentication; char *scf; char *bootfs_dir = NULL; char *bootfs_etc_dir = NULL; char *bootfs_etc_inet_dir = NULL; char *bootfs_dev_dir = NULL; char *systemconf = NULL; char *keystorepath = NULL; char *certstorepath = NULL; char *truststorepath = NULL; char *bootconfpath = NULL; char *systemconfpath = NULL; char *urandompath = NULL; char *noncepath = NULL; char *hostspath = NULL; char *etc_hostspath = NULL; char *timestamppath = NULL; boolean_t authenticate_client; boolean_t authenticate_server; struct stat sbuf; /* * Initialize SSL stuff. */ sunw_crypto_init(); /* * Get the security strategy values. */ client_authentication = bootconf_get(&bc_handle, BC_CLIENT_AUTHENTICATION); authenticate_client = (client_authentication != NULL && strcmp(client_authentication, "yes") == 0); server_authentication = bootconf_get(&bc_handle, BC_SERVER_AUTHENTICATION); authenticate_server = (server_authentication != NULL && strcmp(server_authentication, "yes") == 0); /* * Make a temporary directory structure for the wanboot file system. */ if ((bootfs_dir = gen_tmppath("bootfs_dir", net, cid)) == NULL || (bootfs_etc_dir = make_path(bootfs_dir, "etc")) == NULL || (bootfs_etc_inet_dir = make_path(bootfs_etc_dir, "inet")) == NULL || (bootfs_dev_dir = make_path(bootfs_dir, "dev")) == NULL) { goto cleanup; } if (mkdirp(bootfs_dir, 0700) || mkdirp(bootfs_etc_dir, 0700) || mkdirp(bootfs_etc_inet_dir, 0700) || mkdirp(bootfs_dev_dir, 0700)) { print_status(500, "(error creating wanbootfs dir structure)"); goto cleanup; } if (authenticate_client) { /* * Add the client private key. */ if ((keystorepath = make_path(bootfs_dir, NB_CLIENT_KEY)) == NULL || netboot_ftw(NB_CLIENT_KEY, net, cid, create_keystore, keystorepath) != WBCGI_FTW_CBOK) { goto cleanup; } /* * Add the client certificate. */ if ((certstorepath = make_path(bootfs_dir, NB_CLIENT_CERT)) == NULL || netboot_ftw(NB_CLIENT_CERT, net, cid, copy_certstore, certstorepath) != WBCGI_FTW_CBOK) { goto cleanup; } } if (authenticate_client || authenticate_server) { /* * Add the trustfile; at least one truststore must exist. */ if ((truststorepath = make_path(bootfs_dir, NB_CA_CERT)) == NULL) { goto cleanup; } if (netboot_ftw(NB_CA_CERT, net, cid, noact_cb, NULL) != WBCGI_FTW_CBOK) { print_status(500, "(truststore not found)"); } if (netboot_ftw(NB_CA_CERT, net, cid, build_trustfile, truststorepath) == WBCGI_FTW_CBERR) { goto cleanup; } /* * Create the /dev/urandom file. */ if ((urandompath = make_path(bootfs_dev_dir, "urandom")) == NULL || !create_urandom(urandompath)) { goto cleanup; } } /* * Add the wanboot.conf(4) file. */ if ((bootconfpath = make_path(bootfs_dir, NB_WANBOOT_CONF)) == NULL || !copy_file(bootconf, bootconfpath)) { goto cleanup; } /* * Add the system_conf file if present. */ if ((scf = bootconf_get(&bc_handle, BC_SYSTEM_CONF)) != NULL) { if (netboot_ftw(scf, net, cid, set_pathname, &systemconf) != WBCGI_FTW_CBOK) { print_status(500, "(system_conf file not found)"); goto cleanup; } if ((systemconfpath = make_path(bootfs_dir, NB_SYSTEM_CONF)) == NULL || !copy_file(systemconf, systemconfpath)) { goto cleanup; } } /* * Create the /nonce file. */ if ((noncepath = make_path(bootfs_dir, "nonce")) == NULL || !create_nonce(noncepath, nonce)) { goto cleanup; } /* * Create an /etc/inet/hosts file by extracting hostnames from CN, * URLs in bootconf and resolve-hosts in bootconf. */ if ((hostspath = make_path(bootfs_etc_inet_dir, "hosts")) == NULL || !create_hostsfile(hostspath, net, cid)) { goto cleanup; } /* * We would like to create a symbolic link etc/hosts -> etc/inet/hosts, * but unfortunately the HSFS support in the standalone doesn't handle * symlinks. */ if ((etc_hostspath = make_path(bootfs_etc_dir, "hosts")) == NULL || !copy_file(hostspath, etc_hostspath)) { goto cleanup; } /* * Create the /timestamp file. */ if ((timestamppath = make_path(bootfs_dir, "timestamp")) == NULL || !create_timestamp(timestamppath, "timestamp")) { goto cleanup; } /* * Create an HSFS file system for the directory. */ if ((*wanbootfs_imagep = gen_tmppath("wanbootfs", net, cid)) == NULL || !mkisofs(bootfs_dir, *wanbootfs_imagep)) { goto cleanup; } ret = B_TRUE; cleanup: /* * Clean up temporary files and directories. */ if (keystorepath != NULL && WBCGI_FILE_EXISTS(keystorepath, sbuf)) { (void) unlink(keystorepath); } if (certstorepath != NULL && WBCGI_FILE_EXISTS(certstorepath, sbuf)) { (void) unlink(certstorepath); } if (truststorepath != NULL && WBCGI_FILE_EXISTS(truststorepath, sbuf)) { (void) unlink(truststorepath); } if (bootconfpath != NULL && WBCGI_FILE_EXISTS(bootconfpath, sbuf)) { (void) unlink(bootconfpath); } if (systemconfpath != NULL && WBCGI_FILE_EXISTS(systemconfpath, sbuf)) { (void) unlink(systemconfpath); } if (urandompath != NULL && WBCGI_FILE_EXISTS(urandompath, sbuf)) { (void) unlink(urandompath); } if (noncepath != NULL && WBCGI_FILE_EXISTS(noncepath, sbuf)) { (void) unlink(noncepath); } if (hostspath != NULL && WBCGI_FILE_EXISTS(hostspath, sbuf)) { (void) unlink(hostspath); } if (etc_hostspath != NULL && WBCGI_FILE_EXISTS(etc_hostspath, sbuf)) { (void) unlink(etc_hostspath); } if (timestamppath != NULL && WBCGI_FILE_EXISTS(timestamppath, sbuf)) { (void) unlink(timestamppath); } if (bootfs_etc_inet_dir != NULL && WBCGI_DIR_EXISTS(bootfs_etc_inet_dir, sbuf)) { (void) rmdir(bootfs_etc_inet_dir); } if (bootfs_etc_dir != NULL && WBCGI_DIR_EXISTS(bootfs_etc_dir, sbuf)) { (void) rmdir(bootfs_etc_dir); } if (bootfs_dev_dir != NULL && WBCGI_DIR_EXISTS(bootfs_dev_dir, sbuf)) { (void) rmdir(bootfs_dev_dir); } if (bootfs_dir != NULL && WBCGI_DIR_EXISTS(bootfs_dir, sbuf)) { (void) rmdir(bootfs_dir); } /* * Free allocated memory. */ free_path(&bootfs_dir); free_path(&bootfs_etc_dir); free_path(&bootfs_etc_inet_dir); free_path(&bootfs_dev_dir); free_path(&systemconf); free_path(&keystorepath); free_path(&certstorepath); free_path(&truststorepath); free_path(&bootconfpath); free_path(&systemconfpath); free_path(&urandompath); free_path(&noncepath); free_path(&hostspath); free_path(&etc_hostspath); free_path(×tamppath); return (ret); } static boolean_t miniroot_payload(const char *net, const char *cid, const char *docroot, char **rootpathp, char **rootinfop, boolean_t *https_rootserverp) { boolean_t ret = B_FALSE; char *root_server; char *root_file; url_t url; struct stat sbuf; char sizebuf[WBCGI_MAXBUF]; int chars; int fd = -1; if ((root_server = bootconf_get(&bc_handle, BC_ROOT_SERVER)) == NULL) { print_status(500, "(root_server must be specified)"); goto cleanup; } if (url_parse(root_server, &url) != URL_PARSE_SUCCESS) { print_status(500, "(root_server URL is invalid)"); } *https_rootserverp = url.https; if ((root_file = bootconf_get(&bc_handle, BC_ROOT_FILE)) == NULL) { print_status(500, "(rootfile must be specified)"); goto cleanup; } if ((*rootpathp = make_path(docroot, root_file)) == NULL) { goto cleanup; } if (!WBCGI_FILE_EXISTS(*rootpathp, sbuf)) { print_status(500, "(root filesystem image missing)"); goto cleanup; } if ((*rootinfop = gen_tmppath("mrinfo", net, cid)) == NULL) { goto cleanup; } if ((chars = snprintf(sizebuf, sizeof (sizebuf), "%ld", sbuf.st_size)) < 0 || chars > sizeof (sizebuf) || (fd = open(*rootinfop, O_RDWR|O_CREAT|O_EXCL, S_IRUSR|S_IWUSR)) == -1 || !write_buffer(fd, sizebuf, strlen(sizebuf))) { print_status(500, "(error creating miniroot info file)"); goto cleanup; } ret = B_TRUE; cleanup: if (fd != -1) { (void) close(fd); } return (ret); } static boolean_t deliver_payload(const char *payload, const char *payload_hash) { int fd = fileno(stdout); struct stat payload_buf, hash_buf; int chars; char main_header[WBCGI_MAXBUF]; char multi_header[WBCGI_MAXBUF]; char multi_header1[WBCGI_MAXBUF]; char multi_header2[WBCGI_MAXBUF]; char multi_end[WBCGI_MAXBUF]; size_t msglen; if (!WBCGI_FILE_EXISTS(payload, payload_buf) || !WBCGI_FILE_EXISTS(payload_hash, hash_buf)) { print_status(500, "(payload/hash file(s) missing)"); return (B_FALSE); } /* * Multi-part header. */ if ((chars = snprintf(multi_header, sizeof (multi_header), "%s--%s%s%sapplication/octet-stream%s%s", WBCGI_CRNL, WBCGI_WANBOOT_BNDTXT, WBCGI_CRNL, WBCGI_CONTENT_TYPE, WBCGI_CRNL, WBCGI_CONTENT_LENGTH)) < 0 || chars > sizeof (multi_header)) { print_status(500, "(error creating multi_header)"); return (B_FALSE); } /* * Multi-part header for part one. */ if ((chars = snprintf(multi_header1, sizeof (multi_header1), "%s%ld%s%s", multi_header, payload_buf.st_size, WBCGI_CRNL, WBCGI_CRNL)) < 0 || chars > sizeof (multi_header1)) { print_status(500, "(error creating multi_header1)"); return (B_FALSE); } /* * Multi-part header for part two. */ if ((chars = snprintf(multi_header2, sizeof (multi_header2), "%s%ld%s%s", multi_header, hash_buf.st_size, WBCGI_CRNL, WBCGI_CRNL)) < 0 || chars > sizeof (multi_header2)) { print_status(500, "(error creating multi_header2)"); return (B_FALSE); } /* * End-of-parts Trailer. */ if ((chars = snprintf(multi_end, sizeof (multi_end), "%s--%s--%s", WBCGI_CRNL, WBCGI_WANBOOT_BNDTXT, WBCGI_CRNL)) < 0 || chars > sizeof (multi_end)) { print_status(500, "(error creating multi_end)"); return (B_FALSE); } /* * Message header. */ msglen = payload_buf.st_size + hash_buf.st_size + strlen(multi_header1) + strlen(multi_header2) + strlen(multi_end); if ((chars = snprintf(main_header, sizeof (main_header), "%s%u%s%smultipart/mixed; boundary=%s%s%s", WBCGI_CONTENT_LENGTH, msglen, WBCGI_CRNL, WBCGI_CONTENT_TYPE, WBCGI_WANBOOT_BNDTXT, WBCGI_CRNL, WBCGI_CRNL)) < 0 || chars > sizeof (main_header)) { print_status(500, "(error creating main_header)"); return (B_FALSE); } /* * Write the message out. If things fall apart during this then * there's no way to report the error back to the client. */ if (!write_buffer(fd, main_header, strlen(main_header)) || !write_buffer(fd, multi_header1, strlen(multi_header1)) || !write_file(fd, payload, payload_buf.st_size) || !write_buffer(fd, multi_header2, strlen(multi_header2)) || !write_file(fd, payload_hash, hash_buf.st_size) || !write_buffer(fileno(stdout), multi_end, strlen(multi_end))) { return (B_FALSE); } return (B_TRUE); } /*ARGSUSED*/ int main(int argc, char **argv) { int ret = WBCGI_STATUS_ERR; struct stat sbuf; int content; char *net; char *cid; char *nonce; char *docroot; char *payload; char *signature_type; char *encryption_type; char *bootconf = NULL; char *keyfile = NULL; char *bootpath = NULL; char *wanbootfs_image = NULL; char *rootpath = NULL; char *miniroot_info = NULL; char *encr_payload = NULL; char *payload_hash = NULL; boolean_t https_rootserver; /* * Process the query string. */ if (!get_request_info(&content, &net, &cid, &nonce, &docroot)) { goto cleanup; } /* * Sanity check that the netboot directory exists. */ if (!WBCGI_DIR_EXISTS(NB_NETBOOT_ROOT, sbuf)) { print_status(500, "(" NB_NETBOOT_ROOT " does not exist)"); goto cleanup; } /* * Get absolute bootconf pathname. */ if (netboot_ftw(NB_WANBOOT_CONF, net, cid, set_pathname, &bootconf) != WBCGI_FTW_CBOK) { print_status(500, "(wanboot.conf not found)"); goto cleanup; } /* * Initialize bc_handle from the given wanboot.conf file. */ if (bootconf_init(&bc_handle, bootconf) != BC_SUCCESS) { char message[WBCGI_MAXBUF]; int chars; chars = snprintf(message, sizeof (message), "(wanboot.conf error: %s)", bootconf_errmsg(&bc_handle)); if (chars > 0 && chars < sizeof (message)) print_status(500, message); else print_status(500, "(wanboot.conf error)"); goto cleanup; } /* * Get and check signature and encryption types, * presence of helper utilities, keystore, etc. */ if ((signature_type = bootconf_get(&bc_handle, BC_SIGNATURE_TYPE)) != NULL) { if (!WBCGI_FILE_EXISTS(WBCGI_HMAC_PATH, sbuf)) { print_status(500, "(hmac utility not found)"); goto cleanup; } if (keyfile == NULL && netboot_ftw(NB_CLIENT_KEY, net, cid, set_pathname, &keyfile) != WBCGI_FTW_CBOK) { print_status(500, "(keystore not found)"); goto cleanup; } if (!check_key_type(keyfile, signature_type, WBKU_HASH_KEY)) { print_status(500, "(hash key not found)"); goto cleanup; } } if ((encryption_type = bootconf_get(&bc_handle, BC_ENCRYPTION_TYPE)) != NULL) { if (signature_type == NULL) { print_status(500, "(encrypted but not signed)"); goto cleanup; } if (!WBCGI_FILE_EXISTS(WBCGI_ENCR_PATH, sbuf)) { print_status(500, "(encr utility not found)"); goto cleanup; } if (keyfile == NULL && netboot_ftw(NB_CLIENT_KEY, net, cid, set_pathname, &keyfile) != WBCGI_FTW_CBOK) { print_status(500, "(keystore not found)"); goto cleanup; } if (!check_key_type(keyfile, encryption_type, WBKU_ENCR_KEY)) { print_status(500, "(encr key not found)"); goto cleanup; } } /* * Determine/create our payload. */ switch (content) { case WBCGI_CONTENT_BOOTFILE: if (!bootfile_payload(docroot, &bootpath)) { goto cleanup; } payload = bootpath; break; case WBCGI_CONTENT_BOOTFS: if (!wanbootfs_payload(net, cid, nonce, bootconf, &wanbootfs_image)) { goto cleanup; } payload = wanbootfs_image; break; case WBCGI_CONTENT_ROOTFS: if (!miniroot_payload(net, cid, docroot, &rootpath, &miniroot_info, &https_rootserver)) { goto cleanup; } payload = rootpath; break; } /* * Encrypt the payload if necessary. */ if (content != WBCGI_CONTENT_BOOTFILE && content != WBCGI_CONTENT_ROOTFS && encryption_type != NULL) { if ((encr_payload = gen_tmppath("encr", net, cid)) == NULL) { goto cleanup; } if (!encrypt_payload(payload, encr_payload, keyfile, encryption_type)) { goto cleanup; } payload = encr_payload; } /* * Compute the hash (actual or null). */ if ((payload_hash = gen_tmppath("hash", net, cid)) == NULL) { goto cleanup; } if (signature_type != NULL && (content != WBCGI_CONTENT_ROOTFS || !https_rootserver)) { if (!hash_payload(payload, payload_hash, keyfile)) { goto cleanup; } } else { if (!create_null_hash(payload_hash)) { goto cleanup; } } /* * For the rootfs the actual payload transmitted is the file * containing the size of the rootfs (as a string of ascii digits); * point payload at this instead. */ if (content == WBCGI_CONTENT_ROOTFS) { payload = miniroot_info; } /* * Finally, deliver the payload and hash as a multipart message. */ if (!deliver_payload(payload, payload_hash)) { goto cleanup; } ret = WBCGI_STATUS_OK; cleanup: /* * Clean up temporary files. */ if (wanbootfs_image != NULL && WBCGI_FILE_EXISTS(wanbootfs_image, sbuf)) { (void) unlink(wanbootfs_image); } if (miniroot_info != NULL && WBCGI_FILE_EXISTS(miniroot_info, sbuf)) { (void) unlink(miniroot_info); } if (encr_payload != NULL && WBCGI_FILE_EXISTS(encr_payload, sbuf)) { (void) unlink(encr_payload); } if (payload_hash != NULL && WBCGI_FILE_EXISTS(payload_hash, sbuf)) { (void) unlink(payload_hash); } /* * Free up any allocated strings. */ free_path(&bootconf); free_path(&keyfile); free_path(&bootpath); free_path(&wanbootfs_image); free_path(&rootpath); free_path(&miniroot_info); free_path(&encr_payload); free_path(&payload_hash); bootconf_end(&bc_handle); return (ret); }