static spif_bool_t spif_url_init_from_ipaddr(spif_url_t self, spif_ipsockaddr_t ipaddr) { spif_uint8_t tries; spif_hostinfo_t hinfo; ASSERT_RVAL(!SPIF_URL_ISNULL(self), FALSE); spif_str_init(SPIF_STR(self)); spif_obj_set_class(SPIF_OBJ(self), SPIF_CLASS_VAR(url)); self->proto = (spif_str_t) NULL; self->user = (spif_str_t) NULL; self->passwd = (spif_str_t) NULL; self->path = (spif_str_t) NULL; self->query = (spif_str_t) NULL; /* Try up to 3 times to resolve the hostname. */ h_errno = 0; tries = 0; do { tries++; hinfo = gethostbyaddr((const char *) &(ipaddr->sin_addr), sizeof(ipaddr->sin_addr), AF_INET); } while ((tries <= 3) && (!hinfo) && (h_errno == TRY_AGAIN)); if (!hinfo || !hinfo->h_name) { spif_charptr_t buff; buff = SPIF_CHARPTR(inet_ntoa(ipaddr->sin_addr)); self->host = spif_str_new_from_ptr(buff); } else { self->host = spif_str_new_from_ptr(SPIF_CHARPTR(hinfo->h_name)); } self->port = spif_str_new_from_num(ntohs(ipaddr->sin_port)); return TRUE; }
/** * Option-type-to-string translator. * * This function is used internally by spifopt_usage() to convert an * option's numerical type to a short string representing that type of * option. * * @param type The numeric option type (SPIFOPT_OPT_FLAGS()). * @return A 6-char-max string describing the option type. * * @see @link DOXGRP_OPT Command Line Option Parser @endlink * @ingroup DOXGRP_OPT */ static spif_charptr_t get_option_type_string(spif_uint16_t type) { switch (type) { case SPIFOPT_FLAG_BOOLEAN: return SPIF_CHARPTR("(bool)"); break; case SPIFOPT_FLAG_INTEGER: return SPIF_CHARPTR("(int)"); break; case SPIFOPT_FLAG_ARGLIST: return SPIF_CHARPTR("(strs)"); break; default: return SPIF_CHARPTR("(str)"); } ASSERT_NOTREACHED_RVAL(NULL); }
spif_str_t spif_socket_show(spif_socket_t self, spif_charptr_t name, spif_str_t buff, size_t indent) { spif_char_t tmp[4096]; if (SPIF_SOCKET_ISNULL(self)) { SPIF_OBJ_SHOW_NULL(socket, name, buff, indent, tmp); return buff; } memset(tmp, ' ', indent); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_socket_t) %s: %10p {\n", name, (spif_ptr_t) self); if (SPIF_STR_ISNULL(buff)) { buff = spif_str_new_from_ptr(tmp); } else { spif_str_append_from_ptr(buff, tmp); } indent += 2; memset(tmp, ' ', indent); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_sockfd_t) fd: %d\n", self->fd); spif_str_append_from_ptr(buff, tmp); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_sockfamily_t) fam: %d\n", (int) self->fam); spif_str_append_from_ptr(buff, tmp); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_socktype_t) type: %d\n", (int) self->type); spif_str_append_from_ptr(buff, tmp); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_sockproto_t) proto: %d\n", (int) self->proto); spif_str_append_from_ptr(buff, tmp); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_sockaddr_t) addr: %10p\n", (spif_ptr_t) self->addr); spif_str_append_from_ptr(buff, tmp); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_sockaddr_len_t) len: %lu\n", (unsigned long) self->len); spif_str_append_from_ptr(buff, tmp); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_uint32_t) flags: 0x%08x\n", (unsigned) self->flags); spif_str_append_from_ptr(buff, tmp); spif_url_show(self->local_url, SPIF_CHARPTR("local_url"), buff, indent); spif_url_show(self->remote_url, SPIF_CHARPTR("remote_url"), buff, indent); indent -= 2; snprintf((char *) tmp + indent, sizeof(tmp) - indent, "}\n"); spif_str_append_from_ptr(buff, tmp); return buff; }
spif_bool_t spif_url_unparse(spif_url_t self) { ASSERT_RVAL(!SPIF_URL_ISNULL(self), FALSE); spif_str_done(SPIF_STR(self)); spif_str_init_from_ptr(SPIF_STR(self), SPIF_CHARPTR("")); /* First, proto followed by a colon. */ if (!SPIF_STR_ISNULL(self->proto)) { spif_str_append(SPIF_STR(self), self->proto); spif_str_append_char(SPIF_STR(self), ':'); } /* If we have a port but no host, make it localhost. */ if (!SPIF_STR_ISNULL(self->port) && SPIF_STR_ISNULL(self->host)) { self->host = spif_str_new_from_ptr(SPIF_CHARPTR("localhost")); } /* We need the // if we have a hostname. */ if (!SPIF_STR_ISNULL(self->host)) { spif_str_append_from_ptr(SPIF_STR(self), SPIF_CHARPTR("//")); } if (!SPIF_STR_ISNULL(self->user)) { spif_str_append(SPIF_STR(self), self->user); if (!SPIF_STR_ISNULL(self->passwd)) { spif_str_append_char(SPIF_STR(self), ':'); spif_str_append(SPIF_STR(self), self->passwd); } spif_str_append_char(SPIF_STR(self), '@'); } if (!SPIF_STR_ISNULL(self->host)) { spif_str_append(SPIF_STR(self), self->host); if (!SPIF_STR_ISNULL(self->port)) { spif_str_append_char(SPIF_STR(self), ':'); spif_str_append(SPIF_STR(self), self->port); } } if (!SPIF_STR_ISNULL(self->path)) { spif_str_append(SPIF_STR(self), self->path); } if (!SPIF_STR_ISNULL(self->query)) { spif_str_append_char(SPIF_STR(self), '?'); spif_str_append(SPIF_STR(self), self->query); } return TRUE; }
spif_charptr_t spiftool_join(spif_charptr_t sep, spif_charptr_t *slist) { register unsigned long i; size_t len, slen; spif_charptr_t new_str; ASSERT_RVAL(slist != (spif_ptr_t) NULL, (spif_ptr_t) NULL); REQUIRE_RVAL(*slist != (spif_ptr_t) NULL, (spif_ptr_t) NULL); if (!sep) { sep = SPIF_CHARPTR(""); } slen = strlen((char *) sep); for (i = len = 0; slist[i]; i++) { len += strlen((char *) slist[i]); } len += slen * (i - 1); new_str = (spif_charptr_t) MALLOC(len + 1); strcpy((char *) new_str, (char *) slist[0]); for (i = 1; slist[i]; i++) { if (slen) { strcat((char *) new_str, (char *) sep); } strcat((char *) new_str, (char *) slist[i]); } return new_str; }
spif_bool_t spif_socket_send(spif_socket_t self, spif_str_t data) { size_t len; int num_written; struct timeval tv = { 0, 0 }; ASSERT_RVAL(!SPIF_SOCKET_ISNULL(self), FALSE); REQUIRE_RVAL(!SPIF_STR_ISNULL(data), FALSE); len = spif_str_get_len(data); REQUIRE_RVAL(len > 0, FALSE); num_written = write(self->fd, SPIF_STR_STR(data), len); for (; (num_written < 0) && ((errno == EAGAIN) || (errno == EINTR)); ) { tv.tv_usec += 10000; if (tv.tv_usec == 1000000) { tv.tv_usec = 0; tv.tv_sec++; } select(0, NULL, NULL, NULL, &tv); num_written = write(self->fd, SPIF_STR_STR(data), len); } if (num_written < 0) { D_OBJ(("Unable to write to socket %d -- %s\n", self->fd, strerror(errno))); switch (errno) { case EFBIG: { spif_bool_t b; spif_str_t tmp_buf; spif_charptr_t s; long left; for (left = len, s = SPIF_CHARPTR(SPIF_STR_STR(data)); left > 0; s += 1024, left -= 1024) { tmp_buf = spif_str_new_from_buff(s, 1024); b = spif_socket_send(self, tmp_buf); if (b == FALSE) { spif_str_del(tmp_buf); return b; } } } break; case EIO: case EPIPE: close(self->fd); /* Drop */ case EBADF: case EINVAL: default: self->fd = -1; SPIF_SOCKET_FLAGS_CLEAR(self, SPIF_SOCKET_FLAGS_IOSTATE); return FALSE; break; } } return TRUE; }
spif_str_t spif_url_show(spif_url_t self, spif_charptr_t name, spif_str_t buff, size_t indent) { spif_char_t tmp[4096]; if (SPIF_URL_ISNULL(self)) { SPIF_OBJ_SHOW_NULL(url, name, buff, indent, tmp); return buff; } memset(tmp, ' ', indent); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_url_t) %s: %10p {\n", name, (spif_ptr_t) self); if (SPIF_STR_ISNULL(buff)) { buff = spif_str_new_from_ptr(tmp); } else { spif_str_append_from_ptr(buff, tmp); } buff = spif_str_show(self->proto, SPIF_CHARPTR("proto"), buff, indent + 2); buff = spif_str_show(self->user, SPIF_CHARPTR("user"), buff, indent + 2); buff = spif_str_show(self->passwd, SPIF_CHARPTR("passwd"), buff, indent + 2); buff = spif_str_show(self->host, SPIF_CHARPTR("host"), buff, indent + 2); buff = spif_str_show(self->port, SPIF_CHARPTR("port"), buff, indent + 2); buff = spif_str_show(self->path, SPIF_CHARPTR("path"), buff, indent + 2); buff = spif_str_show(self->query, SPIF_CHARPTR("query"), buff, indent + 2); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "}\n"); spif_str_append_from_ptr(buff, tmp); return buff; }
spif_str_t spif_tok_show(spif_tok_t self, spif_charptr_t name, spif_str_t buff, size_t indent) { spif_char_t tmp[4096]; if (SPIF_TOK_ISNULL(self)) { SPIF_OBJ_SHOW_NULL(tok, name, buff, indent, tmp); return buff; } memset(tmp, ' ', indent); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_tok_t) %s: %10p {\n", name, (spif_ptr_t) self); if (SPIF_STR_ISNULL(buff)) { buff = spif_str_new_from_ptr(tmp); } else { spif_str_append_from_ptr(buff, tmp); } buff = spif_str_show(SPIF_STR(self->src), SPIF_CHARPTR("src"), buff, indent + 2); buff = spif_str_show(SPIF_STR(self->sep), SPIF_CHARPTR("sep"), buff, indent + 2); indent += 2; memset(tmp, ' ', indent); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_char_t) quote: '%c' (0x%02x)\n", (char) self->quote, (unsigned int) self->quote); spif_str_append_from_ptr(buff, tmp); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_char_t) dquote: '%c' (0x%02x)\n", (char) self->dquote, (unsigned int) self->dquote); spif_str_append_from_ptr(buff, tmp); snprintf((char *) tmp + indent, sizeof(tmp) - indent, "(spif_char_t) escape: '%c' (0x%02x)\n", (char) self->escape, (unsigned int) self->escape); spif_str_append_from_ptr(buff, tmp); SPIF_LIST_SHOW(self->tokens, buff, indent); indent -= 2; snprintf((char *) tmp + indent, sizeof(tmp) - indent, "}\n"); spif_str_append_from_ptr(buff, tmp); return buff; }
/** * Find the value for a long option. * * This function looks for and returns the value associated with a * long option, or NULL if one is not found. * * @param arg The argument containing the long option. * @param next_arg The next word on the command line. * @param hasequal Address of a toggle variable to return whether or * not the value was appended to the option with an * equals sign ('='). * @return The option's value string, or NULL if no value is * found. * * @see @link DOXGRP_OPT Command Line Option Parser @endlink, spifopt_parse() * @ingroup DOXGRP_OPT */ static spif_charptr_t find_value_long(spif_charptr_t arg, spif_charptr_t next_arg, spif_charptr_t hasequal) { spif_charptr_t val_ptr; if ((val_ptr = SPIF_CHARPTR(strchr((char *)arg, '=')))) { val_ptr++; *hasequal = 1; } else { if (next_arg) { val_ptr = next_arg; } *hasequal = 0; } D_OPTIONS(("hasequal == %d val_ptr == %10.8p \"%s\"\n", *hasequal, val_ptr, NONULL(val_ptr))); return val_ptr; }
static spif_bool_t spif_url_init_from_unixaddr(spif_url_t self, spif_unixsockaddr_t unixaddr) { ASSERT_RVAL(!SPIF_URL_ISNULL(self), FALSE); spif_str_init(SPIF_STR(self)); spif_obj_set_class(SPIF_OBJ(self), SPIF_CLASS_VAR(url)); self->proto = (spif_str_t) NULL; self->user = (spif_str_t) NULL; self->passwd = (spif_str_t) NULL; self->host = (spif_str_t) NULL; self->port = (spif_str_t) NULL; self->query = (spif_str_t) NULL; if (unixaddr->sun_path) { self->path = spif_str_new_from_ptr(SPIF_CHARPTR(unixaddr->sun_path)); } else { self->path = (spif_str_t) NULL; } return TRUE; }
/** * Parse the command line arguments for options. * * This function iterates through the command line arguments looking * for options which have been defined. Each option encountered is * handled according to its type. * * @param argc The number of arguments. * @param argv The array of argument strings. * * @see @link DOXGRP_OPT Command Line Option Parser @endlink * @ingroup DOXGRP_OPT */ void spifopt_parse(int argc, char *argv[]) { spif_int32_t i, j; spif_charptr_t opt; REQUIRE(argc > 1); REQUIRE(argv != NULL); /* Process each command line arg one-by-one. */ for (i = 1, opt = SPIF_CHARPTR(argv[1]); i < argc; ) { spif_charptr_t val_ptr = NULL; spif_char_t islong = 0, hasequal = 0; D_OPTIONS(("argv[%d] == \"%s\", opt == \"%s\"\n", i, argv[i], opt)); if (SPIF_PTR_ISNULL(opt)) { /* NEXT_ARG(); */ break; } else if (opt == SPIF_CHARPTR(argv[i])) { /* If it's not an option, skip it. */ if (*opt != '-') { NEXT_ARG(); } else { opt++; } } /* If the second character is also a hyphen, it's a long option. */ if (*opt == '-') { islong = 1; /* Skip the leading "--" */ opt++; D_OPTIONS(("Long option detected\n")); if ((j = find_long_option(opt)) == -1) { NEXT_ARG(); } } else { if ((j = find_short_option(*opt)) == -1) { NEXT_LETTER(); } } if (!SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_PREPARSE) && SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_REMOVE_ARGS)) { argv[i] = NULL; } /* If a value was passed to this option, set val_ptr to point to it. */ if (islong) { val_ptr = find_value_long(SPIF_CHARPTR(opt), SPIF_CHARPTR(argv[i + 1]), &hasequal); } else { val_ptr = find_value_short(opt, SPIF_CHARPTR(argv[i + 1])); } /* Boolean options may or may not have a value... */ if (val_ptr) { if (SPIFOPT_OPT_IS_BOOLEAN(j) && !is_boolean_value(val_ptr)) { val_ptr = NULL; } else if (SPIFOPT_OPT_IS_ABSTRACT(j) && is_valid_option(val_ptr)) { val_ptr = NULL; } } if (val_ptr) { if (val_ptr == SPIF_CHARPTR(argv[i + 1])) { i++; opt += strlen((char *) opt); } } /* If this option is deprecated, print a warning before continuing. */ if (SPIFOPT_OPT_IS_DEPRECATED(j)) { spif_str_t warn; warn = spif_str_new_from_buff(SPIF_CHARPTR("The "), 128); if (SPIFOPT_OPT_SHORT(j)) { spif_str_append_char(warn, '-'); spif_str_append_char(warn, SPIFOPT_OPT_SHORT(j)); spif_str_append_from_ptr(warn, SPIF_CHARPTR(" / --")); } else { spif_str_append_from_ptr(warn, SPIF_CHARPTR("--")); } spif_str_append_from_ptr(warn, SPIFOPT_OPT_LONG(j)); spif_str_append_from_ptr(warn, SPIF_CHARPTR(" option is deprecated and should not be used.\n")); libast_print_warning((char *) SPIF_STR_STR(warn)); spif_str_del(warn); } /* Make sure that options which require a parameter have them. */ if (SPIFOPT_OPT_NEEDS_VALUE(j)) { if (!val_ptr) { if (islong) { libast_print_error("long option --%s requires a%s value\n", SPIFOPT_OPT_LONG(j), (SPIFOPT_OPT_IS_INTEGER(j) ? ("n integer") : (SPIFOPT_OPT_IS_STRING(j) ? " string" : (SPIFOPT_OPT_IS_ARGLIST(j) ? "n argument list" : "")))); } else { libast_print_error("option -%c requires a%s value\n", SPIFOPT_OPT_SHORT(j), (SPIFOPT_OPT_IS_INTEGER(j) ? ("n integer") : (SPIFOPT_OPT_IS_STRING(j) ? " string" : (SPIFOPT_OPT_IS_ARGLIST(j) ? "n argument list" : "")))); } CHECK_BAD(); continue; } /* Also make sure we know what to do with the value. */ if (!SPIFOPT_OPT_VALUE(j)) { NEXT_LOOP(); } } else if (SPIFOPT_OPT_IS_ABSTRACT(j) && !SPIFOPT_OPT_VALUE(j)) { /* Also make sure that abstract options have a function pointer. */ NEXT_LOOP(); } if (SPIFOPT_OPT_IS_BOOLEAN(j)) { if (!handle_boolean(j, val_ptr, islong)) { i--; } } else if (SPIFOPT_OPT_IS_STRING(j)) { if (SHOULD_PARSE(j)) { handle_string(j, val_ptr); } } else if (SPIFOPT_OPT_IS_INTEGER(j)) { if (SHOULD_PARSE(j)) { handle_integer(j, val_ptr); } } else if (SPIFOPT_OPT_IS_ARGLIST(j)) { if (SHOULD_PARSE(j)) { handle_arglist(j, val_ptr, hasequal, i, argc, argv); } if (!hasequal) { break; } } else if (SPIFOPT_OPT_IS_ABSTRACT(j)) { if (SHOULD_PARSE(j)) { D_OPTIONS(("Abstract option detected\n")); ((spifopt_abstract_handler_t) SPIFOPT_OPT_VALUE(j))(val_ptr); } } if (!SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_PREPARSE) && SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_REMOVE_ARGS)) { argv[i] = NULL; } NEXT_LOOP(); } if (SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_PREPARSE)) { SPIFOPT_FLAGS_CLEAR(SPIFOPT_SETTING_PREPARSE); } else if (SPIFOPT_FLAGS_IS_SET(SPIFOPT_SETTING_REMOVE_ARGS)) { for (i = 1, j = 1; i < argc; i++) { if (argv[i]) { argv[j] = argv[i]; j++; } } if (j > 1) { argv[j] = NULL; } } }
static spif_bool_t spif_socket_get_proto(spif_socket_t self) { spif_url_t url; spif_protoinfo_t proto; spif_str_t proto_str; spif_servinfo_t serv; ASSERT_RVAL(!SPIF_URL_ISNULL(self), FALSE); /* If we have a remote URL, use it. Otherwise, use the local one. */ url = ((SPIF_URL_ISNULL(self->remote_url)) ? (self->local_url) : (self->remote_url)); REQUIRE_RVAL(!SPIF_URL_ISNULL(url), FALSE); proto_str = spif_url_get_proto(url); if (!SPIF_STR_ISNULL(proto_str)) { if (SPIF_CMP_IS_EQUAL(spif_str_cmp_with_ptr(proto_str, SPIF_CHARPTR("raw")))) { spif_str_t target; /* Raw socket. Could be raw UNIX or raw IP. */ SPIF_SOCKET_FLAGS_SET(self, SPIF_SOCKET_FLAGS_TYPE_RAW); /* If we have a hostname, it's IP. If we have a path only, it's UNIX. */ target = spif_url_get_host(url); if (SPIF_STR_ISNULL(target)) { target = spif_url_get_path(url); if (!SPIF_STR_ISNULL(target)) { SPIF_SOCKET_FLAGS_SET(self, SPIF_SOCKET_FLAGS_FAMILY_UNIX); } } else { SPIF_SOCKET_FLAGS_SET(self, SPIF_SOCKET_FLAGS_FAMILY_INET); } } else if (SPIF_CMP_IS_EQUAL(spif_str_cmp_with_ptr(proto_str, SPIF_CHARPTR("unix")))) { /* UNIX socket. Assume stream-based. */ SPIF_SOCKET_FLAGS_SET(self, SPIF_SOCKET_FLAGS_FAMILY_UNIX); SPIF_SOCKET_FLAGS_SET(self, SPIF_SOCKET_FLAGS_TYPE_STREAM); } else { /* IP socket. See if they gave us a protocol name. */ SPIF_SOCKET_FLAGS_SET(self, SPIF_SOCKET_FLAGS_FAMILY_INET); proto = getprotobyname((char *) SPIF_STR_STR(proto_str)); if (!proto) { /* If it's not a protocol, it's probably a service. */ serv = getservbyname((char *) SPIF_STR_STR(proto_str), "tcp"); if (!serv) { serv = getservbyname((char *) SPIF_STR_STR(proto_str), "udp"); } if (serv) { /* If we found one, get the protocol info too. */ proto = getprotobyname(serv->s_proto); REQUIRE_RVAL(proto != NULL, FALSE); } } if (proto) { /* Bingo. Set the flags appropriately. */ self->proto = proto->p_proto; if (!strcmp(proto->p_name, "tcp")) { SPIF_SOCKET_FLAGS_SET(self, SPIF_SOCKET_FLAGS_TYPE_STREAM); } else if (!strcmp(proto->p_name, "udp")) { SPIF_SOCKET_FLAGS_SET(self, SPIF_SOCKET_FLAGS_TYPE_DGRAM); } } } } else { /* No protocol? Assume a UNIX socket. */ SPIF_SOCKET_FLAGS_SET(self, SPIF_SOCKET_FLAGS_FAMILY_UNIX); SPIF_SOCKET_FLAGS_SET(self, SPIF_SOCKET_FLAGS_TYPE_STREAM); } return TRUE; }
spif_bool_t spif_tok_eval(spif_tok_t self) { const char *pstr, *delim = NULL; spif_str_t tmp; char quote; size_t len; ASSERT_RVAL(!SPIF_TOK_ISNULL(self), FALSE); REQUIRE_RVAL(!SPIF_STR_ISNULL(self->src), FALSE); pstr = (const char *) SPIF_STR_STR(SPIF_STR(self->src)); len = spif_str_get_len(SPIF_STR(self->src)); if (!SPIF_STR_ISNULL(self->sep)) { delim = (const char *) SPIF_STR_STR(SPIF_STR(self->sep)); } if (!SPIF_LIST_ISNULL(self->tokens)) { SPIF_LIST_DEL(self->tokens); } self->tokens = SPIF_LIST_NEW(dlinked_list); /* Before we do anything, skip leading "whitespace." */ for (; *pstr && IS_DELIM(*pstr); pstr++); /* The outermost for loop is where we traverse the string. Each new word brings us back to the top where we resize our string list. */ for (quote = 0; *pstr; ) { tmp = spif_str_new_from_buff(SPIF_CHARPTR(""), len); spif_str_clear(tmp, 0); /* This for loop is where we process each character. */ for (; *pstr && (quote || !IS_DELIM(*pstr));) { if (*pstr == self->dquote || *pstr == self->quote) { /* It's a quote character, so set or reset the quote variable. */ if (quote) { if (quote == *pstr) { quote = 0; } else { /* It's a single quote inside double quotes, or vice versa. Leave it alone. */ spif_str_append_char(tmp, *pstr); } } else { quote = *pstr; } pstr++; } else { /* Handle any backslashes that are escaping delimiters or quotes. */ if ((*pstr == self->escape) && (IS_DELIM(*(pstr + 1)) || IS_QUOTE(*(pstr + 1)))) { /* Incrementing pstr here moves us past the backslash so that the line below will copy the next character to the new token, no questions asked. */ pstr++; } spif_str_append_char(tmp, *pstr++); } } /* Reallocate the new string to be just the right size. */ spif_str_trim(tmp); len -= spif_str_get_len(tmp); /* Add it to the list */ SPIF_LIST_APPEND(self->tokens, tmp); /* Move past any trailing "whitespace." */ for (; *pstr && IS_DELIM(*pstr); pstr++); } return TRUE; }
static spif_bool_t spif_url_parse(spif_url_t self) { spif_charptr_t s = SPIF_STR_STR(SPIF_STR(self)); spif_charptr_t pstr, pend, ptmp; ASSERT_RVAL(!SPIF_URL_ISNULL(self), FALSE); pstr = s; /* Check for "proto:" at the beginning. */ pend = SPIF_CHARPTR(strchr((char *) s, ':')); if (pend) { for (; pstr < pend; pstr++) { if (!isalnum(*pstr)) { break; } } if (pstr == pend) { /* Got one. */ self->proto = spif_str_new_from_buff(s, pend - s); pstr++; } else { /* Nope, reset. */ pstr = s; } } if ((*pstr == '/') && (pstr[1] == '/')) { pstr += 2; } /* Knock out the path and query if they're there. */ pend = SPIF_CHARPTR(strchr((char *) pstr, '/')); if (pend) { spif_charptr_t tmp = SPIF_CHARPTR(strchr((char *) pend, '?')); if (tmp) { self->query = spif_str_new_from_ptr(tmp + 1); self->path = spif_str_new_from_buff(pend, tmp - pend); } else { self->path = spif_str_new_from_ptr(pend); } } else if ((pend = SPIF_CHARPTR(strchr((char *)pstr, '?')))) { self->query = spif_str_new_from_ptr(pend + 1); } else { for (pend = pstr; *pend; pend++); } /* At this point, pend *must* point to the end of the user/pass/host/port part. */ /* Check for an @ sign, which would mean we have auth info. */ ptmp = SPIF_CHARPTR(strchr((char *) pstr, '@')); if ((ptmp) && (ptmp < pend)) { spif_charptr_t tmp = SPIF_CHARPTR(strchr((char *) pstr, ':')); if ((tmp) && (tmp < ptmp)) { /* Both username and password. */ self->user = spif_str_new_from_buff(pstr, tmp - pstr); self->passwd = spif_str_new_from_buff((tmp + 1), ptmp - tmp - 1); } else { self->user = spif_str_new_from_buff(pstr, ptmp - pstr); } pstr = ptmp + 1; } /* All that remains now between pstr and pend is host and maybe port. */ ptmp = SPIF_CHARPTR(strchr((char *) pstr, ':')); if ((ptmp) && (ptmp < pend)) { self->host = spif_str_new_from_buff(pstr, ptmp - pstr); self->port = spif_str_new_from_buff((ptmp + 1), pend - ptmp - 1); } else if (pstr != pend) { self->host = spif_str_new_from_buff(pstr, pend - pstr); } /* If we have a proto but no port, see if we can resolve the port using the proto. */ if (SPIF_STR_ISNULL(self->port) && !SPIF_STR_ISNULL(self->proto)) { spif_protoinfo_t proto; spif_servinfo_t serv; proto = getprotobyname((char *) SPIF_STR_STR(self->proto)); if (!proto) { /* If it's not a protocol, it's probably a service. */ serv = getservbyname((char *) SPIF_STR_STR(self->proto), "tcp"); if (!serv) { serv = getservbyname((char *) SPIF_STR_STR(self->proto), "udp"); } if (serv) { proto = getprotobyname(serv->s_proto); REQUIRE_RVAL(proto != NULL, FALSE); } } if (proto) { spif_char_t buff[32]; snprintf((char *) buff, sizeof(buff), "%d", ntohs(serv->s_port)); self->port = spif_str_new_from_ptr(buff); } } return TRUE; }