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//========================================================================== // // ezxml.h // // Simple XML parser // //========================================================================== // ####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 2005 Free Software Foundation, Inc. // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later // version. // // eCos is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License // along with eCos; if not, write to the Free Software Foundation, Inc., // 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // // As a special exception, if other files instantiate templates or use // macros or inline functions from this file, or you compile this file // and link it with other works to produce a work based on this file, // this file does not by itself cause the resulting work to be covered by // the GNU General Public License. However the source code for this file // must still be made available in accordance with section (3) of the GNU // General Public License v2. // // This exception does not invalidate any other reasons why a work based // on this file might be covered by the GNU General Public License. // ------------------------------------------- // ####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): Aaron Voisine // Contributors: Matt Jerdonek // Date: 2005-01-31 // Purpose: // Description: // // This code is part of eCos (tm). // //####DESCRIPTIONEND#### // //========================================================================== /* ezxml.c * * Copyright 2004, 2005 Aaron Voisine <aaron@voisine.org> * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #define EZXML_NOMMAP // no mmap on eCos #include <stdlib.h> #include <stdio.h> #include <stdarg.h> #include <string.h> #include <ctype.h> #include <unistd.h> #include <sys/types.h> #ifndef EZXML_NOMMAP #include <sys/mman.h> #endif // EZXML_NOMMAP #include <sys/stat.h> #include "ezxml.h" #include <pkgconf/system.h> #define EZXML_WS "\t\r\n " // whitespace #define EZXML_ERRL 128 // maximum error string length typedef struct ezxml_root *ezxml_root_t; struct ezxml_root { // additional data for the root tag struct ezxml xml; // is a super-struct built on top of ezxml struct ezxml_t cur; // current xml tree insertion point char *m; // original xml string size_t len; // length of allocated memory for mmap, -1 for malloc char *u; // UTF-8 conversion of string if original was UTF-16 char *s; // start of work area char *e; // end of work area char **ent; // general entities (ampersand sequences) char ***attr; // default attributes char ***pi; // processing instructions short standalone; // non-zero if <?xml standalone="yes"?> char err[EZXML_ERRL]; // error string }; char *EZXML_NIL[] = { NULL }; // empty, null terminated array of strings // returns the first child tag with the given name or NULL if not found ezxml_t ezxml_child(ezxml_t xml, const char *name) { xml = (xml) ? xml->child : NULL; while (xml && strcmp(name, xml->name)) xml = xml->sibling; return xml; } // returns the Nth tag with the same name in the same subsection or NULL if not // found ezxml_t ezxml_idx(ezxml_t xml, int idx) { for (; xml && idx; idx--) xml = xml->next; return xml; } // returns the value of the requested tag attribute or NULL if not found const char *ezxml_attr(ezxml_t xml, const char *attr) { int i = 0, j = 1; ezxml_root_t root = (ezxml_root_t)xml; if (! xml || ! xml->attr) return NULL; while (xml->attr[i] && strcmp(attr, xml->attr[i])) i += 2; if (xml->attr[i]) return xml->attr[i + 1]; // found attribute while (root->xml.parent) root = (ezxml_root_t)root->xml.parent; // root tag for (i = 0; root->attr[i] && strcmp(xml->name, root->attr[i][0]); i++); if (! root->attr[i]) return NULL; // no matching default attributes while (root->attr[i][j] && strcmp(attr, root->attr[i][j])) j += 3; return (root->attr[i][j]) ? root->attr[i][j + 1] : NULL; // found default } // same as ezxml_get but takes an already initialized va_list ezxml_t ezxml_vget(ezxml_t xml, va_list ap) { char *name = va_arg(ap, char *); int idx = -1; if (name && *name) { idx = va_arg(ap, int); xml = ezxml_child(xml, name); } return (idx < 0) ? xml : ezxml_vget(ezxml_idx(xml, idx), ap); } // Traverses the xml tree to retrieve a specific subtag. Takes a variable // length list of tag names and indexes. The argument list must be terminated // by either an index of -1 or an empty string tag name. Example: // title = ezxml_get(library, "shelf", 0, "book", 2, "title", -1); // This retrieves the title of the 3rd book on the 1st shelf of library. // Returns NULL if not found. ezxml_t ezxml_get(ezxml_t xml, ...) { va_list ap; ezxml_t r; va_start(ap, xml); r = ezxml_vget(xml, ap); va_end(ap); return r; } // returns a null terminated array of processing instructions for the given // target const char **ezxml_pi(ezxml_t xml, const char *target) { ezxml_root_t root = (ezxml_root_t)xml; int i = 0; if (! root) return (const char **)EZXML_NIL; while (root->xml.parent) root = (ezxml_root_t)root->xml.parent; // root tag while (root->pi[i] && strcmp(target, root->pi[i][0])) i++; // find target return (const char **)((root->pi[i]) ? root->pi[i] + 1 : EZXML_NIL); } // set an error string and return root ezxml_t ezxml_err(ezxml_root_t root, char *s, const char *err, ...) { va_list ap; int line = 1; char *t, fmt[EZXML_ERRL]; for (t = root->s; t < s; t++) if (*t == '\n') line++; snprintf(fmt, EZXML_ERRL, "[error near line %d]: %s", line, err); va_start(ap, err); vsnprintf(root->err, EZXML_ERRL, fmt, ap); va_end(ap); return &root->xml; } // Recursively decodes entity and character references and normalizes new lines // ent is a null terminated array of alternating entity names and values. set t // to '&' for general entity decoding, '%' for parameter entity decoding, 'c' // for cdata sections, ' ' for attribute normalization, or '*' for non-cdata // attribute normalization. Returns s, or if the decoded string is longer than // s, returns a malloced string that must be freed. char *ezxml_decode(char *s, char **ent, char t) { char *e, *r = s, *m = s; long b, c, d, l; for (; *s; s++) { // normalize line endings while (*s == '\r') { *(s++) = '\n'; if (*s == '\n') memmove(s, (s + 1), strlen(s)); } } for (s = r; ; ) { while (*s && *s != '&' && (*s != '%' || t != '%') && !isspace(*s)) s++; if (! *s) break; else if (t != 'c' && ! strncmp(s, "&#", 2)) { // character reference if (s[2] == 'x') c = strtol(s + 3, &e, 16); // base 16 else c = strtol(s + 2, &e, 10); // base 10 if (! c || *e != ';') { s++; continue; } // not a character ref if (c < 0x80) *(s++) = c; // US-ASCII subset else { // multi-byte UTF-8 sequence for (b = 0, d = c; d; d /= 2) b++; // number of bits in c b = (b - 2) / 5; // number of bytes in payload *(s++) = (0xFF << (7 - b)) | (c >> (6 * b)); // head while (b) *(s++) = 0x80 | ((c >> (6 * --b)) & 0x3F); // payload } memmove(s, strchr(s, ';') + 1, strlen(strchr(s, ';'))); } else if ((*s == '&' && (t == '&' || t == ' ' || t == '*')) || (*s == '%' && t == '%')) { // entity reference for (b = 0; ent[b] && strncmp(s + 1, ent[b], strlen(ent[b])); b += 2); // find entity in entity list if (ent[b++]) { // found a match if ((c = strlen(ent[b])) - 1 > (e = strchr(s, ';')) - s) { l = (d = (s - r)) + c + strlen(e); // new length r = (r == m) ? strcpy(malloc(l), r) : realloc(r, l); e = strchr((s = r + d), ';'); // fix up pointers } memmove(s + c, e + 1, strlen(e)); // shift rest of string strncpy(s, ent[b], c); // copy in replacement text } else s++; // not a known entity } else if ((t == ' ' || t == '*') && isspace(*s)) *(s++) = ' '; else s++; // no decoding needed } if (t == '*') { // normalize spaces for non-cdata attributes for (s = r; *s; s++) { if ((l = strspn(s, " "))) memmove(s, s + l, strlen(s + l) + 1); while (*s && *s != ' ') s++; } if (--s >= r && *s == ' ') *s = '\0'; // trim any trailing space } return r; } // called when parser finds start of new tag void ezxml_open_tag(ezxml_root_t root, char *name, char **attr) { ezxml_t xml = root->cur; if (xml->name) xml = ezxml_add_child(xml, name, strlen(xml->txt)); else xml->name = name; // first open tag xml->attr = attr; root->cur = xml; // update tag insertion point } // called when parser finds character content between open and closing tag void ezxml_char_content(ezxml_root_t root, char *s, size_t len, char t) { ezxml_t xml = root->cur; char *m = s; size_t l; if (! xml || ! xml->name || ! len) return; // sanity check s[len] = '\0'; // null terminate text (calling functions anticipate this) len = strlen(s = ezxml_decode(s, root->ent, t)) + 1; if (! *(xml->txt)) xml->txt = s; // initial character content else { // allocate our own memory and make a copy xml->txt = (xml->flags & EZXML_TXTM) // allocate some space ? realloc(xml->txt, (l = strlen(xml->txt)) + len) : strcpy(malloc((l = strlen(xml->txt)) + len), xml->txt); strcpy(xml->txt + l, s); // add new char content if (s != m) free(s); // free s if it was malloced by ezxml_decode() } if (xml->txt != m) ezxml_set_flag(xml, EZXML_TXTM); } // called when parser finds closing tag ezxml_t ezxml_close_tag(ezxml_root_t root, char *name, char *s) { if (! root->cur || ! root->cur->name || strcmp(name, root->cur->name)) return ezxml_err(root, s, "unexpected closing tag </%s>", name); root->cur = root->cur->parent; return NULL; } // checks for circular entity references, returns non-zero if no circular // references are found, zero otherwise int ezxml_ent_ok(char *name, char *s, char **ent) { int i; for (; ; s++) { while (*s && *s != '&') s++; // find next entity reference if (! *s) return 1; if (! strncmp(s + 1, name, strlen(name))) return 0; // circular ref. for (i = 0; ent[i] && strncmp(ent[i], s + 1, strlen(ent[i])); i += 2); if (ent[i] && ! ezxml_ent_ok(name, ent[i + 1], ent)) return 0; } } // called when the parser finds a processing instruction void ezxml_proc_inst(ezxml_root_t root, char *s, size_t len) { int i = 0, j = 1; char *target = s; s[len] = '\0'; // null terminate instruction if (*(s += strcspn(s, EZXML_WS))) { *s = '\0'; // null terminate target s += strspn(s + 1, EZXML_WS) + 1; // skip whitespace after target } if (! strcmp(target, "xml")) { // <?xml ... ?> if ((s = strstr(s, "standalone")) && ! strncmp(s + strspn(s + 10, EZXML_WS "='\"") + 10, "yes", 3)) root->standalone = 1; return; } if (! root->pi[0]) *(root->pi = malloc(sizeof(char **))) = NULL; //first pi while (root->pi[i] && strcmp(target, root->pi[i][0])) i++; // find target if (! root->pi[i]) { // new target root->pi = realloc(root->pi, sizeof(char **) * (i + 2)); root->pi[i] = malloc(sizeof(char *) * 3); root->pi[i][0] = target; root->pi[i][1] = (char *)(root->pi[i + 1] = NULL); // terminate pi list root->pi[i][2] = strdup(""); // empty document position list } while (root->pi[i][j]) j++; // find end of instruction list for this target root->pi[i] = realloc(root->pi[i], sizeof(char *) * (j + 3)); root->pi[i][j + 2] = realloc(root->pi[i][j + 1], j + 1); strcpy(root->pi[i][j + 2] + j - 1, (root->xml.name) ? ">" : "<"); root->pi[i][j + 1] = NULL; // null terminate pi list for this target root->pi[i][j] = s; // set instruction } // called when the parser finds an internal doctype subset short ezxml_internal_dtd(ezxml_root_t root, char *s, size_t len) { char q, *c, *t, *n = NULL, *v, **ent, **pe; int i, j; pe = memcpy(malloc(sizeof(EZXML_NIL)), EZXML_NIL, sizeof(EZXML_NIL)); for (s[len] = '\0'; s; ) { while (*s && *s != '<' && *s != '%') s++; // find next declaration if (! *s) break; else if (! strncmp(s, "<!ENTITY", 8)) { // parse entity definitions c = s += strspn(s + 8, EZXML_WS) + 8; // skip white space separator n = s + strspn(s, EZXML_WS "%"); // find name *(s = n + strcspn(n, EZXML_WS)) = ';'; // append ; to name v = s + strspn(s + 1, EZXML_WS) + 1; // find value if ((q = *(v++)) != '"' && q != '\'') { // skip externals s = strchr(s, '>'); continue; } for (i = 0, ent = (*c == '%') ? pe : root->ent; ent[i]; i++); ent = realloc(ent, (i + 3) * sizeof(char *)); // space for next ent if (*c == '%') pe = ent; else root->ent = ent; *(++s) = '\0'; // null terminate name if ((s = strchr(v, q))) *(s++) = '\0'; // null terminate value ent[i + 1] = ezxml_decode(v, pe, '%'); // set value ent[i + 2] = NULL; // null terminate entity list if (! ezxml_ent_ok(n, ent[i + 1], ent)) { // circular reference if (ent[i + 1] != v) free(ent[i + 1]); ezxml_err(root, v, "circular entity declaration &%s", n); break; } else ent[i] = n; // set entity name } else if (! strncmp(s, "<!ATTLIST", 9)) { // parse default attributes t = s + strspn(s + 9, EZXML_WS) + 9; // skip whitespace separator if (! *t) { ezxml_err(root, t, "unclosed <!ATTLIST"); break; } if (*(s = t + strcspn(t, EZXML_WS ">")) == '>') continue; else *s = '\0'; // null terminate tag name for (i = 0; root->attr[i] && strcmp(n, root->attr[i][0]); i++); while (*(n = ++s + strspn(s, EZXML_WS)) && *n != '>') { if (*(s = n + strcspn(n, EZXML_WS))) *s = '\0'; // attr name else { ezxml_err(root, t, "malformed <!ATTLIST"); break; } s += strspn(s + 1, EZXML_WS) + 1; // find next token c = (strncmp(s, "CDATA", 5)) ? "*" : " "; // is it cdata? if (! strncmp(s, "NOTATION", 8)) s += strspn(s + 8, EZXML_WS) + 8; s = (*s == '(') ? strchr(s, ')') : s + strcspn(s, EZXML_WS); if (! s) { ezxml_err(root, t, "malformed <!ATTLIST"); break; } s += strspn(s, EZXML_WS ")"); // skip white space separator if (! strncmp(s, "#FIXED", 6)) s += strspn(s + 6, EZXML_WS) + 6; if (*s == '#') { // no default value s += strcspn(s, EZXML_WS ">") - 1; if (*c == ' ') continue; // cdata is default, nothing to do v = NULL; } else if ((*s == '"' || *s == '\'') && // default value (s = strchr(v = s + 1, *s))) *s = '\0'; else { ezxml_err(root, t, "malformed <!ATTLIST"); break; } if (! root->attr[i]) { // new tag name root->attr = (! i) ? malloc(2 * sizeof(char **)) : realloc(root->attr, (i + 2) * sizeof(char **)); root->attr[i] = malloc(2 * sizeof(char *)); root->attr[i][0] = t; // set tag name root->attr[i][1] = (char *)(root->attr[i + 1] = NULL); } for (j = 1; root->attr[i][j]; j += 3); // find end of list root->attr[i] = realloc(root->attr[i], (j + 4) * sizeof(char *)); root->attr[i][j + 3] = NULL; // null terminate list root->attr[i][j + 2] = c; // is it cdata? root->attr[i][j + 1] = (v) ? ezxml_decode(v, root->ent, *c) : NULL; root->attr[i][j] = n; // attribute name } } else if (! strncmp(s, "<!--", 4)) s = strstr(s + 4, "-->"); // comments else if (! strncmp(s, "<?", 2)) { // processing instructions if ((s = strstr(c = s + 2, "?>"))) ezxml_proc_inst(root, c, s++ - c); } else if (*s == '<') s = strchr(s, '>'); // skip other declarations else if (*(s++) == '%' && ! root->standalone) break; } free(pe); return ! *root->err; } // Converts a UTF-16 string to UTF-8. Returns a new string that must be freed // or NULL if no conversion was needed. char *ezxml_str2utf8(char **s, size_t *len) { char *u; size_t l = 0, sl, max = *len; long c, d; int b, be = (**s == '\xFE') ? 1 : (**s == '\xFF') ? 0 : -1; if (be == -1) return NULL; // not UTF-16 u = malloc(max); for (sl = 2; sl < *len - 1; sl += 2) { c = (be) ? (((*s)[sl] & 0xFF) << 8) | ((*s)[sl + 1] & 0xFF) //UTF-16BE : (((*s)[sl + 1] & 0xFF) << 8) | ((*s)[sl] & 0xFF); //UTF-16LE if (c >= 0xD800 && c <= 0xDFFF && (sl += 2) < *len - 1) { // high-half d = (be) ? (((*s)[sl] & 0xFF) << 8) | ((*s)[sl + 1] & 0xFF) : (((*s)[sl + 1] & 0xFF) << 8) | ((*s)[sl] & 0xFF); c = (((c & 0x3FF) << 10) | (d & 0x3FF)) + 0x10000; } while (l + 6 > max) u = realloc(u, max += EZXML_BUFSIZE); if (c < 0x80) u[l++] = c; // US-ASCII subset else { // multi-byte UTF-8 sequence for (b = 0, d = c; d; d /= 2) b++; // bits in c b = (b - 2) / 5; // bytes in payload u[l++] = (0xFF << (7 - b)) | (c >> (6 * b)); // head while (b) u[l++] = 0x80 | ((c >> (6 * --b)) & 0x3F); // payload } } return *s = realloc(u, *len = l); } // frees a tag attribute list void ezxml_free_attr(char **attr) { int i = 0; char *m; if (! attr || attr == EZXML_NIL) return; // nothing to free while (attr[i]) i += 2; // find end of attribute list m = attr[i + 1]; // list of which names and values are malloced for (i = 0; m[i]; i++) { if (m[i] & EZXML_NAMEM) free(attr[i * 2]); if (m[i] & EZXML_TXTM) free(attr[(i * 2) + 1]); } free(m); free(attr); } // parse the given xml string and return an ezxml structure ezxml_t ezxml_parse_str(char *s, size_t len) { ezxml_root_t root = (ezxml_root_t)ezxml_new(NULL); char q, e, *d, **attr, **a = NULL; // initialize a to avoid compile warning int l, i, j; root->m = s; if (! len) return ezxml_err(root, s, "root tag missing"); root->u = ezxml_str2utf8(&s, &len); // convert utf-16 to utf-8 root->e = (root->s = s) + len; // record start and end of work area e = s[len - 1]; // save end char s[len - 1] = '\0'; // turn end char into null terminator while (*s && *s != '<') s++; // find first tag if (! *s) return ezxml_err(root, s, "root tag missing"); for (; ; ) { attr = (char **)EZXML_NIL; d = ++s; if (isalpha(*s) || *s == '_' || *s == ':') { // new tag if (! root->cur) return ezxml_err(root, d, "markup outside of root element"); s += strcspn(s, EZXML_WS "/>"); while (isspace(*s)) *(s++) = '\0'; // null terminate tag name if (*s && *s != '/' && *s != '>') // find tag in default attr list for (i = 0; (a = root->attr[i]) && strcmp(a[0], d); i++); for (l = 0; *s && *s != '/' && *s != '>'; l += 2) { // new attrib attr = (l) ? realloc(attr, (l + 4) * sizeof(char *)) : malloc(4 * sizeof(char *)); // allocate space attr[l + 3] = (l) ? realloc(attr[l + 1], (l / 2) + 2) : malloc(2); // mem for list of maloced vals strcpy(attr[l + 3] + (l / 2), " "); // value is not malloced attr[l + 2] = NULL; // null terminate list attr[l + 1] = ""; // temporary attribute value attr[l] = s; // set attribute name s += strcspn(s, EZXML_WS "=/>"); if (*s == '=' || isspace(*s)) { *(s++) = '\0'; // null terminate tag attribute name q = *(s += strspn(s, EZXML_WS "=")); if (q == '"' || q == '\'') { // attribute value attr[l + 1] = ++s; while (*s && *s != q) s++; if (*s) *(s++) = '\0'; // null terminate attribute val else { ezxml_free_attr(attr); return ezxml_err(root, d, "missing %c", q); } for (j = 1; a && a[j] && strcmp(a[j], attr[l]); j +=3); attr[l + 1] = ezxml_decode(attr[l + 1], root->ent, (a && a[j]) ? *a[j + 2] : ' '); if (attr[l + 1] < d || attr[l + 1] > s) attr[l + 3][l / 2] = EZXML_TXTM; // value malloced } } while (isspace(*s)) s++; } if (*s == '/') { // self closing tag *(s++) = '\0'; if ((*s && *s != '>') || (! *s && e != '>')) { if (l) ezxml_free_attr(attr); return ezxml_err(root, d, "missing >"); } ezxml_open_tag(root, d, attr); ezxml_close_tag(root, d, s); } else if ((q = *s) == '>' || (! *s && e == '>')) { // open tag *s = '\0'; // temporarily null terminate tag name ezxml_open_tag(root, d, attr); *s = q; } else { if (l) ezxml_free_attr(attr); return ezxml_err(root, d, "missing >"); } } else if (*s == '/') { // close tag s += strcspn(d = s + 1, EZXML_WS ">") + 1; if (! (q = *s) && e != '>') return ezxml_err(root, d, "missing >"); *s = '\0'; // temporarily null terminate tag name if (ezxml_close_tag(root, d, s)) return &root->xml; if (isspace(*s = q)) s += strspn(s, EZXML_WS); } else if (! strncmp(s, "!--", 3)) { // comment if (! (s = strstr(s + 3, "--")) || (*(s += 2) != '>' && *s) || (! *s && e != '>')) return ezxml_err(root, d, "unclosed <!--"); } else if (! strncmp(s, "![CDATA[", 8)) { // cdata if ((s = strstr(s, "]]>"))) ezxml_char_content(root, d + 8, (s += 2) - d - 10, 'c'); else return ezxml_err(root, d, "unclosed <![CDATA["); } else if (! strncmp(s, "!DOCTYPE", 8)) { // dtd for (l = 0; *s && ((! l && *s != '>') || (l && (*s != ']' || *(s + strspn(s + 1, EZXML_WS) + 1) != '>'))); l = (*s == '[') ? 1 : l) s += strcspn(s + 1, "[]>") + 1; if (! *s && e != '>') return ezxml_err(root, d, "unclosed <!DOCTYPE"); d = (l) ? strchr(d, '[') + 1 : d; if (l && ! ezxml_internal_dtd(root, d, s++ - d)) return &root->xml; } else if (*s == '?') { // <?...?> processing instructions do { s = strchr(s, '?'); } while (s && *(++s) && *s != '>'); if (! s || (! *s && e != '>')) return ezxml_err(root, d, "unclosed <?"); else ezxml_proc_inst(root, d + 1, s - d - 2); } else return ezxml_err(root, d, "unexpected <"); if (! s || ! *s) break; *s = '\0'; d = ++s; if (*s && *s != '<') { // tag character content while (*s && *s != '<') s++; if (*s) ezxml_char_content(root, d, s - d, '&'); else break; } else if (! *s) break; } if (! root->cur) return &root->xml; else if (! root->cur->name) return ezxml_err(root, d, "root tag missing"); else return ezxml_err(root, d, "unclosed tag <%s>", root->cur->name); } #ifdef CYGPKG_IO_FILEIO // Wrapper for ezxml_parse_str() that accepts a file stream. Reads the entire // stream into memory and then parses it. For xml files, use ezxml_parse_file() // or ezxml_parse_fd() ezxml_t ezxml_parse_fp(FILE *fp) { ezxml_root_t root; size_t l, len = 0; char *s; if (! (s = malloc(EZXML_BUFSIZE))) return NULL; do { len += (l = fread((s + len), 1, EZXML_BUFSIZE, fp)); if (l == EZXML_BUFSIZE) s = realloc(s, len + EZXML_BUFSIZE); } while (s && l == EZXML_BUFSIZE); if (! s) return NULL; root = (ezxml_root_t)ezxml_parse_str(s, len); root->len = -1; // so we know to free s in ezxml_free() return &root->xml; } // A wrapper for ezxml_parse_str() that accepts a file descriptor. First // attempts to mem map the file. Failing that, reads the file into memory. // Returns NULL on failure. ezxml_t ezxml_parse_fd(int fd) { ezxml_root_t root; struct stat st; size_t l; void *m; if (fd < 0) return NULL; fstat(fd, &st); #ifndef EZXML_NOMMAP l = (st.st_size + sysconf(_SC_PAGESIZE) - 1) & ~(sysconf(_SC_PAGESIZE) -1); if ((m = mmap(NULL, l, PROT_READ | PROT_WRITE, MAP_PRIVATE, fd, 0)) != MAP_FAILED) { madvise(m, l, MADV_SEQUENTIAL); // optimize for sequential access root = (ezxml_root_t)ezxml_parse_str(m, st.st_size); madvise(m, root->len = l, MADV_NORMAL); // put it back to normal } else { // mmap failed, read file into memory #endif // EZXML_NOMMAP l = read(fd, m = malloc(st.st_size), st.st_size); root = (ezxml_root_t)ezxml_parse_str(m, l); root->len = -1; // so we know to free s in ezxml_free() #ifndef EZXML_NOMMAP } #endif // EZXML_NOMMAP return &root->xml; } // a wrapper for ezxml_parse_fd that accepts a file name ezxml_t ezxml_parse_file(const char *file) { int fd = open(file, O_RDONLY, 0); ezxml_t xml = ezxml_parse_fd(fd); if (fd >= 0) close(fd); return xml; } #endif // CYGPKG_IO_FILEIO // Encodes ampersand sequences appending the results to *dst, reallocating *dst // if length excedes max. a is non-zero for attribute encoding. Returns *dst char *ezxml_ampencode(const char *s, size_t len, char **dst, size_t *dlen, size_t *max, short a) { const char *e; for (e = s + len; s != e; s++) { while (*dlen + 10 > *max) *dst = realloc(*dst, *max += EZXML_BUFSIZE); switch (*s) { case '\0': return *dst; case '&': *dlen += sprintf(*dst + *dlen, "&"); break; case '<': *dlen += sprintf(*dst + *dlen, "<"); break; case '>': *dlen += sprintf(*dst + *dlen, ">"); break; case '"': *dlen += sprintf(*dst + *dlen, (a) ? """ : "\""); break; case '\n': *dlen += sprintf(*dst + *dlen, (a) ? "
" : "\n"); break; case '\t': *dlen += sprintf(*dst + *dlen, (a) ? "	" : "\t"); break; case '\r': *dlen += sprintf(*dst + *dlen, "
"); break; default: (*dst)[(*dlen)++] = *s; } } return *dst; } // Recursively converts each tag to xml appending it to *s. Reallocates *s if // its length excedes max. start is the location of the previous tag in the // parent tag's character content. Returns *s. char *ezxml_toxml_r(ezxml_t xml, char **s, size_t *len, size_t *max, size_t start, char ***attr) { int i, j; char *txt = (xml->parent) ? xml->parent->txt : ""; size_t off = 0; // parent character content up to this tag *s = ezxml_ampencode(txt + start, xml->off - start, s, len, max, 0); while (*len + strlen(xml->name) + 4 > *max) // reallocate s *s = realloc(*s, *max += EZXML_BUFSIZE); *len += sprintf(*s + *len, "<%s", xml->name); // open tag for (i = 0; xml->attr[i]; i += 2) { // tag attributes if (ezxml_attr(xml, xml->attr[i]) != xml->attr[i + 1]) continue; while (*len + strlen(xml->attr[i]) + 7 > *max) // reallocate s *s = realloc(*s, *max += EZXML_BUFSIZE); *len += sprintf(*s + *len, " %s=\"", xml->attr[i]); ezxml_ampencode(xml->attr[i + 1], -1, s, len, max, 1); *len += sprintf(*s + *len, "\""); } for (i = 0; attr[i] && strcmp(attr[i][0], xml->name); i++); for (j = 1; attr[i] && attr[i][j]; j += 3) { // default attributes if (! attr[i][j + 1] || ezxml_attr(xml, attr[i][j]) != attr[i][j + 1]) continue; // skip duplicates and non-values while (*len + strlen(attr[i][j]) + 7 > *max) // reallocate s *s = realloc(*s, *max += EZXML_BUFSIZE); *len += sprintf(*s + *len, " %s=\"", attr[i][j]); ezxml_ampencode(attr[i][j + 1], -1, s, len, max, 1); *len += sprintf(*s + *len, "\""); } *len += sprintf(*s + *len, ">"); *s = (xml->child) ? ezxml_toxml_r(xml->child, s, len, max, 0, attr) //child : ezxml_ampencode(xml->txt, -1, s, len, max, 0); //data while (*len + strlen(xml->name) + 4 > *max) // reallocate s *s = realloc(*s, *max += EZXML_BUFSIZE); *len += sprintf(*s + *len, "</%s>", xml->name); // close tag while (txt[off] && off < xml->off) off++; // make sure off is within bounds return (xml->ordered) ? ezxml_toxml_r(xml->ordered, s, len, max, off, attr) : ezxml_ampencode(txt + off, -1, s, len, max, 0); } // converts an ezxml structure back to xml, returning it as a string that must // be freed char *ezxml_toxml(ezxml_t xml) { ezxml_t p = (xml) ? xml->parent : NULL, o = (xml) ? xml->ordered : NULL; ezxml_root_t root = (ezxml_root_t)xml; size_t len = 0, max = EZXML_BUFSIZE; char *s = strcpy(malloc(max), ""), *t, *n; int i, j, k; if (! xml || ! xml->name) return realloc(s, len + 1); while (root->xml.parent) root = (ezxml_root_t)root->xml.parent; // root tag for (i = 0; ! p && root->pi[i]; i++) { // pre-root processing instructions for (k = 2; root->pi[i][k - 1]; k++); for (j = 1; (n = root->pi[i][j]); j++) { if (root->pi[i][k][j - 1] == '>') continue; // not pre-root while (len + strlen(t = root->pi[i][0]) + strlen(n) + 7 > max) s = realloc(s, max += EZXML_BUFSIZE); len += sprintf(s + len, "<?%s%s%s?>\n", t, *n ? " " : "", n); } } xml->parent = xml->ordered = NULL; s = ezxml_toxml_r(xml, &s, &len, &max, 0, root->attr); xml->parent = p; xml->ordered = o; for (i = 0; ! p && root->pi[i]; i++) { // post-root processing instructions for (k = 2; root->pi[i][k - 1]; k++); for (j = 1; (n = root->pi[i][j]); j++) { if (root->pi[i][k][j - 1] == '<') continue; // not post-root while (len + strlen(t = root->pi[i][0]) + strlen(n) + 7 > max) s = realloc(s, max += EZXML_BUFSIZE); len += sprintf(s + len, "\n<?%s%s%s?>", t, *n ? " " : "", n); } } return realloc(s, len + 1); } // free the memory allocated for the ezxml structure void ezxml_free(ezxml_t xml) { ezxml_root_t root = (ezxml_root_t)xml; int i, j; char **a, *s; if (! xml) return; ezxml_free(xml->child); ezxml_free(xml->ordered); if (! xml->parent) { // free root tag allocations for (i = 10; root->ent[i]; i += 2) // 0 - 9 are default entites (<>&"') if ((s = root->ent[i + 1]) < root->s || s > root->e) free(s); free(root->ent); // free list of general entities for (i = 0; (a = root->attr[i]); i++) { for (j = 1; a[j++]; j += 2) // free malloced attribute values if (a[j] && (a[j] < root->s || a[j] > root->e)) free(a[j]); free(a); } if (root->attr[0]) free(root->attr); // free default attribute list for (i = 0; root->pi[i]; i++) { for (j = 1; root->pi[i][j]; j++); free(root->pi[i][j + 1]); free(root->pi[i]); } if (root->pi[0]) free(root->pi); // free processing instructions if (root->len == -1) free(root->m); // malloced xml data #ifndef EZXML_NOMMAP else if (root->len) munmap(root->m, root->len); // mem mapped xml data #endif // EZXML_NOMMAP if (root->u) free(root->u); // utf8 conversion } ezxml_free_attr(xml->attr); // tag attributes if ((xml->flags & EZXML_TXTM)) free(xml->txt); // character content if ((xml->flags & EZXML_NAMEM)) free(xml->name); // tag name free(xml); } // return parser error message or empty string if none const char *ezxml_error(ezxml_t xml) { while (xml && xml->parent) xml = xml->parent; // find root tag return (xml) ? ((ezxml_root_t)xml)->err : ""; } // returns a new empty ezxml structure with the given root tag name ezxml_t ezxml_new(const char *name) { static char *ent[] = { "lt;", "<", "gt;", ">", "quot;", """, "apos;", "'", "amp;", "&", NULL }; ezxml_root_t root = (ezxml_root_t)memset(malloc(sizeof(struct ezxml_root)), '\0', sizeof(struct ezxml_root)); root->xml.name = (char *)name; root->cur = &root->xml; strcpy(root->err, root->xml.txt = ""); root->ent = memcpy(malloc(sizeof(ent)), ent, sizeof(ent)); root->attr = root->pi = (char ***)(root->xml.attr = EZXML_NIL); return &root->xml; } // Adds a child tag. off is the offset of the child tag relative to the start // of the parent tag's character content. returns the child tag ezxml_t ezxml_add_child(ezxml_t xml, const char *name, size_t off) { ezxml_t cur, head, child; if (! xml) return NULL; child = (ezxml_t)memset(malloc(sizeof(struct ezxml)), '\0', sizeof(struct ezxml)); child->name = (char *)name; child->attr = EZXML_NIL; child->off = off; child->parent = xml; child->txt = ""; if ((head = xml->child)) { // already have sub tags if (head->off <= off) { // not first subtag for (cur = head; cur->ordered && cur->ordered->off <= off; cur = cur->ordered); child->ordered = cur->ordered; cur->ordered = child; } else { // first subtag child->ordered = head; xml->child = child; } for (cur = head; cur->sibling && strcmp(cur->name, name); cur = cur->sibling); // find tag type if (! strcmp(cur->name, name) && cur->off <= off) { //not first of type while (cur->next && cur->next->off <= off) cur = cur->next; child->next = cur->next; cur->next = child; } else { // first tag of this type if (cur->off > off) child->next = cur; // not only tag of this type for (cur = head; cur->sibling && cur->sibling->off <= off; cur = cur->sibling); child->sibling = cur->sibling; cur->sibling = child; } } else xml->child = child; // only sub tag return child; } // sets the character content for the given tag and returns the tag ezxml_t ezxml_set_txt(ezxml_t xml, const char *txt) { if (! xml) return NULL; if (xml->flags & EZXML_TXTM) free(xml->txt); // existing txt was malloced xml->flags &= ~EZXML_TXTM; xml->txt = (char *)txt; return xml; } // Sets the given tag attribute or adds a new attribute if not found. A value // of NULL will remove the specified attribute. void ezxml_set_attr(ezxml_t xml, const char *name, const char *value) { int l = 0, c; if (! xml) return; while (xml->attr[l] && strcmp(xml->attr[l], name)) l += 2; if (! xml->attr[l]) { // not found, add as new attribute if (! value) return; // nothing to do if (xml->attr == EZXML_NIL) { // first attribute xml->attr = malloc(4 * sizeof(char *)); xml->attr[1] = strdup(""); // empty list of malloced names/vals } else xml->attr = realloc(xml->attr, (l + 4) * sizeof(char *)); xml->attr[l] = (char *)name; // set attribute name xml->attr[l + 2] = NULL; // null terminate attribute list xml->attr[l + 3] = realloc(xml->attr[l + 1], (c = strlen(xml->attr[l + 1])) + 2); strcpy(xml->attr[l + 3] + c, " "); // set name/value as not malloced if (xml->flags & EZXML_DUP) xml->attr[l + 3][c] = EZXML_NAMEM; } else if (xml->flags & EZXML_DUP) free((char *)name); // name was strduped for (c = l; xml->attr[c]; c += 2); // find end of attribute list if (xml->attr[c + 1][l / 2] & EZXML_TXTM) free(xml->attr[l + 1]); //old val if (xml->flags & EZXML_DUP) xml->attr[c + 1][l / 2] |= EZXML_TXTM; else xml->attr[c + 1][l / 2] &= ~EZXML_TXTM; if (value) xml->attr[l + 1] = (char *)value; // set attribute value else { // remove attribute if (xml->attr[c + 1][l / 2] & EZXML_NAMEM) free(xml->attr[l]); memmove(xml->attr + l, xml->attr + l + 2, (c - l + 2) * sizeof(char*)); xml->attr = realloc(xml->attr, (c + 2) * sizeof(char *)); memmove(xml->attr[c + 1] + (l / 2), xml->attr[c + 1] + (l / 2) + 1, (c / 2) - (l / 2)); // fix list of which name/vals are malloced } xml->flags &= ~EZXML_DUP; // clear strdup() flag } // sets a flag for the given tag and returns the tag ezxml_t ezxml_set_flag(ezxml_t xml, short flag) { if (xml) xml->flags |= flag; return xml; } // removes a tag along with all its subtags void ezxml_remove(ezxml_t xml) { ezxml_t cur; if (! xml) return; // nothing to do if (xml->next) xml->next->sibling = xml->sibling; // patch sibling list if (xml->parent) { // not root tag cur = xml->parent->child; // find head of subtag list if (cur == xml) xml->parent->child = xml->ordered; // first subtag else { // not first subtag while (cur->ordered != xml) cur = cur->ordered; cur->ordered = cur->ordered->ordered; // patch ordered list cur = xml->parent->child; // go back to head of subtag list if (strcmp(cur->name, xml->name)) { // not in first sibling list while (strcmp(cur->sibling->name, xml->name)) cur = cur->sibling; if (cur->sibling == xml) { // first of a sibling list cur->sibling = (xml->next) ? xml->next : cur->sibling->sibling; } else cur = cur->sibling; // not first of a sibling list } while (cur->next && cur->next != xml) cur = cur->next; if (cur->next) cur->next = cur->next->next; // patch next list } } xml->ordered = NULL; // prevent ezxml_free() from clobbering ordered list ezxml_free(xml); } #ifdef EZXML_TEST // test harness int main(int argc, char **argv) { ezxml_t xml; char *s; int i; if (argc != 2) return fprintf(stderr, "usage: %s xmlfile\n", argv[0]); xml = ezxml_parse_file(argv[1]); printf("%s\n", (s = ezxml_toxml(xml))); free(s); i = fprintf(stderr, "%s", ezxml_error(xml)); ezxml_free(xml); return (i) ? 1 : 0; } #endif // EZXML_TEST
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