Mercurial > ~mikael > mcabber > hg
view mcabber/libjabber/xmlnode.c @ 432:3a613e1d229b 0.6.8
Ready for 0.6.8 release
| author | Mikael Berthe <mikael@lilotux.net> |
|---|---|
| date | Mon, 12 Sep 2005 20:24:16 +0200 |
| parents | c3ae9251c197 |
| children | 5f43b532cc37 |
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/* * This program 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 of the License, or * (at your option) any later version. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * Copyrights * * Portions created by or assigned to Jabber.com, Inc. are * Copyright (c) 1999-2002 Jabber.com, Inc. All Rights Reserved. Contact * information for Jabber.com, Inc. is available at http://www.jabber.com/. * * Portions Copyright (c) 1998-1999 Jeremie Miller. * * Acknowledgements * * Special thanks to the Jabber Open Source Contributors for their * suggestions and support of Jabber. * */ #include "libxode.h" /* Internal routines */ xmlnode _xmlnode_new(pool p, const char* name, unsigned int type) { xmlnode result = NULL; if (type > NTYPE_LAST) return NULL; if (type != NTYPE_CDATA && name == NULL) return NULL; if (p == NULL) { p = pool_heap(1*1024); } /* Allocate & zero memory */ result = (xmlnode)pmalloco(p, sizeof(_xmlnode)); /* Initialize fields */ if (type != NTYPE_CDATA) result->name = pstrdup(p,name); result->type = type; result->p = p; return result; } static xmlnode _xmlnode_append_sibling(xmlnode lastsibling, const char* name, unsigned int type) { xmlnode result; result = _xmlnode_new(xmlnode_pool(lastsibling), name, type); if (result != NULL) { /* Setup sibling pointers */ result->prev = lastsibling; lastsibling->next = result; } return result; } static xmlnode _xmlnode_insert(xmlnode parent, const char* name, unsigned int type) { xmlnode result; if(parent == NULL || (type != NTYPE_CDATA && name == NULL)) return NULL; /* If parent->firstchild is NULL, simply create a new node for the first child */ if (parent->firstchild == NULL) { result = _xmlnode_new(parent->p, name, type); parent->firstchild = result; } /* Otherwise, append this to the lastchild */ else { result= _xmlnode_append_sibling(parent->lastchild, name, type); } result->parent = parent; parent->lastchild = result; return result; } static xmlnode _xmlnode_search(xmlnode firstsibling, const char* name, unsigned int type) { xmlnode current; /* Walk the sibling list, looking for a NTYPE_TAG xmlnode with the specified name */ current = firstsibling; while (current != NULL) { if ((current->type == type) && (j_strcmp(current->name, name) == 0)) return current; else current = current->next; } return NULL; } void _xmlnode_merge(xmlnode data) { xmlnode cur; char *merge, *scur; int imerge; /* get total size of all merged cdata */ imerge = 0; for(cur = data; cur != NULL && cur->type == NTYPE_CDATA; cur = cur->next) imerge += cur->data_sz; /* copy in current data and then spin through all of them and merge */ scur = merge = pmalloc(data->p,imerge + 1); for(cur = data; cur != NULL && cur->type == NTYPE_CDATA; cur = cur->next) { memcpy(scur,cur->data,cur->data_sz); scur += cur->data_sz; } *scur = '\0'; /* this effectively hides all of the merged-in chunks */ data->next = cur; if(cur == NULL) data->parent->lastchild = data; else cur->prev = data; /* reset data */ data->data = merge; data->data_sz = imerge; } static void _xmlnode_hide_sibling(xmlnode child) { if(child == NULL) return; if(child->prev != NULL) child->prev->next = child->next; if(child->next != NULL) child->next->prev = child->prev; } void _xmlnode_tag2str(spool s, xmlnode node, int flag) { xmlnode tmp; if(flag==0 || flag==1) { spooler(s,"<",xmlnode_get_name(node),s); tmp = xmlnode_get_firstattrib(node); while(tmp) { spooler(s," ",xmlnode_get_name(tmp),"='",strescape(xmlnode_pool(node),xmlnode_get_data(tmp)),"'",s); tmp = xmlnode_get_nextsibling(tmp); } if(flag==0) spool_add(s,"/>"); else spool_add(s,">"); } else { spooler(s,"</",xmlnode_get_name(node),">",s); } } spool _xmlnode2spool(xmlnode node) { spool s; int level=0,dir=0; xmlnode tmp; if(!node || xmlnode_get_type(node)!=NTYPE_TAG) return NULL; s = spool_new(xmlnode_pool(node)); if(!s) return(NULL); while(1) { if(dir==0) { if(xmlnode_get_type(node) == NTYPE_TAG) { if(xmlnode_has_children(node)) { _xmlnode_tag2str(s,node,1); node = xmlnode_get_firstchild(node); level++; continue; }else{ _xmlnode_tag2str(s,node,0); } }else{ spool_add(s,strescape(xmlnode_pool(node),xmlnode_get_data(node))); } } tmp = xmlnode_get_nextsibling(node); if(!tmp) { node = xmlnode_get_parent(node); level--; if(level>=0) _xmlnode_tag2str(s,node,2); if(level<1) break; dir = 1; }else{ node = tmp; dir = 0; } } return s; } /* External routines */ /* * xmlnode_new_tag -- create a tag node * Automatically creates a memory pool for the node. * * parameters * name -- name of the tag * * returns * a pointer to the tag node * or NULL if it was unsuccessfull */ xmlnode xmlnode_new_tag(const char* name) { return _xmlnode_new(NULL, name, NTYPE_TAG); } /* * xmlnode_new_tag_pool -- create a tag node within given pool * * parameters * p -- previously created memory pool * name -- name of the tag * * returns * a pointer to the tag node * or NULL if it was unsuccessfull */ xmlnode xmlnode_new_tag_pool(pool p, const char* name) { return _xmlnode_new(p, name, NTYPE_TAG); } /* * xmlnode_insert_tag -- append a child tag to a tag * * parameters * parent -- pointer to the parent tag * name -- name of the child tag * * returns * a pointer to the child tag node * or NULL if it was unsuccessfull */ xmlnode xmlnode_insert_tag(xmlnode parent, const char* name) { return _xmlnode_insert(parent, name, NTYPE_TAG); } /* * xmlnode_insert_cdata -- append character data to a tag * * parameters * parent -- parent tag * CDATA -- character data * size -- size of CDATA * or -1 for null-terminated CDATA strings * * returns * a pointer to the child CDATA node * or NULL if it was unsuccessfull */ xmlnode xmlnode_insert_cdata(xmlnode parent, const char* CDATA, unsigned int size) { xmlnode result; if(CDATA == NULL || parent == NULL) return NULL; if(size == -1) size = strlen(CDATA); result = _xmlnode_insert(parent, NULL, NTYPE_CDATA); if (result != NULL) { result->data = (char*)pmalloc(result->p, size + 1); memcpy(result->data, CDATA, size); result->data[size] = '\0'; result->data_sz = size; } return result; } /* * xmlnode_get_tag -- find given tag in an xmlnode tree * * parameters * parent -- pointer to the parent tag * name -- "name" for the child tag of that name * "name/name" for a sub child (recurses) * "?attrib" to match the first tag with that attrib defined * "?attrib=value" to match the first tag with that attrib and value * "=cdata" to match the cdata contents of the child * or any combination: "name/name/?attrib", "name=cdata", etc * * results * a pointer to the tag matching search criteria * or NULL if search was unsuccessfull */ xmlnode xmlnode_get_tag(xmlnode parent, const char* name) { char *str, *slash, *qmark, *equals; xmlnode step, ret; if(parent == NULL || parent->firstchild == NULL || name == NULL || name == '\0') return NULL; if(strstr(name, "/") == NULL && strstr(name,"?") == NULL && strstr(name, "=") == NULL) return _xmlnode_search(parent->firstchild, name, NTYPE_TAG); str = strdup(name); slash = strstr(str, "/"); qmark = strstr(str, "?"); equals = strstr(str, "="); if(equals != NULL && (slash == NULL || equals < slash) && (qmark == NULL || equals < qmark)) { /* of type =cdata */ *equals = '\0'; equals++; for(step = parent->firstchild; step != NULL; step = xmlnode_get_nextsibling(step)) { if(xmlnode_get_type(step) != NTYPE_TAG) continue; if(*str != '\0') if(j_strcmp(xmlnode_get_name(step),str) != 0) continue; if(j_strcmp(xmlnode_get_data(step),equals) != 0) continue; break; } free(str); return step; } if(qmark != NULL && (slash == NULL || qmark < slash)) { /* of type ?attrib */ *qmark = '\0'; qmark++; if(equals != NULL) { *equals = '\0'; equals++; } for(step = parent->firstchild; step != NULL; step = xmlnode_get_nextsibling(step)) { if(xmlnode_get_type(step) != NTYPE_TAG) continue; if(*str != '\0') if(j_strcmp(xmlnode_get_name(step),str) != 0) continue; if(xmlnode_get_attrib(step,qmark) == NULL) continue; if(equals != NULL && j_strcmp(xmlnode_get_attrib(step,qmark),equals) != 0) continue; break; } free(str); return step; } *slash = '\0'; ++slash; for(step = parent->firstchild; step != NULL; step = xmlnode_get_nextsibling(step)) { if(xmlnode_get_type(step) != NTYPE_TAG) continue; if(j_strcmp(xmlnode_get_name(step),str) != 0) continue; ret = xmlnode_get_tag(step, slash); if(ret != NULL) { free(str); return ret; } } free(str); return NULL; } /* return the cdata from any tag */ char *xmlnode_get_tag_data(xmlnode parent, const char *name) { xmlnode tag; tag = xmlnode_get_tag(parent, name); if(tag == NULL) return NULL; return xmlnode_get_data(tag); } void xmlnode_put_attrib(xmlnode owner, const char* name, const char* value) { xmlnode attrib; if(owner == NULL || name == NULL || value == NULL) return; /* If there are no existing attributs, allocate a new one to start the list */ if (owner->firstattrib == NULL) { attrib = _xmlnode_new(owner->p, name, NTYPE_ATTRIB); owner->firstattrib = attrib; owner->lastattrib = attrib; } else { attrib = _xmlnode_search(owner->firstattrib, name, NTYPE_ATTRIB); if(attrib == NULL) { attrib = _xmlnode_append_sibling(owner->lastattrib, name, NTYPE_ATTRIB); owner->lastattrib = attrib; } } /* Update the value of the attribute */ attrib->data_sz = strlen(value); attrib->data = pstrdup(owner->p, value); } char* xmlnode_get_attrib(xmlnode owner, const char* name) { xmlnode attrib; if (owner != NULL && owner->firstattrib != NULL) { attrib = _xmlnode_search(owner->firstattrib, name, NTYPE_ATTRIB); if (attrib != NULL) return (char*)attrib->data; } return NULL; } void xmlnode_put_vattrib(xmlnode owner, const char* name, void *value) { xmlnode attrib; if (owner != NULL) { attrib = _xmlnode_search(owner->firstattrib, name, NTYPE_ATTRIB); if (attrib == NULL) { xmlnode_put_attrib(owner, name, ""); attrib = _xmlnode_search(owner->firstattrib, name, NTYPE_ATTRIB); } if (attrib != NULL) attrib->firstchild = (xmlnode)value; } } void* xmlnode_get_vattrib(xmlnode owner, const char* name) { xmlnode attrib; if (owner != NULL && owner->firstattrib != NULL) { attrib = _xmlnode_search(owner->firstattrib, name, NTYPE_ATTRIB); if (attrib != NULL) return (void*)attrib->firstchild; } return NULL; } xmlnode xmlnode_get_firstattrib(xmlnode parent) { if (parent != NULL) return parent->firstattrib; return NULL; } xmlnode xmlnode_get_firstchild(xmlnode parent) { if (parent != NULL) return parent->firstchild; return NULL; } xmlnode xmlnode_get_lastchild(xmlnode parent) { if (parent != NULL) return parent->lastchild; return NULL; } xmlnode xmlnode_get_nextsibling(xmlnode sibling) { if (sibling != NULL) return sibling->next; return NULL; } xmlnode xmlnode_get_prevsibling(xmlnode sibling) { if (sibling != NULL) return sibling->prev; return NULL; } xmlnode xmlnode_get_parent(xmlnode node) { if (node != NULL) return node->parent; return NULL; } char* xmlnode_get_name(xmlnode node) { if (node != NULL) return node->name; return NULL; } char* xmlnode_get_data(xmlnode node) { if(xmlnode_get_type(node) == NTYPE_TAG) /* loop till we find a CDATA in the children */ for(node = xmlnode_get_firstchild(node); node != NULL; node = xmlnode_get_nextsibling(node)) if(xmlnode_get_type(node) == NTYPE_CDATA) break; if(node == NULL) return NULL; /* check for a dirty node w/ unassembled cdata chunks */ if(xmlnode_get_type(node->next) == NTYPE_CDATA) _xmlnode_merge(node); return node->data; } int xmlnode_get_datasz(xmlnode node) { if(xmlnode_get_type(node) != NTYPE_CDATA) return 0; /* check for a dirty node w/ unassembled cdata chunks */ if(xmlnode_get_type(node->next) == NTYPE_CDATA) _xmlnode_merge(node); return node->data_sz; } int xmlnode_get_type(xmlnode node) { if (node != NULL) return node->type; return NTYPE_UNDEF; } int xmlnode_has_children(xmlnode node) { if ((node != NULL) && (node->firstchild != NULL)) return 1; return 0; } int xmlnode_has_attribs(xmlnode node) { if ((node != NULL) && (node->firstattrib != NULL)) return 1; return 0; } pool xmlnode_pool(xmlnode node) { if (node != NULL) return node->p; return (pool)NULL; } void xmlnode_hide(xmlnode child) { xmlnode parent; if(child == NULL || child->parent == NULL) return; parent = child->parent; /* first fix up at the child level */ _xmlnode_hide_sibling(child); /* next fix up at the parent level */ if(parent->firstchild == child) parent->firstchild = child->next; if(parent->lastchild == child) parent->lastchild = child->prev; } void xmlnode_hide_attrib(xmlnode parent, const char *name) { xmlnode attrib; if(parent == NULL || parent->firstattrib == NULL || name == NULL) return; attrib = _xmlnode_search(parent->firstattrib, name, NTYPE_ATTRIB); if(attrib == NULL) return; /* first fix up at the child level */ _xmlnode_hide_sibling(attrib); /* next fix up at the parent level */ if(parent->firstattrib == attrib) parent->firstattrib = attrib->next; if(parent->lastattrib == attrib) parent->lastattrib = attrib->prev; } /* * xmlnode2str -- convert given xmlnode tree into a string * * parameters * node -- pointer to the xmlnode structure * * results * a pointer to the created string * or NULL if it was unsuccessfull */ char *xmlnode2str(xmlnode node) { return spool_print(_xmlnode2spool(node)); } /* * xmlnode2tstr -- convert given xmlnode tree into a newline terminated string * * parameters * node -- pointer to the xmlnode structure * * results * a pointer to the created string * or NULL if it was unsuccessfull */ char* xmlnode2tstr(xmlnode node) { spool s = _xmlnode2spool(node); if (s != NULL) spool_add(s, "\n"); return spool_print(s); } /* loop through both a and b comparing everything, attribs, cdata, children, etc */ int xmlnode_cmp(xmlnode a, xmlnode b) { int ret = 0; while(1) { if(a == NULL && b == NULL) return 0; if(a == NULL || b == NULL) return -1; if(xmlnode_get_type(a) != xmlnode_get_type(b)) return -1; switch(xmlnode_get_type(a)) { case NTYPE_ATTRIB: ret = j_strcmp(xmlnode_get_name(a), xmlnode_get_name(b)); if(ret != 0) return -1; ret = j_strcmp(xmlnode_get_data(a), xmlnode_get_data(b)); if(ret != 0) return -1; break; case NTYPE_TAG: ret = j_strcmp(xmlnode_get_name(a), xmlnode_get_name(b)); if(ret != 0) return -1; ret = xmlnode_cmp(xmlnode_get_firstattrib(a), xmlnode_get_firstattrib(b)); if(ret != 0) return -1; ret = xmlnode_cmp(xmlnode_get_firstchild(a), xmlnode_get_firstchild(b)); if(ret != 0) return -1; break; case NTYPE_CDATA: ret = j_strcmp(xmlnode_get_data(a), xmlnode_get_data(b)); if(ret != 0) return -1; } a = xmlnode_get_nextsibling(a); b = xmlnode_get_nextsibling(b); } } xmlnode xmlnode_insert_tag_node(xmlnode parent, xmlnode node) { xmlnode child; child = xmlnode_insert_tag(parent, xmlnode_get_name(node)); if (xmlnode_has_attribs(node)) xmlnode_insert_node(child, xmlnode_get_firstattrib(node)); if (xmlnode_has_children(node)) xmlnode_insert_node(child, xmlnode_get_firstchild(node)); return child; } /* places copy of node and node's siblings in parent */ void xmlnode_insert_node(xmlnode parent, xmlnode node) { if(node == NULL || parent == NULL) return; while(node != NULL) { switch(xmlnode_get_type(node)) { case NTYPE_ATTRIB: xmlnode_put_attrib(parent, xmlnode_get_name(node), xmlnode_get_data(node)); break; case NTYPE_TAG: xmlnode_insert_tag_node(parent, node); break; case NTYPE_CDATA: xmlnode_insert_cdata(parent, xmlnode_get_data(node), xmlnode_get_datasz(node)); } node = xmlnode_get_nextsibling(node); } } /* produce full duplicate of x with a new pool, x must be a tag! */ xmlnode xmlnode_dup(xmlnode x) { xmlnode x2; if(x == NULL) return NULL; x2 = xmlnode_new_tag(xmlnode_get_name(x)); if (xmlnode_has_attribs(x)) xmlnode_insert_node(x2, xmlnode_get_firstattrib(x)); if (xmlnode_has_children(x)) xmlnode_insert_node(x2, xmlnode_get_firstchild(x)); return x2; } xmlnode xmlnode_dup_pool(pool p, xmlnode x) { xmlnode x2; if(x == NULL) return NULL; x2 = xmlnode_new_tag_pool(p, xmlnode_get_name(x)); if (xmlnode_has_attribs(x)) xmlnode_insert_node(x2, xmlnode_get_firstattrib(x)); if (xmlnode_has_children(x)) xmlnode_insert_node(x2, xmlnode_get_firstchild(x)); return x2; } xmlnode xmlnode_wrap(xmlnode x,const char *wrapper) { xmlnode wrap; if(x==NULL||wrapper==NULL) return NULL; wrap=xmlnode_new_tag_pool(xmlnode_pool(x),wrapper); if(wrap==NULL) return NULL; wrap->firstchild=x; wrap->lastchild=x; x->parent=wrap; return wrap; } void xmlnode_free(xmlnode node) { if(node == NULL) return; pool_free(node->p); }