Sat, 22 Jun 2013 13:54:41 +0200
added file system ACLs for linux
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2013 Olaf Wintermann. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include "webdav.h" #include "../ucx/string.h" #include "../util/pool.h" #include "../util/pblock.h" #include "../util/date.h" #include "../util/util.h" #include "../daemon/vfs.h" #include "../daemon/protocol.h" #include "davparser.h" #include "persistence.h" static UcxMap *pmgr_map; // char*, PersistenceManager int webdav_init(pblock *pb, Session *sn, Request *rq) { pmgr_map = ucx_map_new(8); PersistenceManager *defaultmgr = create_property_backend(); ucx_map_cstr_put(pmgr_map, "default", defaultmgr); return REQ_PROCEED; } void webdav_add_persistence_manager(char *name, PersistenceManager *mgr) { if(!pmgr_map) { webdav_init(NULL, NULL, NULL); } ucx_map_cstr_put(pmgr_map, name, mgr); } int webdav_setcollection(pblock *pb, Session *sn, Request *rq) { //char *name = pblock_findkeyval(pb_key_name, pb); char *db = pblock_findval("db", pb); if(!db) { db = "default"; } // setup DavCollection DavCollection *dav = pool_malloc(sn->pool, sizeof(DavCollection)); dav->mgr = ucx_map_cstr_get(pmgr_map, db); rq->davCollection = dav; return REQ_NOACTION; } int webdav_service(pblock *pb, Session *sn, Request *rq) { char *method = pblock_findkeyval(pb_key_method, rq->reqpb); if(method == NULL) { return REQ_ABORTED; } if(!strcmp(method, "PROPFIND")) { return webdav_propfind(pb, sn, rq); } else if(!strcmp(method, "PROPPATCH")) { return webdav_proppatch(pb, sn, rq); } else if(!strcmp(method, "PUT")) { return webdav_put(pb, sn, rq); } else if(!strcmp(method, "DELETE")) { return webdav_delete(pb, sn, rq); } else if(!strcmp(method, "MKCOL")) { return webdav_mkcol(pb, sn, rq); } return REQ_NOACTION; } int webdav_put(pblock *pb, Session *sn, Request *rq) { int length = 0; char *ppath = pblock_findkeyval(pb_key_ppath, rq->vars); char *ctlen = pblock_findkeyval(pb_key_content_length, rq->headers); if(ctlen) { length = atoi(ctlen); } else { /* invalid request */ printf("invalid request\n"); return REQ_ABORTED; } printf("PUT length: %d\n", length); //int status = 201; //FILE *out = fopen(ppath, "w"); VFSContext *vfs = vfs_request_context(sn, rq); SYS_FILE out = vfs_openWO(vfs, ppath); if(out == NULL) { fprintf(stderr, "vfs_openWO(%s, \"w\") failed\n", ppath); //protocol_status(sn, rq, 500, NULL); return REQ_ABORTED; } if(length > 0) { size_t len = (length > 4096) ? (4096) : (length); char *buffer = pool_malloc(sn->pool, len); int r; int r2 = 0; while(r2 < length) { r = netbuf_getbytes(sn->inbuf, buffer, len); if(r == NETBUF_EOF) { break; } system_fwrite(out, buffer, r); r2 += r; } pool_free(sn->pool, buffer); } else { } vfs_close(out); protocol_status(sn, rq, 201, NULL); pblock_removekey(pb_key_content_type, rq->srvhdrs); pblock_nninsert("content-length", 0, rq->srvhdrs); http_start_response(sn, rq); return REQ_PROCEED; } int webdav_delete(pblock *pb, Session *sn, Request *rq) { char *uri = pblock_findkeyval(pb_key_uri, rq->reqpb); char *ppath = pblock_findkeyval(pb_key_ppath, rq->vars); VFSContext *vfs = vfs_request_context(sn, rq); int status = 204; struct stat st; if(vfs_stat(vfs, ppath, &st)) { return REQ_ABORTED; } if(!strcmp(uri, "/")) { status = 403; } else if((st.st_mode & S_IFDIR) == S_IFDIR) { if(rmdir(ppath) != 0) { /* ERROR */ status = 403; } } else { if(vfs_unlink(vfs, ppath)) { /* ERROR */ return REQ_ABORTED; } } protocol_status(sn, rq, status, NULL); pblock_removekey(pb_key_content_type, rq->srvhdrs); pblock_nninsert("content-length", 0, rq->srvhdrs); http_start_response(sn, rq); return REQ_PROCEED; } int webdav_mkcol(pblock *pb, Session *sn, Request *rq) { char *ppath = pblock_findkeyval(pb_key_ppath, rq->vars); VFSContext *vfs = vfs_request_context(sn, rq); if(vfs_mkdir(vfs, ppath)) { return REQ_ABORTED; } protocol_status(sn, rq, 201, NULL); pblock_removekey(pb_key_content_type, rq->srvhdrs); pblock_nninsert("content-length", 0, rq->srvhdrs); http_start_response(sn, rq); return REQ_ABORTED; } int webdav_copy(pblock *pb, Session *sn, Request *rq) { return REQ_ABORTED; } int webdav_move(pblock *pb, Session *sn, Request *rq) { return REQ_ABORTED; } int webdav_propfind(pblock *pb, Session *sn, Request *rq) { /* TODO: clean up if errors occurs */ /* Get request body which contains the webdav XML request */ char *xml_body; size_t xml_len = 0; char *ctlen = pblock_findkeyval(pb_key_content_length, rq->headers); if(ctlen) { xml_len = atoi(ctlen); } else { /* invalid request */ printf("invalid request\n"); return REQ_ABORTED; } xml_body = pool_malloc(sn->pool, xml_len + 1); if(xml_body == NULL) { return REQ_ABORTED; } xml_body[xml_len] = 0; if(!xml_body) { /* server error */ printf("server error\n"); return REQ_ABORTED; } /* get request body */ int r = 0; char *xb = xml_body; size_t xl = xml_len; while((r = netbuf_getbytes(sn->inbuf, xb, xl)) != NETBUF_EOF) { xb += r; xl -= r; } /* * get requested properties and initialize some stuff */ DavCollection *collection = rq->davCollection; PropfindRequest *davrq = dav_parse_propfind(sn, rq, xml_body, xml_len); davrq->sn = sn; davrq->rq = rq; davrq->out = sbuf_new(512); davrq->persistencemgr = collection->mgr; /* begin multistatus response */ char *uri = pblock_findkeyval(pb_key_uri, rq->reqpb); char *ppath = pblock_findkeyval(pb_key_ppath, rq->vars); davrq->uri = uri; davrq->path = ppath; VFSContext *vfs = vfs_request_context(sn, rq); struct stat st; if(vfs_stat(vfs, ppath, &st) != 0) { return REQ_ABORTED; } // begin propfind davrq->isdir = S_ISDIR(st.st_mode); davrq->persistencemgr->propfind_begin(davrq->persistencemgr, davrq); // create the response for the requested resource dav_resource_response(davrq, sstr(ppath), sstr(uri)); /* * if the requested webdav resource(file) is a directory, we create * a response for every child */ if(S_ISDIR(st.st_mode)) { VFS_DIR dir = vfs_opendir(vfs, ppath); if(dir == NULL) { return REQ_ABORTED; } VFS_ENTRY entry; while(vfs_readdir(dir, &entry)) { sstr_t newpath = util_path_append(sn->pool, ppath, entry.name); sstr_t newuri = util_path_append(sn->pool, uri, entry.name); // child response dav_resource_response(davrq, newpath, newuri); } } // end propfind davrq->persistencemgr->propfind_begin(davrq->persistencemgr, davrq); // end xml sbuf_puts(davrq->out, "</D:multistatus>\n"); //printf("%s\n", davrq->out->ptr); // write xml response header sbuf_t *out = sbuf_new(256); sbuf_puts(out, "<?xml version=\"1.0\" encoding=\"utf-8\"?>\n"); sbuf_puts(out, "<D:multistatus"); UcxMapIterator nsiter = ucx_map_iterator(davrq->nsmap->map); XmlNs *ns; UCX_MAP_FOREACH(ns, nsiter) { sbuf_puts(out, " xmlns:"); sbuf_puts(out, ns->prefix); sbuf_puts(out, "=\""); sbuf_puts(out, ns->xmlns); sbuf_puts(out, "\""); } sbuf_puts(out, ">\n"); // send the xml response to the client protocol_status(sn, rq, 207, "Multi Status"); pblock_removekey(pb_key_content_type, rq->srvhdrs); pblock_nvinsert("content-type", "text/xml", rq->srvhdrs); pblock_nninsert( "content-length", out->length + davrq->out->length, rq->srvhdrs); http_start_response(sn, rq); // write content size_t nr; nr = net_write(sn->csd, out->ptr, out->length); nr = net_write(sn->csd, davrq->out->ptr, davrq->out->length); sbuf_free(out); dav_free_propfind(davrq); return REQ_PROCEED; } int webdav_proppatch(pblock *pb, Session *sn, Request *rq) { printf("webdav-proppatch\n"); /* TODO: clean up if errors occurs */ /* TODO: this is the same code as in propfind */ char *uri = pblock_findkeyval(pb_key_uri, rq->reqpb); if(uri == NULL) { /* TODO: error */ return REQ_ABORTED; } // Get request body which contains the webdav XML request char *xml_body; size_t xml_len = 0; char *ctlen = pblock_findkeyval(pb_key_content_length, rq->headers); if(ctlen) { xml_len = atoi(ctlen); } else { // invalid request printf("invalid request\n"); return REQ_ABORTED; } xml_body = pool_malloc(sn->pool, xml_len + 1); if(xml_body == NULL) { return REQ_ABORTED; } xml_body[xml_len] = 0; if(!xml_body) { // server error printf("server error\n"); return REQ_ABORTED; } // get request body int r = 0; char *xb = xml_body; size_t xl = xml_len; while((r = netbuf_getbytes(sn->inbuf, xb, xl)) != NETBUF_EOF) { xb += r; xl -= r; } /* * parse the xml request and create the proppatch object */ DavCollection *collection = rq->davCollection; ProppatchRequest *davrq = dav_parse_proppatch(sn, rq, xml_body, xml_len); davrq->sn = sn; davrq->rq = rq; davrq->out = sbuf_new(512); davrq->backend = collection->mgr; davrq->propstat = propstat_create(sn->pool); /* * begin multistatus response * * The webdav backend does the most work. The backend->proppatch function * modifies the properties and adds status informations to the propstat * member of the ProppatchRequest. All we have to do here is to create * the xml response and send it to the client */ /* write xml response header */ sbuf_puts(davrq->out, "<?xml version=\"1.0\" encoding=\"utf-8\"?>\n"); //sbuf_puts(davrq->out, "<D:multistatus xmlns:D=\"DAV:\">\n"); sbuf_puts(davrq->out, "<D:multistatus"); UcxMapIterator nsiter = ucx_map_iterator(davrq->nsmap->map); XmlNs *ns; UCX_MAP_FOREACH(ns, nsiter) { sbuf_puts(davrq->out, " xmlns:"); sbuf_puts(davrq->out, ns->prefix); sbuf_puts(davrq->out, "=\""); sbuf_puts(davrq->out, ns->xmlns); sbuf_puts(davrq->out, "\""); } sbuf_puts(davrq->out, ">\n"); sbuf_puts(davrq->out, "<D:response>\n<D:href>"); sbuf_puts(davrq->out, uri); sbuf_puts(davrq->out, "</D:href>\n"); /* do proppatch operation */ davrq->backend->proppatch(davrq->backend, davrq); propstat_write(davrq->propstat, davrq->out, 0); sbuf_puts(davrq->out, "</D:response>\n"); sbuf_puts(davrq->out, "</D:multistatus>\n"); /* send the xml response to the client */ protocol_status(sn, rq, 207, "Multi Status"); pblock_removekey(pb_key_content_type, rq->srvhdrs); pblock_nvinsert("content-type", "text/xml", rq->srvhdrs); pblock_nninsert("content-length", davrq->out->length, rq->srvhdrs); //pblock_nvinsert("connection", "close", rq->srvhdrs); http_start_response(sn, rq); net_write(sn->csd, davrq->out->ptr, davrq->out->length); dav_free_proppatch(davrq); return REQ_PROCEED; } void dav_resource_response(PropfindRequest *davrq, sstr_t path, sstr_t uri) { printf("dav_resource_response %s %s\n", sstrdup(path).ptr, sstrdup(uri).ptr); sbuf_puts(davrq->out, "<D:response>\n"); sbuf_puts(davrq->out, "<D:href>"); sbuf_append(davrq->out, uri); sbuf_puts(davrq->out, "</D:href>\n"); if(davrq->persistencemgr->vfs_props) { // get some DAV properties from the file system dav_rq_propfind(davrq->persistencemgr, davrq, path.ptr); } davrq->persistencemgr->propfind(davrq->persistencemgr, davrq, path.ptr); if(davrq->prop) { /* * there are some properties written, so we close the * prop and propstat tag */ sbuf_puts(davrq->out, "</D:prop>\n"); sbuf_puts(davrq->out, "<D:status>HTTP/1.1 200 OK</D:status>\n"); sbuf_puts(davrq->out, "</D:propstat>\n"); } if(davrq->notFoundProps != NULL) { sbuf_puts(davrq->out, "<D:propstat>\n<D:prop>\n"); DAV_FOREACH(elm, davrq->notFoundProps) { DavProperty *prop = (DavProperty*)elm->data; sbuf_put(davrq->out, '<'); sbuf_puts(davrq->out, prop->xmlns->prefix); sbuf_put(davrq->out, ':'); sbuf_puts(davrq->out, prop->name); sbuf_puts(davrq->out, " />\n"); } sbuf_puts(davrq->out, "</D:prop>\n"); sbuf_puts(davrq->out, "<D:status>HTTP/1.1 404 Not Found</D:status>\n"); sbuf_puts(davrq->out, "</D:propstat>\n"); } sbuf_puts(davrq->out, "</D:response>\n"); /* reset */ davrq->prop = 0; davrq->notFoundProps = NULL; davrq->forbiddenProps = NULL; } void dav_propfind_add_str_prop( PropfindRequest *davrq, DavProperty* prop, char *str, size_t len) { if(!davrq->prop) { sbuf_puts(davrq->out, "<D:propstat>\n<D:prop>\n"); davrq->prop = 1; } sbuf_put(davrq->out, '<'); sbuf_puts(davrq->out, prop->xmlns->prefix); sbuf_put(davrq->out, ':'); sbuf_puts(davrq->out, prop->name); sbuf_put(davrq->out, '>'); sbuf_append(davrq->out, sstrn(str, len)); sbuf_puts(davrq->out, "</"); sbuf_puts(davrq->out, prop->xmlns->prefix); sbuf_put(davrq->out, ':'); sbuf_puts(davrq->out, prop->name); sbuf_puts(davrq->out, ">\n"); } void dav_propfind_add_prop_error( PropfindRequest *davrq, DavProperty *prop, int error) { // TODO: different errors davrq->notFoundProps = ucx_dlist_append(davrq->notFoundProps, prop); } /* WebDAV Default Backend */ static PersistenceManager dav_file_backend = { NULL, NULL, dav_rq_propfind, dav_rq_proppatch, 0 }; PersistenceManager* create_property_backend() { return &dav_file_backend; } void dav_rq_propfind(PersistenceManager *b, PropfindRequest *rq ,char *path) { struct stat st; if(stat(path, &st) != 0) { perror("dav_be_propfind"); fprintf(stderr, "Cannot get stat of file: %s\n", path); } if(rq->allprop) { DavProperty prop; prop.xmlns = xmlnsmap_get(rq->nsmap, "DAV:"); prop.name = "resourcetype"; if(S_ISDIR(st.st_mode)) { dav_propfind_add_str_prop(rq, &prop, "<D:collection/>", 15); } else { dav_propfind_add_str_prop(rq, &prop, NULL, 0); } if(!S_ISDIR(st.st_mode)) { prop.name = "getcontentlength"; char buf[32]; size_t n = snprintf(buf, 32, "%lld", st.st_size); dav_propfind_add_str_prop(rq, &prop, buf, n); } prop.name = "getlastmodified"; sstr_t s = date_format_http(st.st_mtime, rq->sn->pool); dav_propfind_add_str_prop(rq, &prop, s.ptr, s.length); prop.name = "creationdate"; s = date_format_iso8601(st.st_ctime, rq->sn->pool); dav_propfind_add_str_prop(rq, &prop, s.ptr, s.length); return; } DAV_FOREACH(elm, rq->properties) { DavProperty *prop = (DavProperty*)elm->data; char *s = prop->name; if(!strcmp(s, "resourcetype")) { if(S_ISDIR(st.st_mode)) { dav_propfind_add_str_prop(rq, prop, "<D:collection/>", 15); } else { dav_propfind_add_str_prop(rq, prop, NULL, 0); } } else if(!strcmp(s, "getcontentlength") && !S_ISDIR(st.st_mode)) { char buf[32]; size_t n = snprintf(buf, 32, "%lld", st.st_size); dav_propfind_add_str_prop(rq, prop, buf, n); } else if(!strcmp(s, "getlastmodified")) { sstr_t s = date_format_http(st.st_mtime, rq->sn->pool); dav_propfind_add_str_prop(rq, prop, s.ptr, s.length); } else if(!strcmp(s, "creationdate")) { sstr_t s = date_format_iso8601(st.st_ctime, rq->sn->pool); dav_propfind_add_str_prop(rq, prop, s.ptr, s.length); } else { dav_propfind_add_prop_error(rq, prop, 404); } } } void dav_rq_proppatch(PersistenceManager *b, ProppatchRequest *rq) { DAV_FOREACH(p, rq->setProps) { XmlElement *prop = (XmlElement*)p->data; propstat_add(rq->propstat, 403, prop); } DAV_FOREACH(p, rq->removeProps) { XmlElement *prop = (XmlElement*)p->data; propstat_add(rq->propstat, 403, prop); } } /*---------------------------------- utils ----------------------------------*/ /* XmlNsMap */ XmlNsMap* xmlnsmap_create(pool_handle_t *pool) { XmlNsMap *map = malloc(sizeof(XmlNsMap)); UcxMap *uxm = ucx_map_new(16); if(map == NULL || uxm == NULL) { return NULL; } map->map = uxm; map->pool = pool; map->num = 0; // create DAV: namespace XmlNs *ns = pool_malloc(map->pool, sizeof(XmlNs)); ns->xmlns = "DAV:"; ns->prefix = "D"; ns->nslen = 4; ns->prelen = 1; ucx_map_cstr_put(uxm, "DAV:", ns); return map; } void xmlnsmap_free(XmlNsMap *map) { ucx_map_free(map->map); } XmlNs* xmlnsmap_put(XmlNsMap *map, char *ns) { XmlNs *xmlns = xmlnsmap_get(map, ns); if(xmlns != NULL) { return xmlns; } xmlns = pool_malloc(map->pool, sizeof(XmlNs)); if(xmlns == NULL) { return NULL; } sstr_t newns = sstrdup(sstr(ns)); xmlns->xmlns = newns.ptr; xmlns->nslen = newns.length; xmlns->prefix = pool_calloc(map->pool, 1, 8); xmlns->prelen = snprintf(xmlns->prefix, 7, "x%d", map->num); ucx_map_cstr_put(map->map, ns, xmlns); /* TODO: check return value */ map->num++; return xmlns; } XmlNs* xmlnsmap_get(XmlNsMap *map, char *ns) { return ucx_map_cstr_get(map->map, ns); } /* XmlElement */ void xmlelm_add_child(XmlElement *parent, XmlElement *child) { if(parent->ctlen == 0) { parent->content = ucx_dlist_append(parent->content, child); } } void xmlelm_write(XmlElement *elm, Buffer *out, int wv) { sbuf_append(out, sstrn("<", 1)); sbuf_append(out, sstrn(elm->xmlns->prefix, elm->xmlns->prelen)); sbuf_append(out, sstrn(":", 1)); sbuf_append(out, sstr(elm->name)); if(wv) { if(elm->ctlen == 0) { if(elm->content == NULL) { sbuf_append(out, sstrn(" />", 3)); } else { sbuf_append(out, sstrn(">", 1)); DAV_FOREACH(pr, (UcxDlist*)elm->content) { xmlelm_write((XmlElement*)pr->data, out, 1); } sbuf_append(out, sstrn("</", 2)); sbuf_append(out, sstrn(elm->xmlns->prefix, elm->xmlns->prelen)); sbuf_append(out, sstrn(":", 1)); sbuf_append(out, sstr(elm->name)); sbuf_append(out, sstrn(">", 1)); } } else { sbuf_append(out, sstrn(" />", 3)); sbuf_append(out, sstrn((char*)elm->content, elm->ctlen)); sbuf_append(out, sstrn("</", 2)); sbuf_append(out, sstrn(elm->xmlns->prefix, elm->xmlns->prelen)); sbuf_append(out, sstrn(":", 1)); sbuf_append(out, sstr(elm->name)); sbuf_append(out, sstrn(">", 1)); } } else { sbuf_append(out, sstrn(" />", 3)); } } /* PropstatMap */ Propstat* propstat_create(pool_handle_t *pool) { Propstat *propstat = (Propstat*)pool_malloc(pool, sizeof(Propstat)); propstat->map = ucx_map_new(8); propstat->okprop = NULL; propstat->pool = pool; return propstat; } void propstat_add(Propstat *propstat, int status, XmlElement *prop) { if(status == 200) { propstat->okprop = ucx_dlist_append(propstat->okprop, prop); } else { UcxKey key; key.data = &status; key.len = sizeof(int); UcxDlist *list = ucx_map_get(propstat->map, key); list = ucx_dlist_append(list, prop); ucx_map_put(propstat->map, key, list); } } void propstat_write(Propstat *propstat, Buffer *out, int wv) { if(propstat->okprop) { sbuf_puts(out, "<D:propstat>\n<D:prop>\n"); DAV_FOREACH(prop, propstat->okprop) { xmlelm_write((XmlElement*)prop->data, out, wv); } sbuf_puts(out, "\n</D:prop>\n<D:status>HTTP/1.1 200 OK</D:status>\n"); sbuf_puts(out, "</D:propstat>\n"); } UcxMapIterator iter = ucx_map_iterator(propstat->map); UcxDlist *proplist; UCX_MAP_FOREACH(proplist, iter) { if(proplist) { sbuf_puts(out, "<D:propstat>\n<D:prop>\n"); DAV_FOREACH(prop, proplist) { xmlelm_write((XmlElement*)prop->data, out, wv); } sbuf_puts(out, "\n</D:prop>\n<D:status>"); int status = *(int*)iter.cur->key.data; if(status < 1000 && status > 0) { char buf[5]; buf[4] = 0; sprintf(buf, "%d ", status); sbuf_puts(out, "HTTP/1.1 "); sbuf_puts(out, buf); sbuf_puts(out, (char*)protocol_status_message(status)); } sbuf_puts(out, "</D:status>\n</D:propstat>\n"); } } }