/* * get_lock.c : obtain single lock information functions for ra_serf * * ==================================================================== * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * ==================================================================== */ #include #include #include "svn_dav.h" #include "svn_pools.h" #include "svn_ra.h" #include "../libsvn_ra/ra_loader.h" #include "svn_config.h" #include "svn_path.h" #include "svn_time.h" #include "svn_private_config.h" #include "ra_serf.h" /* * This enum represents the current state of our XML parsing for a REPORT. */ enum { INITIAL = 0, MULTISTATUS, RESPONSE, PROPSTAT, PROP, LOCK_DISCOVERY, ACTIVE_LOCK, LOCK_TYPE, LOCK_SCOPE, DEPTH, TIMEOUT, LOCK_TOKEN, OWNER, HREF }; typedef struct lock_info_t { apr_pool_t *pool; const char *path; svn_lock_t *lock; svn_boolean_t read_headers; svn_ra_serf__handler_t *handler; /* The expat handler. We wrap this to do a bit more work. */ svn_ra_serf__response_handler_t inner_handler; void *inner_baton; } lock_info_t; #define D_ "DAV:" #define S_ SVN_XML_NAMESPACE static const svn_ra_serf__xml_transition_t locks_ttable[] = { /* The INITIAL state can transition into D:prop (LOCK) or to D:multistatus (PROPFIND) */ { INITIAL, D_, "multistatus", MULTISTATUS, FALSE, { NULL }, FALSE }, { MULTISTATUS, D_, "response", RESPONSE, FALSE, { NULL }, FALSE }, { RESPONSE, D_, "propstat", PROPSTAT, FALSE, { NULL }, FALSE }, { PROPSTAT, D_, "prop", PROP, FALSE, { NULL }, FALSE }, { PROP, D_, "lockdiscovery", LOCK_DISCOVERY, FALSE, { NULL }, FALSE }, { LOCK_DISCOVERY, D_, "activelock", ACTIVE_LOCK, FALSE, { NULL }, FALSE }, #if 0 /* ### we don't really need to parse locktype/lockscope. we know what ### the values are going to be. we *could* validate that the only ### possible children are D:write and D:exclusive. we'd need to ### modify the state transition to tell us about all children ### (ie. maybe support "*" for the name) and then validate. but it ### just isn't important to validate, so disable this for now... */ { ACTIVE_LOCK, D_, "locktype", LOCK_TYPE, FALSE, { NULL }, FALSE }, { LOCK_TYPE, D_, "write", WRITE, FALSE, { NULL }, TRUE }, { ACTIVE_LOCK, D_, "lockscope", LOCK_SCOPE, FALSE, { NULL }, FALSE }, { LOCK_SCOPE, D_, "exclusive", EXCLUSIVE, FALSE, { NULL }, TRUE }, #endif /* 0 */ { ACTIVE_LOCK, D_, "timeout", TIMEOUT, TRUE, { NULL }, TRUE }, { ACTIVE_LOCK, D_, "locktoken", LOCK_TOKEN, FALSE, { NULL }, FALSE }, { LOCK_TOKEN, D_, "href", HREF, TRUE, { NULL }, TRUE }, { ACTIVE_LOCK, D_, "owner", OWNER, TRUE, { NULL }, TRUE }, /* ACTIVE_LOCK has a D:depth child, but we can ignore that. */ { 0 } }; static const int locks_expected_status[] = { 207, 0 }; /* Conforms to svn_ra_serf__xml_closed_t */ static svn_error_t * locks_closed(svn_ra_serf__xml_estate_t *xes, void *baton, int leaving_state, const svn_string_t *cdata, apr_hash_t *attrs, apr_pool_t *scratch_pool) { lock_info_t *lock_ctx = baton; if (leaving_state == TIMEOUT) { if (strcasecmp(cdata->data, "Infinite") == 0) lock_ctx->lock->expiration_date = 0; else if (strncasecmp(cdata->data, "Second-", 7) == 0) { unsigned n; SVN_ERR(svn_cstring_atoui(&n, cdata->data+7)); lock_ctx->lock->expiration_date = apr_time_now() + apr_time_from_sec(n); } else return svn_error_createf(SVN_ERR_RA_DAV_MALFORMED_DATA, NULL, _("Invalid LOCK timeout value '%s'"), cdata->data); } else if (leaving_state == HREF) { if (cdata->len) { char *buf = apr_pstrmemdup(lock_ctx->pool, cdata->data, cdata->len); apr_collapse_spaces(buf, buf); lock_ctx->lock->token = buf; } } else if (leaving_state == OWNER) { if (cdata->len) { lock_ctx->lock->comment = apr_pstrmemdup(lock_ctx->pool, cdata->data, cdata->len); } } return SVN_NO_ERROR; } /* Implements svn_ra_serf__response_handler_t */ static svn_error_t * handle_lock(serf_request_t *request, serf_bucket_t *response, void *handler_baton, apr_pool_t *pool) { lock_info_t *ctx = handler_baton; if (!ctx->read_headers) { serf_bucket_t *headers; const char *val; headers = serf_bucket_response_get_headers(response); val = serf_bucket_headers_get(headers, SVN_DAV_LOCK_OWNER_HEADER); if (val) { ctx->lock->owner = apr_pstrdup(ctx->pool, val); } val = serf_bucket_headers_get(headers, SVN_DAV_CREATIONDATE_HEADER); if (val) { SVN_ERR(svn_time_from_cstring(&ctx->lock->creation_date, val, ctx->pool)); } ctx->read_headers = TRUE; } return ctx->inner_handler(request, response, ctx->inner_baton, pool); } /* Implements svn_ra_serf__request_body_delegate_t */ static svn_error_t * create_getlock_body(serf_bucket_t **body_bkt, void *baton, serf_bucket_alloc_t *alloc, apr_pool_t *pool /* request pool */, apr_pool_t *scratch_pool) { serf_bucket_t *buckets; buckets = serf_bucket_aggregate_create(alloc); svn_ra_serf__add_xml_header_buckets(buckets, alloc); svn_ra_serf__add_open_tag_buckets(buckets, alloc, "propfind", "xmlns", "DAV:", SVN_VA_NULL); svn_ra_serf__add_open_tag_buckets(buckets, alloc, "prop", SVN_VA_NULL); svn_ra_serf__add_empty_tag_buckets(buckets, alloc, "lockdiscovery", SVN_VA_NULL); svn_ra_serf__add_close_tag_buckets(buckets, alloc, "prop"); svn_ra_serf__add_close_tag_buckets(buckets, alloc, "propfind"); *body_bkt = buckets; return SVN_NO_ERROR; } static svn_error_t* setup_getlock_headers(serf_bucket_t *headers, void *baton, apr_pool_t *pool /* request pool */, apr_pool_t *scratch_pool) { serf_bucket_headers_setn(headers, "Depth", "0"); return SVN_NO_ERROR; } svn_error_t * svn_ra_serf__get_lock(svn_ra_session_t *ra_session, svn_lock_t **lock, const char *path, apr_pool_t *result_pool) { svn_ra_serf__session_t *session = ra_session->priv; svn_ra_serf__handler_t *handler; svn_ra_serf__xml_context_t *xmlctx; apr_pool_t *scratch_pool = svn_pool_create(result_pool); lock_info_t *lock_ctx; const char *req_url; svn_error_t *err; req_url = svn_path_url_add_component2(session->session_url.path, path, scratch_pool); lock_ctx = apr_pcalloc(scratch_pool, sizeof(*lock_ctx)); lock_ctx->pool = result_pool; lock_ctx->path = req_url; lock_ctx->lock = svn_lock_create(result_pool); lock_ctx->lock->path = apr_pstrdup(result_pool, path); xmlctx = svn_ra_serf__xml_context_create(locks_ttable, NULL, locks_closed, NULL, lock_ctx, scratch_pool); handler = svn_ra_serf__create_expat_handler(session, xmlctx, locks_expected_status, scratch_pool); handler->method = "PROPFIND"; handler->path = req_url; handler->body_type = "text/xml"; handler->body_delegate = create_getlock_body; handler->body_delegate_baton = lock_ctx; handler->header_delegate = setup_getlock_headers; handler->header_delegate_baton = lock_ctx; handler->no_dav_headers = TRUE; lock_ctx->inner_handler = handler->response_handler; lock_ctx->inner_baton = handler->response_baton; handler->response_handler = handle_lock; handler->response_baton = lock_ctx; lock_ctx->handler = handler; err = svn_ra_serf__context_run_one(handler, scratch_pool); if ((err && (handler->sline.code == 500 || handler->sline.code == 501)) || svn_error_find_cause(err, SVN_ERR_UNSUPPORTED_FEATURE)) return svn_error_trace( svn_error_create(SVN_ERR_RA_NOT_IMPLEMENTED, err, _("Server does not support locking features"))); else if (svn_error_find_cause(err, SVN_ERR_FS_NOT_FOUND)) svn_error_clear(err); /* Behave like the other RA layers */ else if (handler->sline.code != 207) return svn_error_trace(svn_ra_serf__unexpected_status(handler)); if (lock_ctx->lock && lock_ctx->lock->token) *lock = lock_ctx->lock; else *lock = NULL; svn_pool_destroy(scratch_pool); return SVN_NO_ERROR; }