nextcloud-desktop/modules/csync_owncloud.c

1884 lines
59 KiB
C

/*
* libcsync -- a library to sync a directory with another
*
* Copyright (c) 2011 by Andreas Schneider <asn@cryptomilk.org>
* Copyright (c) 2012 by Klaas Freitag <freitag@owncloud.com>
*
* This program is free software = NULL, you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation = NULL, 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 = NULL, 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 = NULL, if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#define _GNU_SOURCE
#include <errno.h>
#include <stdio.h>
#include <time.h>
#include <limits.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <neon/ne_basic.h>
#include <neon/ne_socket.h>
#include <neon/ne_session.h>
#include <neon/ne_request.h>
#include <neon/ne_props.h>
#include <neon/ne_auth.h>
#include <neon/ne_dates.h>
#include <neon/ne_compress.h>
#include <neon/ne_redirect.h>
#include "c_lib.h"
#include "csync.h"
#include "csync_misc.h"
#include "c_private.h"
#include "vio/csync_vio_module.h"
#include "vio/csync_vio_file_stat.h"
#define CSYNC_LOG_CATEGORY_NAME "csync.owncloud"
#include "csync_log.h"
#ifdef NDEBUG
#define DEBUG_WEBDAV(...)
#else
#define DEBUG_WEBDAV(...) CSYNC_LOG(CSYNC_LOG_PRIORITY_DEBUG, __VA_ARGS__)
#endif
#define OC_TIMEDELTA_FAIL (NE_REDIRECT +1)
#define OC_PROPFIND_FAIL (NE_REDIRECT +2)
enum resource_type {
resr_normal = 0,
resr_collection,
resr_reference,
resr_error
};
#ifdef HAVE_UNSIGNED_LONG_LONG
typedef unsigned long long dav_size_t;
#ifdef HAVE_STRTOULL
#define DAV_STRTOL strtoull
#endif
#else
typedef unsigned long dav_size_t;
#endif
#ifndef DAV_STRTOL
#define DAV_STRTOL strtol
#endif
/* Struct to store data for each resource found during an opendir operation.
* It represents a single file entry.
*/
typedef struct resource {
char *uri; /* The complete uri */
char *name; /* The filename only */
enum resource_type type;
dav_size_t size;
time_t modtime;
char* md5;
struct resource *next;
} resource;
/* Struct to hold the context of a WebDAV PropFind operation to fetch
* a directory listing from the server.
*/
struct listdir_context {
struct resource *list; /* The list of result resources */
struct resource *currResource; /* A pointer to the current resource */
char *target; /* Request-URI of the PROPFIND */
unsigned int include_target; /* Do you want the uri in the result list? */
unsigned int result_count; /* number of elements stored in list */
};
/*
* context to store info about a temp file for GET and PUT requests
* which store the data in a local file to save memory and secure the
* transmission.
*/
struct transfer_context {
ne_request *req; /* the neon request */
int fd; /* file descriptor of the file to read or write from */
char *tmpFileName; /* the name of the temp file */
size_t bytes_written; /* the amount of bytes written or read */
const char *method; /* the HTTP method, either PUT or GET */
ne_decompress *decompress; /* the decompress context */
int fileWritten; /* flag to indicate that a buffer file was written for PUTs */
char *md5;
char *clean_uri;
};
/* Struct with the WebDAV session */
struct dav_session_s {
ne_session *ctx;
char *user;
char *pwd;
char *proxy_type;
char *proxy_host;
int proxy_port;
char *proxy_user;
char *proxy_pwd;
time_t prev_delta;
time_t time_delta; /* The time delta to use. */
long int time_delta_sum; /* What is the time delta average? */
int time_delta_cnt; /* How often was the server time gathered? */
};
/* The list of properties that is fetched in PropFind on a collection */
static const ne_propname ls_props[] = {
{ "DAV:", "getlastmodified" },
{ "DAV:", "getcontentlength" },
{ "DAV:", "resourcetype" },
{ "DAV:", "getetag"},
{ NULL, NULL }
};
struct stat_cache_s {
char *uri;
csync_vio_file_stat_t stat;
};
/*
* local variables.
*/
struct dav_session_s dav_session; /* The DAV Session, initialised in dav_connect */
int _connected = 0; /* flag to indicate if a connection exists, ie.
the dav_session is valid */
csync_vio_file_stat_t _fs;
csync_vio_file_stat_t _owc;
struct stat_cache_s _statCache;
csync_auth_callback _authcb;
#define PUT_BUFFER_SIZE 1024*5
char _buffer[PUT_BUFFER_SIZE];
/* ***************************************************************************** */
static int ne_session_error_errno(ne_session *session)
{
const char *p = ne_get_error(session);
char *q;
int err;
err = strtol(p, &q, 10);
if (p == q) {
return EIO;
}
DEBUG_WEBDAV("Session error string %s", p);
switch(err) {
case 200: /* OK */
case 201: /* Created */
case 202: /* Accepted */
case 203: /* Non-Authoritative Information */
case 204: /* No Content */
case 205: /* Reset Content */
case 207: /* Multi-Status */
case 304: /* Not Modified */
return 0;
case 401: /* Unauthorized */
case 402: /* Payment Required */
case 407: /* Proxy Authentication Required */
return EPERM;
case 301: /* Moved Permanently */
case 303: /* See Other */
case 404: /* Not Found */
case 410: /* Gone */
return ENOENT;
case 408: /* Request Timeout */
case 504: /* Gateway Timeout */
return EAGAIN;
case 423: /* Locked */
return EACCES;
case 405:
return EEXIST; /* Method Not Allowed */
case 400: /* Bad Request */
case 403: /* Forbidden */
case 409: /* Conflict */
case 411: /* Length Required */
case 412: /* Precondition Failed */
case 414: /* Request-URI Too Long */
case 415: /* Unsupported Media Type */
case 424: /* Failed Dependency */
case 501: /* Not Implemented */
return EINVAL;
case 413: /* Request Entity Too Large */
case 507: /* Insufficient Storage */
return ENOSPC;
case 206: /* Partial Content */
case 300: /* Multiple Choices */
case 302: /* Found */
case 305: /* Use Proxy */
case 306: /* (Unused) */
case 307: /* Temporary Redirect */
case 406: /* Not Acceptable */
case 416: /* Requested Range Not Satisfiable */
case 417: /* Expectation Failed */
case 422: /* Unprocessable Entity */
case 500: /* Internal Server Error */
case 502: /* Bad Gateway */
case 503: /* Service Unavailable */
case 505: /* HTTP Version Not Supported */
return EIO;
default:
return EIO;
}
return EIO;
}
/*
* helper method to build up a user text for SSL problems, called from the
* verify_sslcert callback.
*/
static void addSSLWarning( char *ptr, const char *warn, int len )
{
char *concatHere = ptr;
int remainingLen = 0;
if( ! (warn && ptr )) return;
remainingLen = len - strlen(ptr);
if( remainingLen <= 0 ) return;
concatHere = ptr + strlen(ptr); /* put the write pointer to the end. */
strncpy( concatHere, warn, remainingLen );
}
/*
* Callback to verify the SSL certificate, called from libneon.
* It analyzes the SSL problem, creates a user information text and passes
* it to the csync callback to ask the user.
*/
#define LEN 4096
static int verify_sslcert(void *userdata, int failures,
const ne_ssl_certificate *cert)
{
char problem[LEN];
char buf[NE_ABUFSIZ];
int ret = -1;
(void) cert;
memset( problem, 0, LEN );
addSSLWarning( problem, "There are problems with the SSL certificate:\n", LEN );
if( failures & NE_SSL_NOTYETVALID ) {
addSSLWarning( problem, " * The certificate is not yet valid.\n", LEN );
}
if( failures & NE_SSL_EXPIRED ) {
addSSLWarning( problem, " * The certificate has expired.\n", LEN );
}
if( failures & NE_SSL_UNTRUSTED ) {
addSSLWarning( problem, " * The certificate is not trusted!\n", LEN );
}
if( failures & NE_SSL_IDMISMATCH ) {
addSSLWarning( problem, " * The hostname for which the certificate was "
"issued does not match the hostname of the server\n", LEN );
}
if( failures & NE_SSL_BADCHAIN ) {
addSSLWarning( problem, " * The certificate chain contained a certificate other than the server cert\n", LEN );
}
if( failures & NE_SSL_REVOKED ) {
addSSLWarning( problem, " * The server certificate has been revoked by the issuing authority.\n", LEN );
}
addSSLWarning( problem, "Do you want to accept the certificate anyway?\nAnswer yes to do so and take the risk: ", LEN );
if( _authcb ){
/* call the csync callback */
DEBUG_WEBDAV("Call the csync callback for SSL problems");
memset( buf, 0, NE_ABUFSIZ );
(*_authcb) ( problem, buf, NE_ABUFSIZ-1, 1, 0, userdata );
if( strcmp( buf, "yes" ) == 0 ) {
ret = 0;
} else {
DEBUG_WEBDAV("Authentication callback replied %s", buf );
}
}
DEBUG_WEBDAV("## VERIFY_SSL CERT: %d", ret );
return ret;
}
/*
* Authentication callback. Is set by ne_set_server_auth to be called
* from the neon lib to authenticate a request.
*/
static int ne_auth( void *userdata, const char *realm, int attempt,
char *username, char *password)
{
char buf[NE_ABUFSIZ];
(void) userdata;
(void) realm;
/* DEBUG_WEBDAV( "Authentication required %s", realm ); */
if( username && password ) {
DEBUG_WEBDAV( "Authentication required %s", username );
if( dav_session.user ) {
/* allow user without password */
if( strlen( dav_session.user ) < NE_ABUFSIZ ) {
strcpy( username, dav_session.user );
}
if( dav_session.pwd && strlen( dav_session.pwd ) < NE_ABUFSIZ ) {
strcpy( password, dav_session.pwd );
}
} else if( _authcb != NULL ){
/* call the csync callback */
DEBUG_WEBDAV("Call the csync callback for %s", realm );
memset( buf, 0, NE_ABUFSIZ );
(*_authcb) ("Enter your username: ", buf, NE_ABUFSIZ-1, 1, 0, userdata );
if( strlen(buf) < NE_ABUFSIZ ) {
strcpy( username, buf );
}
memset( buf, 0, NE_ABUFSIZ );
(*_authcb) ("Enter your password: ", buf, NE_ABUFSIZ-1, 0, 0, userdata );
if( strlen(buf) < NE_ABUFSIZ) {
strcpy( password, buf );
}
} else {
DEBUG_WEBDAV("I can not authenticate!");
}
}
return attempt;
}
/*
* Authentication callback. Is set by ne_set_proxy_auth to be called
* from the neon lib to authenticate against a proxy. The data to authenticate
* against comes from mirall throught vio_module_init function.
*/
static int ne_proxy_auth( void *userdata, const char *realm, int attempt,
char *username, char *password)
{
(void) userdata;
(void) realm;
if( dav_session.proxy_user && strlen( dav_session.proxy_user ) < NE_ABUFSIZ) {
strcpy( username, dav_session.proxy_user );
if( dav_session.proxy_pwd && strlen( dav_session.proxy_pwd ) < NE_ABUFSIZ) {
strcpy( password, dav_session.proxy_pwd );
}
}
return attempt;
}
/* Configure the proxy depending on the variables */
static int configureProxy( ne_session *session )
{
int port = 8080;
int re = -1;
if( ! session ) return -1;
if( ! dav_session.proxy_type ) return 0; /* Go by NoProxy per default */
if( dav_session.proxy_port > 0 ) {
port = dav_session.proxy_port;
}
if( c_streq(dav_session.proxy_type, "NoProxy" )) {
DEBUG_WEBDAV("No proxy configured.");
re = 0;
} else if( c_streq(dav_session.proxy_type, "DefaultProxy" )) {
DEBUG_WEBDAV("System Proxy Usage.");
ne_session_system_proxy( session, 0 );
re = 1;
} else if( c_streq(dav_session.proxy_type, "Socks5Proxy") ||
c_streq(dav_session.proxy_type, "HttpProxy") ||
c_streq(dav_session.proxy_type, "HttpCachingProxy") ) {
if( dav_session.proxy_host ) {
DEBUG_WEBDAV("%s at %s:%d", dav_session.proxy_type, dav_session.proxy_host, port );
ne_session_proxy(session, dav_session.proxy_host, port );
re = 2;
} else {
DEBUG_WEBDAV("No host defined for %s", dav_session.proxy_type );
}
} else if( c_streq(dav_session.proxy_type, "FtpCachingProxy")) {
DEBUG_WEBDAV( "Unsupported Proxy: %s", dav_session.proxy_type );
}
return re;
}
/*
* Connect to a DAV server
* This function sets the flag _connected if the connection is established
* and returns if the flag is set, so calling it frequently is save.
*/
static int dav_connect(const char *base_url) {
int timeout = 30;
int useSSL = 0;
int rc;
char protocol[6] = {'\0'};
char uaBuf[256];
char *path = NULL;
char *scheme = NULL;
char *host = NULL;
unsigned int port = 0;
int proxystate = -1;
if (_connected) {
return 0;
}
dav_session.time_delta_sum = 0;
dav_session.time_delta_cnt = 0;
dav_session.prev_delta = 0;
rc = c_parse_uri( base_url, &scheme, &dav_session.user, &dav_session.pwd, &host, &port, &path );
if( rc < 0 ) {
DEBUG_WEBDAV("Failed to parse uri %s", base_url );
goto out;
}
DEBUG_WEBDAV("* scheme %s", scheme );
DEBUG_WEBDAV("* host %s", host );
DEBUG_WEBDAV("* port %u", port );
DEBUG_WEBDAV("* path %s", path );
if( strcmp( scheme, "owncloud" ) == 0 ) {
strcpy( protocol, "http");
} else if( strcmp( scheme, "ownclouds" ) == 0 ) {
strcpy( protocol, "https");
useSSL = 1;
} else {
DEBUG_WEBDAV("Invalid scheme %s, go outa here!", scheme );
rc = -1;
goto out;
}
DEBUG_WEBDAV("* user %s", dav_session.user ? dav_session.user : "");
if (port == 0) {
port = ne_uri_defaultport(protocol);
}
rc = ne_sock_init();
DEBUG_WEBDAV("ne_sock_init: %d", rc );
if (rc < 0) {
rc = -1;
goto out;
}
dav_session.ctx = ne_session_create( protocol, host, port);
if (dav_session.ctx == NULL) {
DEBUG_WEBDAV("Session create with protocol %s failed", protocol );
rc = -1;
goto out;
}
ne_set_read_timeout(dav_session.ctx, timeout);
snprintf( uaBuf, sizeof(uaBuf), "csyncoC/%s",CSYNC_STRINGIFY( LIBCSYNC_VERSION ));
ne_set_useragent( dav_session.ctx, uaBuf);
ne_set_server_auth(dav_session.ctx, ne_auth, 0 );
if( useSSL ) {
if (!ne_has_support(NE_FEATURE_SSL)) {
DEBUG_WEBDAV("Error: SSL is not enabled.");
rc = -1;
goto out;
}
ne_ssl_trust_default_ca( dav_session.ctx );
ne_ssl_set_verify( dav_session.ctx, verify_sslcert, 0 );
}
ne_redirect_register( dav_session.ctx );
/* Proxy support */
proxystate = configureProxy( dav_session.ctx );
if( proxystate < 0 ) {
DEBUG_WEBDAV("Error: Proxy-Configuration failed.");
} else if( proxystate > 0 ) {
ne_set_proxy_auth( dav_session.ctx, ne_proxy_auth, 0 );
}
_connected = 1;
rc = 0;
out:
SAFE_FREE(path);
SAFE_FREE(host);
SAFE_FREE(scheme);
return rc;
}
/*
* result parsing list.
* This function is called to parse the result of the propfind request
* to list directories on the WebDAV server. I takes a single resource
* and fills a resource struct and stores it to the result list which
* is stored in the listdir_context.
*/
static void results(void *userdata,
const ne_uri *uri,
const ne_prop_result_set *set)
{
struct listdir_context *fetchCtx = userdata;
struct resource *newres = 0;
const char *clength, *modtime = NULL;
const char *resourcetype = NULL;
const char *md5sum = NULL;
const ne_status *status = NULL;
char *path = ne_path_unescape( uri->path );
/* It seems strange: first uri->path is unescaped to escape it in the next step again.
* The reason is that uri->path is not completely escaped (ie. it seems only to have
* spaces escaped), while the fetchCtx->target is fully escaped.
* See http://bugs.owncloud.org/thebuggenie/owncloud/issues/oc-613
*/
char *escaped_path = ne_path_escape( path );
(void) status;
if( ! fetchCtx ) {
DEBUG_WEBDAV("No valid fetchContext");
return;
}
if( ! fetchCtx->target ) {
DEBUG_WEBDAV("error: target must not be zero!" );
return;
}
/* see if the target should be included in the result list. */
if (ne_path_compare(fetchCtx->target, escaped_path) == 0 && !fetchCtx->include_target) {
/* This is the target URI */
DEBUG_WEBDAV( "Skipping target resource.");
/* Free the private structure. */
SAFE_FREE( path );
SAFE_FREE( escaped_path );
return;
}
SAFE_FREE( escaped_path );
/* Fill the resource structure with the data about the file */
newres = c_malloc(sizeof(struct resource));
newres->uri = path; /* no need to strdup because ne_path_unescape already allocates */
newres->name = c_basename( path );
modtime = ne_propset_value( set, &ls_props[0] );
clength = ne_propset_value( set, &ls_props[1] );
resourcetype = ne_propset_value( set, &ls_props[2] );
md5sum = ne_propset_value( set, &ls_props[3] );
newres->type = resr_normal;
if( clength == NULL && resourcetype && strncmp( resourcetype, "<DAV:collection>", 16 ) == 0) {
newres->type = resr_collection;
}
if (modtime)
newres->modtime = ne_httpdate_parse(modtime);
if (clength) {
char *p;
newres->size = DAV_STRTOL(clength, &p, 10);
if (*p) {
newres->size = 0;
}
}
if( md5sum ) {
int len = strlen(md5sum)-2;
if( len > 0 ) {
/* Skip the " around the string coming back from the ne_propset_value call */
newres->md5 = c_malloc(len+1);
strncpy( newres->md5, md5sum+1, len );
newres->md5[len] = '\0';
}
}
/* prepend the new resource to the result list */
newres->next = fetchCtx->list;
fetchCtx->list = newres;
fetchCtx->result_count = fetchCtx->result_count + 1;
/* DEBUG_WEBDAV( "results for URI %s: %d %d", newres->name, (int)newres->size, (int)newres->type ); */
}
/*
* fetches a resource list from the WebDAV server. This is equivalent to list dir.
*/
static int fetch_resource_list( const char *curi,
int depth,
struct listdir_context *fetchCtx )
{
int ret = -1;
ne_propfind_handler *hdl = NULL;
ne_request *request = NULL;
const char *date_header = NULL;
time_t server_time;
time_t now;
time_t time_diff;
time_t time_diff_delta;
const char *err = NULL;
/* do a propfind request and parse the results in the results function, set as callback */
/* ret = ne_simple_propfind( dav_session.ctx, curi, depth, ls_props, results, fetchCtx ); */
hdl = ne_propfind_create(dav_session.ctx, curi, depth);
if(hdl)
ret = ne_propfind_named(hdl, ls_props, results, fetchCtx);
if( ret == NE_OK ) {
DEBUG_WEBDAV("Simple propfind OK.");
fetchCtx->currResource = fetchCtx->list;
request = ne_propfind_get_request( hdl );
date_header = ne_get_response_header( request, "Date" );
DEBUG_WEBDAV("Server Date from HTTP header value: %s", date_header);
server_time = ne_rfc1123_parse( date_header );
now = time(NULL);
time_diff = server_time - now;
dav_session.time_delta_sum += time_diff;
dav_session.time_delta_cnt++;
/* Store the previous time delta */
dav_session.prev_delta = dav_session.time_delta;
/* check the changing of the time delta */
time_diff_delta = llabs(dav_session.time_delta - time_diff);
if( dav_session.time_delta_cnt == 1 ) {
DEBUG_WEBDAV( "The first time_delta is %d", time_diff );
} else if( dav_session.time_delta_cnt > 1 ) {
if( time_diff_delta > 5 ) {
DEBUG_WEBDAV("WRN: The time delta changed more than 5 second");
ret = OC_TIMEDELTA_FAIL;
} else {
DEBUG_WEBDAV("Ok: Time delta remained (almost) the same: %ld.", time_diff);
}
} else {
DEBUG_WEBDAV("Difference to last server time delta: %d", time_diff_delta );
}
dav_session.time_delta = time_diff;
} else {
err = ne_get_error( dav_session.ctx );
DEBUG_WEBDAV("WRN: propfind named failed with %d, request error: %s", ret, err ? err : "<nil>");
}
if( hdl )
ne_propfind_destroy(hdl);
if( ret == -1 ) ret = NE_ERROR;
return ret;
}
/*
* helper: convert a resource struct to file_stat struct.
*/
static csync_vio_file_stat_t *resourceToFileStat( struct resource *res )
{
csync_vio_file_stat_t *lfs = NULL;
if( ! res ) {
return NULL;
}
lfs = c_malloc(sizeof(csync_vio_file_stat_t));
if (lfs == NULL) {
return NULL;
}
lfs->name = c_strdup( res->name );
lfs->fields = CSYNC_VIO_FILE_STAT_FIELDS_NONE;
if( res->type == resr_normal ) {
lfs->fields |= CSYNC_VIO_FILE_STAT_FIELDS_TYPE;
lfs->type = CSYNC_VIO_FILE_TYPE_REGULAR;
} else if( res->type == resr_collection ) {
lfs->fields |= CSYNC_VIO_FILE_STAT_FIELDS_TYPE;
lfs->type = CSYNC_VIO_FILE_TYPE_DIRECTORY;
} else {
DEBUG_WEBDAV("ERROR: Unknown resource type %d", res->type);
}
/* Correct the mtime of the file with the server time delta */
lfs->mtime = res->modtime;
lfs->fields |= CSYNC_VIO_FILE_STAT_FIELDS_MTIME;
lfs->size = res->size;
lfs->fields |= CSYNC_VIO_FILE_STAT_FIELDS_SIZE;
if( res->md5 ) {
lfs->md5 = c_strdup(res->md5);
}
lfs->fields |= CSYNC_VIO_FILE_STAT_FIELDS_MD5;
return lfs;
}
/* cleanPath to return an escaped path of an uri */
static char *_cleanPath( const char* uri ) {
int rc = 0;
char *path = NULL;
char *re = NULL;
rc = c_parse_uri( uri, NULL, NULL, NULL, NULL, NULL, &path );
if( rc < 0 ) {
DEBUG_WEBDAV("Unable to cleanPath %s", uri ? uri: "<zero>" );
re = NULL;
} else {
re = ne_path_escape( path );
}
SAFE_FREE( path );
return re;
}
/* WebDAV does not deliver permissions. Set a default here. */
static int _stat_perms( int type ) {
int ret = 0;
if( type == CSYNC_VIO_FILE_TYPE_DIRECTORY ) {
/* DEBUG_WEBDAV("Setting mode in stat (dir)"); */
/* directory permissions */
ret = S_IFDIR | S_IRUSR | S_IWUSR | S_IXUSR /* directory, rwx for user */
| S_IRGRP | S_IXGRP /* rx for group */
| S_IROTH | S_IXOTH; /* rx for others */
} else {
/* regualar file permissions */
/* DEBUG_WEBDAV("Setting mode in stat (file)"); */
ret = S_IFREG | S_IRUSR | S_IWUSR /* regular file, user read & write */
| S_IRGRP /* group read perm */
| S_IROTH; /* others read perm */
}
return ret;
}
/*
* free the fetchCtx
*/
static void free_fetchCtx( struct listdir_context *ctx )
{
struct resource *newres = ctx->list;
struct resource *res = newres;
if( ! ctx ) return;
SAFE_FREE(ctx->target);
while( res ) {
SAFE_FREE(res->uri);
SAFE_FREE(res->name);
SAFE_FREE(res->md5);
newres = res->next;
SAFE_FREE(res);
res = newres;
}
SAFE_FREE(ctx);
}
/*
* file functions
*/
static int owncloud_stat(const char *uri, csync_vio_file_stat_t *buf) {
/* get props:
* modtime
* creattime
* size
*/
int rc = 0;
csync_vio_file_stat_t *lfs = NULL;
struct listdir_context *fetchCtx = NULL;
char *curi = NULL;
char *decodedUri = NULL;
char strbuf[PATH_MAX +1];
int len = 0;
DEBUG_WEBDAV("owncloud_stat %s called", uri );
buf->name = c_basename(uri);
if (buf->name == NULL) {
csync_vio_file_stat_destroy(buf);
errno = ENOMEM;
return -1;
}
/* check if the data in the static 'cache' fs is for the same file.
* The cache is filled by readdir which is often called directly before
* stat. If the cache matches, a http call is saved.
*/
if( _fs.name && strcmp( buf->name, _fs.name ) == 0 ) {
buf->fields = CSYNC_VIO_FILE_STAT_FIELDS_NONE;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_TYPE;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_SIZE;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_MTIME;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_PERMISSIONS;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_MD5;
buf->fields = _fs.fields;
buf->type = _fs.type;
buf->mtime = _fs.mtime;
buf->md5 = NULL;
if( _fs.md5 ) {
buf->md5 = c_strdup( _fs.md5 );
}
DEBUG_WEBDAV("stat results from fs cache - md5: %s", _fs.md5 ? _fs.md5 : "NULL");
buf->size = _fs.size;
buf->mode = _stat_perms( _fs.type );
} else if( _statCache.uri && c_streq( _statCache.uri, uri )) {
DEBUG_WEBDAV("stat results from stat cache");
DEBUG_WEBDAV("Found file stat info in statcache!");
buf->fields = CSYNC_VIO_FILE_STAT_FIELDS_NONE;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_TYPE;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_SIZE;
// buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_MTIME;
// buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_PERMISSIONS;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_MD5;
buf->type = _statCache.stat.type;
buf->size = _statCache.stat.size;
buf->md5 = c_strdup( _statCache.stat.md5 );
// buf->mode = _stat_perms( _statCache.type );
} else {
DEBUG_WEBDAV("stat results fetched.");
/* fetch data via a propfind call. */
fetchCtx = c_malloc( sizeof( struct listdir_context ));
if( ! fetchCtx ) {
errno = ENOMEM;
csync_vio_file_stat_destroy(buf);
return -1;
}
curi = _cleanPath( uri );
DEBUG_WEBDAV("I have no stat cache, call propfind for %s", curi );
fetchCtx->list = NULL;
fetchCtx->target = curi;
fetchCtx->include_target = 1;
fetchCtx->currResource = NULL;
rc = fetch_resource_list( curi, NE_DEPTH_ONE, fetchCtx );
if( rc != NE_OK ) {
if( rc == OC_TIMEDELTA_FAIL ) {
DEBUG_WEBDAV("WRN: Time delta changed too much!");
/* FIXME: Reasonable user warning */
} else {
errno = ne_session_error_errno( dav_session.ctx );
DEBUG_WEBDAV("stat fails with errno %d", errno );
}
free_fetchCtx(fetchCtx);
return -1;
}
if( fetchCtx ) {
struct resource *res = fetchCtx->list;
while( res ) {
/* remove trailing slashes */
len = strlen(res->uri);
while( len > 0 && res->uri[len-1] == '/' ) --len;
memset( strbuf, 0, PATH_MAX+1);
strncpy( strbuf, res->uri, len < PATH_MAX ? len : PATH_MAX ); /* this removes the trailing slash */
decodedUri = ne_path_unescape( curi ); /* allocates memory */
if( c_streq(strbuf, decodedUri )) {
SAFE_FREE( decodedUri );
break;
}
res = res->next;
SAFE_FREE( decodedUri );
}
if( res ) {
DEBUG_WEBDAV("Working on file %s", res->name );
} else {
DEBUG_WEBDAV("ERROR: Result struct not valid!");
}
lfs = resourceToFileStat( res );
if( lfs ) {
buf->fields = CSYNC_VIO_FILE_STAT_FIELDS_NONE;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_TYPE;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_SIZE;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_MTIME;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_PERMISSIONS;
buf->fields |= CSYNC_VIO_FILE_STAT_FIELDS_MD5;
buf->fields = lfs->fields;
buf->type = lfs->type;
buf->mtime = lfs->mtime;
buf->size = lfs->size;
buf->mode = _stat_perms( lfs->type );
buf->md5 = NULL;
if( lfs->md5 ) {
buf->md5 = c_strdup( lfs->md5 );
}
csync_vio_file_stat_destroy( lfs );
}
free_fetchCtx( fetchCtx );
}
}
DEBUG_WEBDAV("STAT result: %s, md5: %s", buf->name ? buf->name:"NULL",
buf->md5 ? buf->md5 : "NULL" );
return 0;
}
static ssize_t owncloud_write(csync_vio_method_handle_t *fhandle, const void *buf, size_t count) {
struct transfer_context *writeCtx = NULL;
size_t written = 0;
size_t bufWritten = 0;
if (fhandle == NULL) {
return -1;
}
writeCtx = (struct transfer_context*) fhandle;
/* check if there is space left in the mem buffer */
if( writeCtx->bytes_written + count > PUT_BUFFER_SIZE ) {
if( writeCtx->fileWritten == 0 ) {
DEBUG_WEBDAV("Remaining Mem Buffer size to small, push to disk "
"(current buf size %lu)",
(unsigned long) writeCtx->bytes_written);
}
/* write contents to disk */
if( writeCtx->fd > -1 ) {
if( writeCtx->bytes_written > 0 ) {
/* there is something in the buffer already. Store to disk */
written = write( writeCtx->fd, _buffer, writeCtx->bytes_written );
if( written != writeCtx->bytes_written ) {
DEBUG_WEBDAV("WRN: Written bytes from buffer not equal to count");
}
/* reset the buffer counter */
writeCtx->bytes_written = 0;
}
/* also write the incoming memory buffer content to file */
if( count > 0 ) {
bufWritten = write( writeCtx->fd, buf, count );
if( bufWritten != count ) {
DEBUG_WEBDAV("WRN: Written bytes not equal to count");
}
}
/* set a flag that file was used, needed in the close routine */
writeCtx->fileWritten = 1;
} else {
/* problem: the file descriptor is not valid. */
DEBUG_WEBDAV("ERR: Not a valid file descriptor in write");
}
} else {
/* still space in the buffer */
memcpy( _buffer + writeCtx->bytes_written, buf, count );
writeCtx->bytes_written += count;
bufWritten = count;
}
return bufWritten;
}
static int uncompress_reader(void *userdata, const char *buf, size_t len)
{
struct transfer_context *writeCtx = userdata;
size_t written = 0;
if( buf && writeCtx->fd ) {
/* DEBUG_WEBDAV("Writing NON compressed %d bytes", len); */
written = write(writeCtx->fd, buf, len);
if( len != written ) {
DEBUG_WEBDAV("WRN: uncompress_reader wrote wrong num of bytes");
}
return NE_OK;
}
return NE_ERROR;
}
static int compress_reader(void *userdata, const char *buf, size_t len)
{
struct transfer_context *writeCtx = userdata;
size_t written = 0;
if( buf && writeCtx->fd ) {
/* DEBUG_WEBDAV("Writing compressed %d bytes", len); */
written = write(writeCtx->fd, buf, len);
if( written != len ) {
DEBUG_WEBDAV("WRN: compress reader wrote wrong len");
}
return NE_OK;
}
return NE_ERROR;
}
/*
* This hook is called after the response is here from the server, but before
* the response body is parsed. It decides if the response is compressed and
* if it is it installs the compression reader accordingly.
* If the response is not compressed, the normal response body reader is installed.
*/
static void install_content_reader( ne_request *req, void *userdata, const ne_status *status )
{
const char *enc = NULL;
struct transfer_context *writeCtx = userdata;
if( !writeCtx ) {
DEBUG_WEBDAV("Error: install_content_reader called without valid write context!");
return;
}
enc = ne_get_response_header( req, "Content-Encoding" );
DEBUG_WEBDAV("Content encoding ist <%s> with status %d", enc ? enc : "empty",
status ? status->code : -1 );
if( enc && c_streq( enc, "gzip" )) {
writeCtx->decompress = ne_decompress_reader( req, ne_accept_2xx,
compress_reader, /* reader callback */
(void*) writeCtx ); /* userdata */
} else {
ne_add_response_body_reader( req, ne_accept_2xx,
uncompress_reader,
(void*) writeCtx );
writeCtx->decompress = NULL;
}
}
static char*_lastDir = NULL;
/* capabilities are currently:
* bool atomar_copy_support - oC provides atomar copy
* bool do_post_copy_stat - oC does not want the post copy check
* bool time_sync_required - oC does not require the time sync
* int unix_extensions - oC supports unix extensions.
*/
static csync_vio_capabilities_t _owncloud_capabilities = { true, false, false, 1 };
static csync_vio_capabilities_t *owncloud_capabilities(void)
{
#ifdef _WIN32
_owncloud_capabilities.unix_extensions = 0;
#endif
return &_owncloud_capabilities;
}
static const char* owncloud_file_id( const char *path )
{
ne_request *req = NULL;
const char *header = NULL;
char *uri = _cleanPath(path);
char *buf = NULL;
/* Perform an HEAD request to the resource. HEAD delivers the
* ETag header back. */
req = ne_request_create(dav_session.ctx, "HEAD", uri);
ne_request_dispatch(req);
header = ne_get_response_header(req, "etag");
/* If the request went wrong or the server did not respond correctly
* (that can happen for collections) a stat call is done which translates
* into a PROPFIND request.
*/
if( ! header ) {
csync_vio_file_stat_t statBuf;
if( owncloud_stat( path, &statBuf ) == 0 ) {
header = statBuf.md5;
SAFE_FREE(statBuf.name);
}
}
/* In case the result is surrounded by "" cut them away. */
if( header ) {
if( header [0] == '"' && header[ strlen(header)-1] == '"') {
int len = strlen( header )-2;
buf = c_malloc( len );
strncpy( buf, header+1, len );
buf[len] = '\0';
} else {
buf = c_strdup(header);
}
}
DEBUG_WEBDAV("Get file ID for %s: %s", path, buf);
ne_request_destroy(req);
SAFE_FREE(uri);
return buf;
}
static csync_vio_method_handle_t *owncloud_open(const char *durl,
int flags,
mode_t mode) {
char *uri = NULL;
char *dir = NULL;
const char *err = NULL;
char getUrl[PATH_MAX];
int put = 0;
int rc = NE_OK;
#ifdef _WIN32
int gtp = 0;
char tmpname[13];
_TCHAR winTmp[PATH_MAX];
const _TCHAR *winUrlMB = NULL;
const char *winTmpUtf8 = NULL;
csync_stat_t sb;
#endif
const char *etag_header = NULL;
struct transfer_context *writeCtx = NULL;
csync_vio_file_stat_t statBuf;
memset( getUrl, '\0', PATH_MAX );
(void) mode; /* unused on webdav server */
DEBUG_WEBDAV( "=> open called for %s", durl );
uri = _cleanPath( durl );
if( ! uri ) {
DEBUG_WEBDAV("Failed to clean path for %s", durl );
errno = EACCES;
rc = NE_ERROR;
}
if( rc == NE_OK )
dav_connect( durl );
if (flags & O_WRONLY) {
put = 1;
}
if (flags & O_RDWR) {
put = 1;
}
if (flags & O_CREAT) {
put = 1;
}
if( rc == NE_OK && put ) {
/* check if the dir name exists. Otherwise return ENOENT */
dir = c_dirname( durl );
if (dir == NULL) {
errno = ENOMEM;
SAFE_FREE(uri);
return NULL;
}
DEBUG_WEBDAV("Stating directory %s", dir );
if( c_streq( dir, _lastDir )) {
DEBUG_WEBDAV("Dir %s is there, we know it already.", dir);
} else {
if( owncloud_stat( dir, &statBuf ) == 0 ) {
SAFE_FREE(statBuf.name);
DEBUG_WEBDAV("Directory of file to open exists.");
SAFE_FREE( _lastDir );
_lastDir = c_strdup(dir);
} else {
DEBUG_WEBDAV("Directory %s of file to open does NOT exist.", dir );
/* the directory does not exist. That is an ENOENT */
errno = ENOENT;
SAFE_FREE(dir);
SAFE_FREE(uri);
SAFE_FREE(statBuf.name);
return NULL;
}
}
}
writeCtx = c_malloc( sizeof(struct transfer_context) );
writeCtx->bytes_written = 0;
writeCtx->clean_uri = c_strdup(uri);
if( rc == NE_OK ) {
/* open a temp file to store the incoming data */
#ifdef _WIN32
memset( tmpname, '\0', 13 );
gtp = GetTempPathW( PATH_MAX, winTmp );
winTmpUtf8 = c_utf8( winTmp );
strcpy( getUrl, winTmpUtf8 );
DEBUG_WEBDAV("win32 tmp path: %s", getUrl);
if ( gtp > MAX_PATH || (gtp == 0) ) {
DEBUG_WEBDAV("Failed to compute Win32 tmp path, trying /tmp");
strcpy( getUrl, "/tmp/");
}
strcpy( tmpname, "csync.XXXXXX" );
if( c_tmpname( tmpname ) == 0 ) {
/* Set the windows file mode to Binary. */
_fmode = _O_BINARY;
/* append the tmp file name to tmp path */
strcat( getUrl, tmpname );
writeCtx->tmpFileName = c_strdup( getUrl );
/* Open the file finally. */
winUrlMB = c_multibyte( getUrl );
/* check if the file exists by chance. */
if( _tstat( winUrlMB, &sb ) == 0 ) {
/* the file exists. Remove it! */
_tunlink( winUrlMB );
}
writeCtx->fd = _topen( winUrlMB, O_RDWR | O_CREAT | O_EXCL, 0600 );
/* free the extra bytes */
c_free_multibyte( winUrlMB );
c_free_utf8( winTmpUtf8 );
} else {
writeCtx->fd = -1;
}
#else
writeCtx->tmpFileName = c_strdup( "/tmp/csync.XXXXXX" );
writeCtx->fd = mkstemp( writeCtx->tmpFileName );
#endif
DEBUG_WEBDAV("opening temp directory %s: %d", writeCtx->tmpFileName, writeCtx->fd );
if( writeCtx->fd == -1 ) {
DEBUG_WEBDAV("Failed to open temp file, errno = %d", errno );
rc = NE_ERROR;
/* errno is set by the mkstemp call above. */
}
}
if( rc == NE_OK && put) {
DEBUG_WEBDAV("PUT request on %s!", uri);
/* reset the write buffer */
writeCtx->bytes_written = 0;
writeCtx->fileWritten = 0; /* flag to indicate if contents was pushed to file */
writeCtx->req = ne_request_create(dav_session.ctx, "PUT", uri);
writeCtx->method = "PUT";
}
if( rc == NE_OK && ! put ) {
writeCtx->req = 0;
writeCtx->method = "GET";
/* Download the data into a local temp file. */
/* the download via the get function requires a full uri */
snprintf( getUrl, PATH_MAX, "%s://%s%s", ne_get_scheme( dav_session.ctx),
ne_get_server_hostport( dav_session.ctx ), uri );
DEBUG_WEBDAV("GET request on %s", getUrl );
#define WITH_HTTP_COMPRESSION
#ifdef WITH_HTTP_COMPRESSION
writeCtx->req = ne_request_create( dav_session.ctx, "GET", getUrl );
/* Allow compressed content by setting the header */
ne_add_request_header( writeCtx->req, "Accept-Encoding", "gzip,deflate" );
/* hook called before the content is parsed to set the correct reader,
* either the compressed- or uncompressed reader.
*/
ne_hook_post_headers( dav_session.ctx, install_content_reader, writeCtx );
/* actually do the request */
rc = ne_request_dispatch(writeCtx->req );
/* possible return codes are:
* NE_OK, NE_AUTH, NE_CONNECT, NE_TIMEOUT, NE_ERROR (from ne_request.h)
*/
if( rc != NE_OK || (rc == NE_OK && ne_get_status(writeCtx->req)->klass != 2) ) {
DEBUG_WEBDAV("request_dispatch failed with rc=%d", rc );
err = ne_get_error( dav_session.ctx );
DEBUG_WEBDAV("request error: %s", err ? err : "<nil>");
if( rc == NE_OK ) rc = NE_ERROR;
errno = EACCES;
}
/* delete the hook again, otherwise they get chained as they are with the session */
ne_unhook_post_headers( dav_session.ctx, install_content_reader, writeCtx );
/* if the compression handle is set through the post_header hook, delete it. */
if( writeCtx->decompress ) {
ne_decompress_destroy( writeCtx->decompress );
}
/* preserve the ETag header */
etag_header = ne_get_response_header( writeCtx->req, "ETag" );
if( etag_header ) {
writeCtx->md5 = c_strdup( etag_header );
DEBUG_WEBDAV("GET Etag: %s", etag_header );
}
/* delete the request in any case */
ne_request_destroy(writeCtx->req);
#else
DEBUG_WEBDAV("GET Compression not supported!");
rc = ne_get( dav_session.ctx, getUrl, writeCtx->fd ); /* FIX_ESCAPE? */
#endif
if( rc != NE_OK ) {
DEBUG_WEBDAV("Download to local file failed: %d.", rc);
errno = EACCES;
}
if( close( writeCtx->fd ) == -1 ) {
DEBUG_WEBDAV("Close of local download file failed.");
writeCtx->fd = -1;
rc = NE_ERROR;
errno = EACCES;
}
writeCtx->fd = -1;
}
if( rc != NE_OK ) {
SAFE_FREE( writeCtx );
}
SAFE_FREE( uri );
SAFE_FREE( dir );
return (csync_vio_method_handle_t *) writeCtx;
}
static csync_vio_method_handle_t *owncloud_creat(const char *durl, mode_t mode) {
csync_vio_method_handle_t *handle = owncloud_open(durl, O_CREAT|O_WRONLY|O_TRUNC, mode);
/* on create, the file needs to be created empty */
owncloud_write( handle, NULL, 0 );
return handle;
}
static int owncloud_close(csync_vio_method_handle_t *fhandle) {
struct transfer_context *writeCtx;
csync_stat_t st;
int rc;
int ret = 0;
size_t len = 0;
const _TCHAR *tmpFileName = 0;
const char *etag_header = 0;
writeCtx = (struct transfer_context*) fhandle;
if (fhandle == NULL) {
errno = EBADF;
ret = -1;
}
/* handle the PUT request, means write to the WebDAV server */
if( ret != -1 && strcmp( writeCtx->method, "PUT" ) == 0 ) {
/* if there is a valid file descriptor, close it, reopen in read mode and start the PUT request */
if( writeCtx->fd > -1 ) {
if( writeCtx->fileWritten && writeCtx->bytes_written > 0 ) { /* was content written to file? */
/* push the rest of the buffer to file as well. */
DEBUG_WEBDAV("Write remaining %lu bytes to disk.",
(unsigned long) writeCtx->bytes_written );
len = write( writeCtx->fd, _buffer, writeCtx->bytes_written );
if( len != writeCtx->bytes_written ) {
DEBUG_WEBDAV("WRN: write wrote wrong number of remaining bytes");
}
writeCtx->bytes_written = 0;
}
if( close( writeCtx->fd ) < 0 ) {
DEBUG_WEBDAV("Could not close file %s", writeCtx->tmpFileName );
errno = EBADF;
ret = -1;
}
/* and open it again to read from */
#ifdef _WIN32
_fmode = _O_BINARY;
#endif
if( writeCtx->fileWritten ) {
DEBUG_WEBDAV("Putting file through file cache.");
/* we need to go the slow way and close and open the file and read from fd. */
tmpFileName = c_multibyte( writeCtx->tmpFileName );
if (( writeCtx->fd = _topen( tmpFileName, O_RDONLY )) < 0) {
errno = EIO;
ret = -1;
} else {
if (fstat( writeCtx->fd, &st ) < 0) {
DEBUG_WEBDAV("Could not stat file %s", writeCtx->tmpFileName );
errno = EIO;
ret = -1;
}
/* successfully opened for read. Now start the request via ne_put */
ne_set_request_body_fd( writeCtx->req, writeCtx->fd, 0, st.st_size );
rc = ne_request_dispatch( writeCtx->req );
if( close( writeCtx->fd ) == -1 ) {
errno = EBADF;
ret = -1;
}
if (rc == NE_OK) {
if ( ne_get_status( writeCtx->req )->klass != 2 ) {
// DEBUG_WEBDAV("Error - PUT status value no 2xx");
// errno = EIO;
// ret = -1;
}
} else {
DEBUG_WEBDAV("Error - put request on close failed: %d!", rc );
errno = EIO;
ret = -1;
}
}
c_free_multibyte(tmpFileName);
} else {
/* all content is in the buffer. */
DEBUG_WEBDAV("Putting file through memory cache.");
ne_set_request_body_buffer( writeCtx->req, _buffer, writeCtx->bytes_written );
rc = ne_request_dispatch( writeCtx->req );
if( rc == NE_OK ) {
if ( ne_get_status( writeCtx->req )->klass != 2 ) {
// DEBUG_WEBDAV("Error - PUT status value no 2xx");
// errno = EIO;
// ret = -1;
}
} else {
DEBUG_WEBDAV("Error - put request from memory failed: %d!", rc );
errno = EIO;
ret = -1;
}
}
/* get the uniq id request header */
etag_header = ne_get_response_header( writeCtx->req, "ETag" );
if( etag_header ) {
DEBUG_WEBDAV("ETag for file : %s", etag_header);
writeCtx->md5 = c_strdup( etag_header );
}
}
ne_request_destroy( writeCtx->req );
} else {
/* Its a GET request, not much to do in close. */
if( writeCtx->fd > -1) {
if( close( writeCtx->fd ) == -1 ) {
errno = EBADF;
ret = -1;
}
}
}
/* Remove the local file. */
unlink( writeCtx->tmpFileName );
/* cache the stat info about the recently written or read file */
// FIXME: Free the strings
_statCache.stat.size = writeCtx->bytes_written;
_statCache.stat.md5 = writeCtx->md5;
_statCache.stat.name = c_basename( writeCtx->clean_uri );
_statCache.stat.type = CSYNC_VIO_FILE_TYPE_REGULAR;
/* free mem. Note that the request mem is freed by the ne_request_destroy call */
SAFE_FREE( writeCtx->tmpFileName );
SAFE_FREE( writeCtx );
return ret;
}
static ssize_t owncloud_read(csync_vio_method_handle_t *fhandle, void *buf, size_t count) {
struct transfer_context *writeCtx = NULL;
size_t len = 0;
csync_stat_t st;
const _TCHAR *tmpFileName;
writeCtx = (struct transfer_context*) fhandle;
/* DEBUG_WEBDAV( "read called on %s (fd=%d)!", writeCtx->tmpFileName, writeCtx->fd ); */
if( ! fhandle ) {
errno = EBADF;
return -1;
}
if( writeCtx->fd == -1 ) {
/* open the downloaded file to read from */
#ifdef _WIN32
_fmode = _O_BINARY;
#endif
tmpFileName = c_multibyte(writeCtx->tmpFileName);
if (( writeCtx->fd = _topen( tmpFileName, O_RDONLY )) < 0) {
c_free_multibyte(tmpFileName);
DEBUG_WEBDAV("Could not open local file %s", writeCtx->tmpFileName );
errno = EIO;
return -1;
} else {
c_free_multibyte(tmpFileName);
if (fstat( writeCtx->fd, &st ) < 0) {
DEBUG_WEBDAV("Could not stat file %s", writeCtx->tmpFileName );
errno = EIO;
return -1;
}
DEBUG_WEBDAV("local downlaod file size=%d", (int) st.st_size );
}
}
if( writeCtx->fd ) {
len = read( writeCtx->fd, buf, count );
writeCtx->bytes_written = writeCtx->bytes_written + len;
}
/* DEBUG_WEBDAV( "read len: %d %ul", len, count ); */
return len;
}
static off_t owncloud_lseek(csync_vio_method_handle_t *fhandle, off_t offset, int whence) {
(void) fhandle;
(void) offset;
(void) whence;
return -1;
}
/*
* directory functions
*/
static csync_vio_method_handle_t *owncloud_opendir(const char *uri) {
int rc;
struct listdir_context *fetchCtx = NULL;
struct resource *reslist = NULL;
char *curi = _cleanPath( uri );
char *redir_uri = NULL;
const ne_uri *redir_ne_uri = NULL;
DEBUG_WEBDAV("opendir method called on %s", uri );
dav_connect( uri );
fetchCtx = c_malloc( sizeof( struct listdir_context ));
fetchCtx->list = reslist;
fetchCtx->target = curi;
fetchCtx->include_target = 0;
fetchCtx->currResource = NULL;
rc = fetch_resource_list( curi, NE_DEPTH_ONE, fetchCtx );
if( rc != NE_OK ) {
if( rc == NE_CONNECT || rc == NE_LOOKUP ) {
errno = EIO;
} else {
errno = ne_session_error_errno( dav_session.ctx );
DEBUG_WEBDAV("Errno set to %d", errno);
redir_ne_uri = ne_redirect_location(dav_session.ctx);
if( redir_ne_uri ) {
redir_uri = ne_uri_unparse(redir_ne_uri);
DEBUG_WEBDAV("Permanently moved to %s", redir_uri);
}
}
return NULL;
} else {
fetchCtx->currResource = fetchCtx->list;
DEBUG_WEBDAV("opendir returning handle %p", (void*) fetchCtx );
return fetchCtx;
}
/* no freeing of curi because its part of the fetchCtx and gets freed later */
}
static int owncloud_closedir(csync_vio_method_handle_t *dhandle) {
struct listdir_context *fetchCtx = dhandle;
DEBUG_WEBDAV("closedir method called %p!", dhandle);
free_fetchCtx(fetchCtx);
return 0;
}
static csync_vio_file_stat_t *owncloud_readdir(csync_vio_method_handle_t *dhandle) {
struct listdir_context *fetchCtx = dhandle;
csync_vio_file_stat_t *lfs = NULL;
if( fetchCtx->currResource ) {
// DEBUG_WEBDAV("readdir method called for %s", fetchCtx->currResource->uri);
} else {
/* DEBUG_WEBDAV("An empty dir or at end"); */
return NULL;
}
if( fetchCtx && fetchCtx->currResource ) {
/* FIXME: Who frees the allocated mem for lfs, allocated in the helper func? */
lfs = resourceToFileStat( fetchCtx->currResource );
/* set pointer to next element */
fetchCtx->currResource = fetchCtx->currResource->next;
/* fill the static stat buf as input for the stat function */
_fs.name = lfs->name;
_fs.mtime = lfs->mtime;
_fs.fields = lfs->fields;
_fs.type = lfs->type;
_fs.size = lfs->size;
if( lfs->md5 ) {
_fs.md5 = c_strdup(lfs->md5);
}
}
/* DEBUG_WEBDAV("LFS fields: %s: %d", lfs->name, lfs->type ); */
return lfs;
}
static int owncloud_mkdir(const char *uri, mode_t mode) {
int rc = NE_OK;
char buf[PATH_MAX +1];
int len = 0;
char *path = _cleanPath( uri );
(void) mode; /* unused */
if( ! path ) {
errno = EINVAL;
rc = -1;
}
rc = dav_connect(uri);
if (rc < 0) {
errno = EINVAL;
}
/* the uri path is required to have a trailing slash */
if( rc >= 0 ) {
len = strlen( path );
if( len > PATH_MAX-1 ) {
DEBUG_WEBDAV("ERR: Path is too long for OS max path length!");
} else {
strcpy( buf, path );
if( buf[len-1] != '/' ) {
strcat(buf, "/");
}
DEBUG_WEBDAV("MKdir on %s", buf );
rc = ne_mkcol(dav_session.ctx, buf );
if (rc != NE_OK ) {
errno = ne_session_error_errno( dav_session.ctx );
}
}
}
SAFE_FREE( path );
if( rc < 0 || rc != NE_OK ) {
return -1;
}
return 0;
}
static int owncloud_rmdir(const char *uri) {
int rc = NE_OK;
char* curi = _cleanPath( uri );
rc = dav_connect(uri);
if (rc < 0) {
errno = EINVAL;
}
if( rc >= 0 ) {
rc = ne_delete(dav_session.ctx, curi);
if ( rc != NE_OK ) {
errno = ne_session_error_errno( dav_session.ctx );
}
}
SAFE_FREE( curi );
if( rc < 0 || rc != NE_OK ) {
return -1;
}
return 0;
}
static int owncloud_rename(const char *olduri, const char *newuri) {
char *src = NULL;
char *target = NULL;
int rc = NE_OK;
rc = dav_connect(olduri);
if (rc < 0) {
errno = EINVAL;
}
src = _cleanPath( olduri );
target = _cleanPath( newuri );
if( rc >= 0 ) {
DEBUG_WEBDAV("MOVE: %s => %s: %d", src, target, rc );
rc = ne_move(dav_session.ctx, 1, src, target );
if (rc != NE_OK ) {
errno = ne_session_error_errno(dav_session.ctx);
}
}
SAFE_FREE( src );
SAFE_FREE( target );
if( rc != NE_OK )
return -1;
return 0;
}
static int owncloud_unlink(const char *uri) {
int rc = NE_OK;
char *path = _cleanPath( uri );
if( ! path ) {
rc = NE_ERROR;
errno = EINVAL;
}
if( rc == NE_OK ) {
rc = dav_connect(uri);
if (rc < 0) {
errno = EINVAL;
}
}
if( rc == NE_OK ) {
rc = ne_delete( dav_session.ctx, path );
if ( rc != NE_OK )
errno = ne_session_error_errno( dav_session.ctx );
}
SAFE_FREE( path );
return 0;
}
static int owncloud_chmod(const char *uri, mode_t mode) {
(void) uri;
(void) mode;
return 0;
}
static int owncloud_chown(const char *uri, uid_t owner, gid_t group) {
(void) uri;
(void) owner;
(void) group;
return 0;
}
static int owncloud_utimes(const char *uri, const struct timeval *times) {
ne_proppatch_operation ops[2];
ne_propname pname;
int rc = NE_OK;
char val[255];
char *curi = NULL;
const struct timeval *modtime = times+1;
long newmodtime;
curi = _cleanPath( uri );
if( ! uri ) {
errno = ENOENT;
return -1;
}
if( !times ) {
errno = EACCES;
return -1; /* FIXME: Find good errno */
}
pname.nspace = "DAV:";
pname.name = "lastmodified";
newmodtime = modtime->tv_sec;
#if TIMEDELTA
DEBUG_WEBDAV("Add a time delta to modtime %lu: %ld",
modtime->tv_sec, dav_session.time_delta);
newmodtime += dav_session.time_delta;
#endif
snprintf( val, sizeof(val), "%ld", newmodtime );
DEBUG_WEBDAV("Setting LastModified of %s to %s", curi, val );
ops[0].name = &pname;
ops[0].type = ne_propset;
ops[0].value = val;
ops[1].name = NULL;
rc = ne_proppatch( dav_session.ctx, curi, ops );
SAFE_FREE(curi);
if( rc != NE_OK ) {
errno = EPERM;
DEBUG_WEBDAV("Error in propatch: %d", rc);
return -1;
}
return 0;
}
csync_vio_method_t _method = {
.method_table_size = sizeof(csync_vio_method_t),
.get_capabilities = owncloud_capabilities,
.get_file_id = owncloud_file_id,
.open = owncloud_open,
.creat = owncloud_creat,
.close = owncloud_close,
.read = owncloud_read,
.write = owncloud_write,
.lseek = owncloud_lseek,
.opendir = owncloud_opendir,
.closedir = owncloud_closedir,
.readdir = owncloud_readdir,
.mkdir = owncloud_mkdir,
.rmdir = owncloud_rmdir,
.stat = owncloud_stat,
.rename = owncloud_rename,
.unlink = owncloud_unlink,
.chmod = owncloud_chmod,
.chown = owncloud_chown,
.utimes = owncloud_utimes
};
csync_vio_method_t *vio_module_init(const char *method_name, const char *args,
csync_auth_callback cb, void *userdata) {
char **userdata_ptr = NULL;
(void) method_name;
(void) args;
_authcb = cb;
_connected = 0; /* triggers dav_connect to go through the whole neon setup */
if( userdata ) {
userdata_ptr = userdata;
if( *userdata_ptr && strlen( *userdata_ptr) )
dav_session.proxy_type = c_strdup( *userdata_ptr );
userdata_ptr++;
DEBUG_WEBDAV("CSync Proxy Type: %s", dav_session.proxy_type);
if( *userdata_ptr && strlen( *userdata_ptr) )
dav_session.proxy_host = c_strdup( *userdata_ptr );
userdata_ptr++;
if( *userdata_ptr && strlen( *userdata_ptr) )
dav_session.proxy_port = atoi( *userdata_ptr );
userdata_ptr++;
if( *userdata_ptr && strlen( *userdata_ptr) )
dav_session.proxy_user = c_strdup( *userdata_ptr );
userdata_ptr++;
if( *userdata_ptr && strlen( *userdata_ptr) )
dav_session.proxy_pwd = c_strdup( *userdata_ptr );
}
return &_method;
}
void vio_module_shutdown(csync_vio_method_t *method) {
(void) method;
SAFE_FREE( dav_session.user );
SAFE_FREE( dav_session.pwd );
SAFE_FREE( dav_session.proxy_type );
SAFE_FREE( dav_session.proxy_host );
SAFE_FREE( dav_session.proxy_user );
SAFE_FREE( dav_session.proxy_pwd );
if( dav_session.ctx )
ne_session_destroy( dav_session.ctx );
/* DEBUG_WEBDAV( "********** vio_module_shutdown" ); */
}
/* vim: set ts=4 sw=4 et cindent: */