import time, os.path from twisted.application import service, strports, internet from twisted.web import static, resource, server, html, http from twisted.internet import defer, address from twisted.internet.interfaces import IConsumer from nevow import inevow, rend, loaders, appserver, url, tags as T from nevow.static import File as nevow_File # TODO: merge with static.File? from allmydata.util import base32, fileutil, idlib, observer, log import simplejson from allmydata.interfaces import IDownloadTarget, IDirectoryNode, IFileNode, \ IMutableFileNode, IUploadStatus, IDownloadStatus import allmydata # to display import path from allmydata import download from allmydata.upload import FileHandle, FileName from allmydata import provisioning from allmydata import get_package_versions_string from zope.interface import implements, Interface import urllib from formless import webform from foolscap.eventual import fireEventually from nevow.util import resource_filename def getxmlfile(name): return loaders.xmlfile(resource_filename('allmydata.web', '%s' % name)) class IClient(Interface): pass class ILocalAccess(Interface): def local_access_is_allowed(): """Return True if t=upload&localdir= is allowed, giving anyone who can talk to the webserver control over the local (disk) filesystem.""" def boolean_of_arg(arg): assert arg.lower() in ("true", "t", "1", "false", "f", "0", "on", "off") return arg.lower() in ("true", "t", "1", "on") def get_arg(req, argname, default=None, multiple=False): """Extract an argument from either the query args (req.args) or the form body fields (req.fields). If multiple=False, this returns a single value (or the default, which defaults to None), and the query args take precedence. If multiple=True, this returns a tuple of arguments (possibly empty), starting with all those in the query args. """ results = [] if argname in req.args: results.extend(req.args[argname]) if req.fields and argname in req.fields: results.append(req.fields[argname].value) if multiple: return tuple(results) if results: return results[0] return default # we must override twisted.web.http.Request.requestReceived with a version # that doesn't use cgi.parse_multipart() . Since we actually use Nevow, we # override the nevow-specific subclass, nevow.appserver.NevowRequest . This # is an exact copy of twisted.web.http.Request (from SVN HEAD on 10-Aug-2007) # that modifies the way form arguments are parsed. Note that this sort of # surgery may induce a dependency upon a particular version of twisted.web parse_qs = http.parse_qs class MyRequest(appserver.NevowRequest): fields = None def requestReceived(self, command, path, version): """Called by channel when all data has been received. This method is not intended for users. """ self.content.seek(0,0) self.args = {} self.stack = [] self.method, self.uri = command, path self.clientproto = version x = self.uri.split('?', 1) if len(x) == 1: self.path = self.uri else: self.path, argstring = x self.args = parse_qs(argstring, 1) # cache the client and server information, we'll need this later to be # serialized and sent with the request so CGIs will work remotely self.client = self.channel.transport.getPeer() self.host = self.channel.transport.getHost() # Argument processing. ## The original twisted.web.http.Request.requestReceived code parsed the ## content and added the form fields it found there to self.args . It ## did this with cgi.parse_multipart, which holds the arguments in RAM ## and is thus unsuitable for large file uploads. The Nevow subclass ## (nevow.appserver.NevowRequest) uses cgi.FieldStorage instead (putting ## the results in self.fields), which is much more memory-efficient. ## Since we know we're using Nevow, we can anticipate these arguments ## appearing in self.fields instead of self.args, and thus skip the ## parse-content-into-self.args step. ## args = self.args ## ctype = self.getHeader('content-type') ## if self.method == "POST" and ctype: ## mfd = 'multipart/form-data' ## key, pdict = cgi.parse_header(ctype) ## if key == 'application/x-www-form-urlencoded': ## args.update(parse_qs(self.content.read(), 1)) ## elif key == mfd: ## try: ## args.update(cgi.parse_multipart(self.content, pdict)) ## except KeyError, e: ## if e.args[0] == 'content-disposition': ## # Parse_multipart can't cope with missing ## # content-dispostion headers in multipart/form-data ## # parts, so we catch the exception and tell the client ## # it was a bad request. ## self.channel.transport.write( ## "HTTP/1.1 400 Bad Request\r\n\r\n") ## self.channel.transport.loseConnection() ## return ## raise self.process() def _logger(self): # we build up a log string that hides most of the cap, to preserve # user privacy. We retain the query args so we can identify things # like t=json. Then we send it to the flog. We make no attempt to # match apache formatting. TODO: when we move to DSA dirnodes and # shorter caps, consider exposing a few characters of the cap, or # maybe a few characters of its hash. x = self.uri.split("?", 1) if len(x) == 1: # no query args path = self.uri queryargs = "" else: path, queryargs = x # there is a form handler which redirects POST /uri?uri=FOO into # GET /uri/FOO so folks can paste in non-HTTP-prefixed uris. Make # sure we censor these too. if queryargs.startswith("uri="): queryargs = "[uri=CENSORED]" queryargs = "?" + queryargs if path.startswith("/uri"): path = "/uri/[CENSORED].." uri = path + queryargs log.msg(format="web: %(clientip)s %(method)s %(uri)s %(code)s %(length)s", clientip=self.getClientIP(), method=self.method, uri=uri, code=self.code, length=(self.sentLength or "-"), facility="tahoe.webish", level=log.OPERATIONAL, ) class Directory(rend.Page): addSlash = True docFactory = getxmlfile("directory.xhtml") def __init__(self, rootname, dirnode, dirpath): self._rootname = rootname self._dirnode = dirnode self._dirpath = dirpath def dirpath_as_string(self): return "/" + "/".join(self._dirpath) def render_title(self, ctx, data): return ctx.tag["Directory '%s':" % self.dirpath_as_string()] def render_header(self, ctx, data): parent_directories = ("<%s>" % self._rootname,) + self._dirpath num_dirs = len(parent_directories) header = ["Directory '"] for i,d in enumerate(parent_directories): upness = num_dirs - i - 1 if upness: link = "/".join( ("..",) * upness ) else: link = "." header.append(T.a(href=link)[d]) if upness != 0: header.append("/") header.append("'") if self._dirnode.is_readonly(): header.append(" (readonly)") header.append(":") return ctx.tag[header] def render_welcome(self, ctx, data): depth = len(self._dirpath) + 2 link = "/".join([".."] * depth) return T.div[T.a(href=link)["Return to Welcome page"]] def data_children(self, ctx, data): d = self._dirnode.list() d.addCallback(lambda dict: sorted(dict.items())) def _stall_some(items): # Deferreds don't optimize out tail recursion, and the way # Nevow's flattener handles Deferreds doesn't take this into # account. As a result, large lists of Deferreds that fire in the # same turn (i.e. the output of defer.succeed) will cause a stack # overflow. To work around this, we insert a turn break after # every 100 items, using foolscap's fireEventually(). This gives # the stack a chance to be popped. It would also work to put # every item in its own turn, but that'd be a lot more # inefficient. This addresses ticket #237, for which I was never # able to create a failing unit test. output = [] for i,item in enumerate(items): if i % 100 == 0: output.append(fireEventually(item)) else: output.append(item) return output d.addCallback(_stall_some) return d def render_row(self, ctx, data): name, (target, metadata) = data name = name.encode("utf-8") assert not isinstance(name, unicode) if self._dirnode.is_readonly(): delete = "-" rename = "-" else: # this creates a button which will cause our child__delete method # to be invoked, which deletes the file and then redirects the # browser back to this directory delete = T.form(action=url.here, method="post")[ T.input(type='hidden', name='t', value='delete'), T.input(type='hidden', name='name', value=name), T.input(type='hidden', name='when_done', value=url.here), T.input(type='submit', value='del', name="del"), ] rename = T.form(action=url.here, method="get")[ T.input(type='hidden', name='t', value='rename-form'), T.input(type='hidden', name='name', value=name), T.input(type='hidden', name='when_done', value=url.here), T.input(type='submit', value='rename', name="rename"), ] ctx.fillSlots("delete", delete) ctx.fillSlots("rename", rename) check = T.form(action=url.here, method="post")[ T.input(type='hidden', name='t', value='check'), T.input(type='hidden', name='name', value=name), T.input(type='hidden', name='when_done', value=url.here), T.input(type='submit', value='check', name="check"), ] ctx.fillSlots("overwrite", self.build_overwrite(ctx, (name, target))) ctx.fillSlots("check", check) times = [] TIME_FORMAT = "%H:%M:%S %d-%b-%Y" if "ctime" in metadata: ctime = time.strftime(TIME_FORMAT, time.localtime(metadata["ctime"])) times.append("c: " + ctime) if "mtime" in metadata: mtime = time.strftime(TIME_FORMAT, time.localtime(metadata["mtime"])) if times: times.append(T.br()) times.append("m: " + mtime) ctx.fillSlots("times", times) # build the base of the uri_link link url uri_link = "/uri/" + urllib.quote(target.get_uri()) assert (IFileNode.providedBy(target) or IDirectoryNode.providedBy(target) or IMutableFileNode.providedBy(target)), target if IMutableFileNode.providedBy(target): # file # add the filename to the uri_link url uri_link += '?%s' % (urllib.urlencode({'filename': name}),) # to prevent javascript in displayed .html files from stealing a # secret directory URI from the URL, send the browser to a URI-based # page that doesn't know about the directory at all #dlurl = urllib.quote(name) dlurl = uri_link ctx.fillSlots("filename", T.a(href=dlurl)[html.escape(name)]) ctx.fillSlots("type", "SSK") ctx.fillSlots("size", "?") text_plain_link = uri_link + "?filename=foo.txt" text_plain_tag = T.a(href=text_plain_link)["text/plain"] elif IFileNode.providedBy(target): # file # add the filename to the uri_link url uri_link += '?%s' % (urllib.urlencode({'filename': name}),) # to prevent javascript in displayed .html files from stealing a # secret directory URI from the URL, send the browser to a URI-based # page that doesn't know about the directory at all #dlurl = urllib.quote(name) dlurl = uri_link ctx.fillSlots("filename", T.a(href=dlurl)[html.escape(name)]) ctx.fillSlots("type", "FILE") ctx.fillSlots("size", target.get_size()) text_plain_link = uri_link + "?filename=foo.txt" text_plain_tag = T.a(href=text_plain_link)["text/plain"] elif IDirectoryNode.providedBy(target): # directory ctx.fillSlots("filename", T.a(href=uri_link)[html.escape(name)]) if target.is_readonly(): dirtype = "DIR-RO" else: dirtype = "DIR" ctx.fillSlots("type", dirtype) ctx.fillSlots("size", "-") text_plain_tag = None childdata = [T.a(href="%s?t=json" % name)["JSON"], ", ", T.a(href="%s?t=uri" % name)["URI"], ", ", T.a(href="%s?t=readonly-uri" % name)["readonly-URI"], ] if text_plain_tag: childdata.extend([", ", text_plain_tag]) ctx.fillSlots("data", childdata) try: checker = IClient(ctx).getServiceNamed("checker") except KeyError: checker = None if checker: d = defer.maybeDeferred(checker.checker_results_for, target.get_verifier()) def _got(checker_results): recent_results = reversed(checker_results[-5:]) if IFileNode.providedBy(target): results = ("[" + ", ".join(["%d/%d" % (found, needed) for (when, (needed, total, found, sharemap)) in recent_results]) + "]") elif IDirectoryNode.providedBy(target): results = ("[" + "".join([{True:"+",False:"-"}[res] for (when, res) in recent_results]) + "]") else: results = "%d results" % len(checker_results) return results d.addCallback(_got) results = d else: results = "--" # TODO: include a link to see more results, including timestamps # TODO: use a sparkline ctx.fillSlots("checker_results", results) return ctx.tag def render_forms(self, ctx, data): if self._dirnode.is_readonly(): return T.div["No upload forms: directory is read-only"] mkdir = T.form(action=".", method="post", enctype="multipart/form-data")[ T.fieldset[ T.input(type="hidden", name="t", value="mkdir"), T.input(type="hidden", name="when_done", value=url.here), T.legend(class_="freeform-form-label")["Create a new directory"], "New directory name: ", T.input(type="text", name="name"), " ", T.input(type="submit", value="Create"), ]] upload = T.form(action=".", method="post", enctype="multipart/form-data")[ T.fieldset[ T.input(type="hidden", name="t", value="upload"), T.input(type="hidden", name="when_done", value=url.here), T.legend(class_="freeform-form-label")["Upload a file to this directory"], "Choose a file to upload: ", T.input(type="file", name="file", class_="freeform-input-file"), " ", T.input(type="submit", value="Upload"), " Mutable?:", T.input(type="checkbox", name="mutable"), ]] mount = T.form(action=".", method="post", enctype="multipart/form-data")[ T.fieldset[ T.input(type="hidden", name="t", value="uri"), T.input(type="hidden", name="when_done", value=url.here), T.legend(class_="freeform-form-label")["Attach a file or directory" " (by URI) to this" " directory"], "New child name: ", T.input(type="text", name="name"), " ", "URI of new child: ", T.input(type="text", name="uri"), " ", T.input(type="submit", value="Attach"), ]] return [T.div(class_="freeform-form")[mkdir], T.div(class_="freeform-form")[upload], T.div(class_="freeform-form")[mount], ] def build_overwrite(self, ctx, data): name, target = data if IMutableFileNode.providedBy(target) and not target.is_readonly(): action="/uri/" + urllib.quote(target.get_uri()) overwrite = T.form(action=action, method="post", enctype="multipart/form-data")[ T.fieldset[ T.input(type="hidden", name="t", value="overwrite"), T.input(type='hidden', name='name', value=name), T.input(type='hidden', name='when_done', value=url.here), T.legend(class_="freeform-form-label")["Overwrite"], "Choose new file: ", T.input(type="file", name="file", class_="freeform-input-file"), " ", T.input(type="submit", value="Overwrite") ]] return [T.div(class_="freeform-form")[overwrite],] else: return [] def render_results(self, ctx, data): req = inevow.IRequest(ctx) return get_arg(req, "results", "") class WebDownloadTarget: implements(IDownloadTarget, IConsumer) def __init__(self, req, content_type, content_encoding, save_to_file): self._req = req self._content_type = content_type self._content_encoding = content_encoding self._opened = False self._producer = None self._save_to_file = save_to_file def registerProducer(self, producer, streaming): self._req.registerProducer(producer, streaming) def unregisterProducer(self): self._req.unregisterProducer() def open(self, size): self._opened = True self._req.setHeader("content-type", self._content_type) if self._content_encoding: self._req.setHeader("content-encoding", self._content_encoding) self._req.setHeader("content-length", str(size)) if self._save_to_file is not None: # tell the browser to save the file rather display it # TODO: quote save_to_file properly filename = self._save_to_file.encode("utf-8") self._req.setHeader("content-disposition", 'attachment; filename="%s"' % filename) def write(self, data): self._req.write(data) def close(self): self._req.finish() def fail(self, why): if self._opened: # The content-type is already set, and the response code # has already been sent, so we can't provide a clean error # indication. We can emit text (which a browser might interpret # as something else), and if we sent a Size header, they might # notice that we've truncated the data. Keep the error message # small to improve the chances of having our error response be # shorter than the intended results. # # We don't have a lot of options, unfortunately. self._req.write("problem during download\n") else: # We haven't written anything yet, so we can provide a sensible # error message. msg = str(why.type) msg.replace("\n", "|") self._req.setResponseCode(http.GONE, msg) self._req.setHeader("content-type", "text/plain") # TODO: HTML-formatted exception? self._req.write(str(why)) self._req.finish() def register_canceller(self, cb): pass def finish(self): pass class FileDownloader(resource.Resource): def __init__(self, filenode, name): assert (IFileNode.providedBy(filenode) or IMutableFileNode.providedBy(filenode)) self._filenode = filenode self._name = name def render(self, req): gte = static.getTypeAndEncoding ctype, encoding = gte(self._name, static.File.contentTypes, static.File.contentEncodings, defaultType="text/plain") save_to_file = None if get_arg(req, "save", False): # TODO: make the API specification clear: should "save=" or # "save=false" count? save_to_file = self._name wdt = WebDownloadTarget(req, ctype, encoding, save_to_file) d = self._filenode.download(wdt) # exceptions during download are handled by the WebDownloadTarget d.addErrback(lambda why: None) return server.NOT_DONE_YET class BlockingFileError(Exception): """We cannot auto-create a parent directory, because there is a file in the way""" class NoReplacementError(Exception): """There was already a child by that name, and you asked me to not replace it""" class NoLocalDirectoryError(Exception): """The localdir= directory didn't exist""" LOCALHOST = "127.0.0.1" class NeedLocalhostError: implements(inevow.IResource) def renderHTTP(self, ctx): req = inevow.IRequest(ctx) req.setResponseCode(http.FORBIDDEN) req.setHeader("content-type", "text/plain") return "localfile= or localdir= requires a local connection" class NeedAbsolutePathError: implements(inevow.IResource) def renderHTTP(self, ctx): req = inevow.IRequest(ctx) req.setResponseCode(http.FORBIDDEN) req.setHeader("content-type", "text/plain") return "localfile= or localdir= requires an absolute path" class LocalAccessDisabledError: implements(inevow.IResource) def renderHTTP(self, ctx): req = inevow.IRequest(ctx) req.setResponseCode(http.FORBIDDEN) req.setHeader("content-type", "text/plain") return "local file access is disabled" class WebError: implements(inevow.IResource) def __init__(self, response_code, errmsg): self._response_code = response_code self._errmsg = errmsg def renderHTTP(self, ctx): req = inevow.IRequest(ctx) req.setResponseCode(self._response_code) req.setHeader("content-type", "text/plain") return self._errmsg class LocalFileDownloader(resource.Resource): def __init__(self, filenode, local_filename): self._local_filename = local_filename IFileNode(filenode) self._filenode = filenode def render(self, req): target = download.FileName(self._local_filename) d = self._filenode.download(target) def _done(res): req.write(self._filenode.get_uri()) req.finish() d.addCallback(_done) return server.NOT_DONE_YET class FileJSONMetadata(rend.Page): def __init__(self, filenode): self._filenode = filenode def renderHTTP(self, ctx): req = inevow.IRequest(ctx) req.setHeader("content-type", "text/plain") return self.renderNode(self._filenode) def renderNode(self, filenode): file_uri = filenode.get_uri() data = ("filenode", {'ro_uri': file_uri, 'size': filenode.get_size(), }) return simplejson.dumps(data, indent=1) class FileURI(FileJSONMetadata): def renderNode(self, filenode): file_uri = filenode.get_uri() return file_uri class FileReadOnlyURI(FileJSONMetadata): def renderNode(self, filenode): if filenode.is_readonly(): return filenode.get_uri() else: return filenode.get_readonly().get_uri() class DirnodeWalkerMixin: """Visit all nodes underneath (and including) the rootnode, one at a time. For each one, call the visitor. The visitor will see the IDirectoryNode before it sees any of the IFileNodes inside. If the visitor returns a Deferred, I do not call the visitor again until it has fired. """ ## def _walk_if_we_could_use_generators(self, rootnode, rootpath=()): ## # this is what we'd be doing if we didn't have the Deferreds and ## # thus could use generators ## yield rootpath, rootnode ## for childname, childnode in rootnode.list().items(): ## childpath = rootpath + (childname,) ## if IFileNode.providedBy(childnode): ## yield childpath, childnode ## elif IDirectoryNode.providedBy(childnode): ## for res in self._walk_if_we_could_use_generators(childnode, ## childpath): ## yield res def walk(self, rootnode, visitor, rootpath=()): d = rootnode.list() def _listed(listing): return listing.items() d.addCallback(_listed) d.addCallback(self._handle_items, visitor, rootpath) return d def _handle_items(self, items, visitor, rootpath): if not items: return childname, (childnode, metadata) = items[0] childpath = rootpath + (childname,) d = defer.maybeDeferred(visitor, childpath, childnode, metadata) if IDirectoryNode.providedBy(childnode): d.addCallback(lambda res: self.walk(childnode, visitor, childpath)) d.addCallback(lambda res: self._handle_items(items[1:], visitor, rootpath)) return d class LocalDirectoryDownloader(resource.Resource, DirnodeWalkerMixin): def __init__(self, dirnode, localdir): self._dirnode = dirnode self._localdir = localdir def _handle(self, path, node, metadata): path = tuple([p.encode("utf-8") for p in path]) localfile = os.path.join(self._localdir, os.sep.join(path)) if IDirectoryNode.providedBy(node): fileutil.make_dirs(localfile) elif IFileNode.providedBy(node): target = download.FileName(localfile) return node.download(target) def render(self, req): d = self.walk(self._dirnode, self._handle) def _done(res): req.setHeader("content-type", "text/plain") return "operation complete" d.addCallback(_done) return d class DirectoryJSONMetadata(rend.Page): def __init__(self, dirnode): self._dirnode = dirnode def renderHTTP(self, ctx): req = inevow.IRequest(ctx) req.setHeader("content-type", "text/plain") return self.renderNode(self._dirnode) def renderNode(self, node): d = node.list() def _got(children): kids = {} for name, (childnode, metadata) in children.iteritems(): if IFileNode.providedBy(childnode): kiduri = childnode.get_uri() kiddata = ("filenode", {'ro_uri': kiduri, 'size': childnode.get_size(), 'metadata': metadata, }) else: assert IDirectoryNode.providedBy(childnode), (childnode, children,) kiddata = ("dirnode", {'ro_uri': childnode.get_readonly_uri(), 'metadata': metadata, }) if not childnode.is_readonly(): kiddata[1]['rw_uri'] = childnode.get_uri() kids[name] = kiddata contents = { 'children': kids, 'ro_uri': node.get_readonly_uri(), } if not node.is_readonly(): contents['rw_uri'] = node.get_uri() data = ("dirnode", contents) return simplejson.dumps(data, indent=1) d.addCallback(_got) return d class DirectoryURI(DirectoryJSONMetadata): def renderNode(self, node): return node.get_uri() class DirectoryReadonlyURI(DirectoryJSONMetadata): def renderNode(self, node): return node.get_readonly_uri() class RenameForm(rend.Page): addSlash = True docFactory = getxmlfile("rename-form.xhtml") def __init__(self, rootname, dirnode, dirpath): self._rootname = rootname self._dirnode = dirnode self._dirpath = dirpath def dirpath_as_string(self): return "/" + "/".join(self._dirpath) def render_title(self, ctx, data): return ctx.tag["Directory '%s':" % self.dirpath_as_string()] def render_header(self, ctx, data): parent_directories = ("<%s>" % self._rootname,) + self._dirpath num_dirs = len(parent_directories) header = [ "Rename in directory '", "<%s>/" % self._rootname, "/".join(self._dirpath), "':", ] if self._dirnode.is_readonly(): header.append(" (readonly)") return ctx.tag[header] def render_when_done(self, ctx, data): return T.input(type="hidden", name="when_done", value=url.here) def render_get_name(self, ctx, data): req = inevow.IRequest(ctx) name = get_arg(req, "name", "") ctx.tag.attributes['value'] = name return ctx.tag class POSTHandler(rend.Page): def __init__(self, node, replace): self._node = node self._replace = replace def _check_replacement(self, name): if self._replace: return defer.succeed(None) d = self._node.has_child(name) def _got(present): if present: raise NoReplacementError("There was already a child by that " "name, and you asked me to not " "replace it.") return None d.addCallback(_got) return d def _POST_mkdir(self, name): d = self._check_replacement(name) d.addCallback(lambda res: self._node.create_empty_directory(name)) d.addCallback(lambda res: "directory created") return d def _POST_uri(self, name, newuri): d = self._check_replacement(name) d.addCallback(lambda res: self._node.set_uri(name, newuri)) d.addCallback(lambda res: newuri) return d def _POST_delete(self, name): if name is None: # apparently an # won't show up in the resulting encoded form.. the 'name' # field is completely missing. So to allow deletion of an # empty file, we have to pretend that None means ''. The only # downide of this is a slightly confusing error message if # someone does a POST without a name= field. For our own HTML # thisn't a big deal, because we create the 'delete' POST # buttons ourselves. name = '' d = self._node.delete(name) d.addCallback(lambda res: "thing deleted") return d def _POST_rename(self, name, from_name, to_name): d = self._check_replacement(to_name) d.addCallback(lambda res: self._node.get(from_name)) def add_dest(child): uri = child.get_uri() # now actually do the rename return self._node.set_uri(to_name, uri) d.addCallback(add_dest) def rm_src(junk): return self._node.delete(from_name) d.addCallback(rm_src) d.addCallback(lambda res: "thing renamed") return d def _POST_upload(self, contents, name, mutable, client): if mutable: # SDMF: files are small, and we can only upload data. contents.file.seek(0) data = contents.file.read() #uploadable = FileHandle(contents.file) d = self._check_replacement(name) d.addCallback(lambda res: self._node.has_child(name)) def _checked(present): if present: # modify the existing one instead of creating a new # one d2 = self._node.get(name) def _got_newnode(newnode): d3 = newnode.replace(data) d3.addCallback(lambda res: newnode.get_uri()) return d3 d2.addCallback(_got_newnode) else: d2 = client.create_mutable_file(data) def _uploaded(newnode): d1 = self._node.set_node(name, newnode) d1.addCallback(lambda res: newnode.get_uri()) return d1 d2.addCallback(_uploaded) return d2 d.addCallback(_checked) else: uploadable = FileHandle(contents.file) d = self._check_replacement(name) d.addCallback(lambda res: self._node.add_file(name, uploadable)) def _done(newnode): return newnode.get_uri() d.addCallback(_done) return d def _POST_overwrite(self, contents): # SDMF: files are small, and we can only upload data. contents.file.seek(0) data = contents.file.read() # TODO: 'name' handling needs review d = defer.succeed(self._node) def _got_child_overwrite(child_node): child_node.replace(data) return child_node.get_uri() d.addCallback(_got_child_overwrite) return d def _POST_check(self, name): d = self._node.get(name) def _got_child_check(child_node): d2 = child_node.check() def _done(res): log.msg("checked %s, results %s" % (child_node, res), facility="tahoe.webish", level=log.NOISY) return str(res) d2.addCallback(_done) return d2 d.addCallback(_got_child_check) return d def _POST_set_children(self, children): cs = [] for name, (file_or_dir, mddict) in children.iteritems(): cap = str(mddict.get('rw_uri') or mddict.get('ro_uri')) cs.append((name, cap, mddict.get('metadata'))) d = self._node.set_children(cs) d.addCallback(lambda res: "Okay so I did it.") return d def renderHTTP(self, ctx): req = inevow.IRequest(ctx) t = get_arg(req, "t") assert t is not None charset = get_arg(req, "_charset", "utf-8") name = get_arg(req, "name", None) if name and "/" in name: req.setResponseCode(http.BAD_REQUEST) req.setHeader("content-type", "text/plain") return "name= may not contain a slash" if name is not None: name = name.strip() name = name.decode(charset) assert isinstance(name, unicode) # we allow the user to delete an empty-named file, but not to create # them, since that's an easy and confusing mistake to make when_done = get_arg(req, "when_done", None) if not boolean_of_arg(get_arg(req, "replace", "true")): self._replace = False if t == "mkdir": if not name: raise RuntimeError("mkdir requires a name") d = self._POST_mkdir(name) elif t == "uri": if not name: raise RuntimeError("set-uri requires a name") newuri = get_arg(req, "uri") assert newuri is not None d = self._POST_uri(name, newuri) elif t == "delete": d = self._POST_delete(name) elif t == "rename": from_name = get_arg(req, "from_name") if from_name is not None: from_name = from_name.strip() from_name = from_name.decode(charset) assert isinstance(from_name, unicode) to_name = get_arg(req, "to_name") if to_name is not None: to_name = to_name.strip() to_name = to_name.decode(charset) assert isinstance(to_name, unicode) if not from_name or not to_name: raise RuntimeError("rename requires from_name and to_name") if not IDirectoryNode.providedBy(self._node): raise RuntimeError("rename must only be called on directories") for k,v in [ ('from_name', from_name), ('to_name', to_name) ]: if v and "/" in v: req.setResponseCode(http.BAD_REQUEST) req.setHeader("content-type", "text/plain") return "%s= may not contain a slash" % (k,) d = self._POST_rename(name, from_name, to_name) elif t == "upload": contents = req.fields["file"] name = name or contents.filename if name is not None: name = name.strip() if not name: # this prohibts empty, missing, and all-whitespace filenames raise RuntimeError("upload requires a name") name = name.decode(charset) assert isinstance(name, unicode) mutable = boolean_of_arg(get_arg(req, "mutable", "false")) d = self._POST_upload(contents, name, mutable, IClient(ctx)) elif t == "overwrite": contents = req.fields["file"] d = self._POST_overwrite(contents) elif t == "check": d = self._POST_check(name) elif t == "set_children": req.content.seek(0) body = req.content.read() try: children = simplejson.loads(body) except ValueError, le: le.args = tuple(le.args + (body,)) # TODO test handling of bad JSON raise d = self._POST_set_children(children) else: print "BAD t=%s" % t return "BAD t=%s" % t if when_done: d.addCallback(lambda res: url.URL.fromString(when_done)) def _check_replacement(f): # TODO: make this more human-friendly: maybe send them to the # when_done page but with an extra query-arg that will display # the error message in a big box at the top of the page. The # directory page that when_done= usually points to accepts a # result= argument.. use that. f.trap(NoReplacementError) req.setResponseCode(http.CONFLICT) req.setHeader("content-type", "text/plain") return str(f.value) d.addErrback(_check_replacement) return d class DELETEHandler(rend.Page): def __init__(self, node, name): self._node = node self._name = name def renderHTTP(self, ctx): req = inevow.IRequest(ctx) d = self._node.delete(self._name) def _done(res): # what should this return?? return "%s deleted" % self._name.encode("utf-8") d.addCallback(_done) def _trap_missing(f): f.trap(KeyError) req.setResponseCode(http.NOT_FOUND) req.setHeader("content-type", "text/plain") return "no such child %s" % self._name.encode("utf-8") d.addErrback(_trap_missing) return d class PUTHandler(rend.Page): def __init__(self, node, path, t, localfile, localdir, replace): self._node = node self._path = path self._t = t self._localfile = localfile self._localdir = localdir self._replace = replace def renderHTTP(self, ctx): req = inevow.IRequest(ctx) t = self._t localfile = self._localfile localdir = self._localdir if t == "upload" and not (localfile or localdir): req.setResponseCode(http.BAD_REQUEST) req.setHeader("content-type", "text/plain") return "t=upload requires localfile= or localdir=" # we must traverse the path, creating new directories as necessary d = self._get_or_create_directories(self._node, self._path[:-1]) name = self._path[-1] d.addCallback(self._check_replacement, name, self._replace) if t == "upload": if localfile: d.addCallback(self._upload_localfile, localfile, name) else: # localdir # take the last step d.addCallback(self._get_or_create_directories, self._path[-1:]) d.addCallback(self._upload_localdir, localdir) elif t == "uri": d.addCallback(self._attach_uri, req.content, name) elif t == "mkdir": d.addCallback(self._mkdir, name) else: d.addCallback(self._upload_file, req.content, name) def _transform_error(f): errors = {BlockingFileError: http.BAD_REQUEST, NoReplacementError: http.CONFLICT, NoLocalDirectoryError: http.BAD_REQUEST, } for k,v in errors.items(): if f.check(k): req.setResponseCode(v) req.setHeader("content-type", "text/plain") return str(f.value) return f d.addErrback(_transform_error) return d def _get_or_create_directories(self, node, path): if not IDirectoryNode.providedBy(node): # unfortunately it is too late to provide the name of the # blocking directory in the error message. raise BlockingFileError("cannot create directory because there " "is a file in the way") if not path: return defer.succeed(node) d = node.get(path[0]) def _maybe_create(f): f.trap(KeyError) return node.create_empty_directory(path[0]) d.addErrback(_maybe_create) d.addCallback(self._get_or_create_directories, path[1:]) return d def _check_replacement(self, node, name, replace): if replace: return node d = node.has_child(name) def _got(present): if present: raise NoReplacementError("There was already a child by that " "name, and you asked me to not " "replace it.") return node d.addCallback(_got) return d def _mkdir(self, node, name): d = node.create_empty_directory(name) def _done(newnode): return newnode.get_uri() d.addCallback(_done) return d def _upload_file(self, node, contents, name): uploadable = FileHandle(contents) d = node.add_file(name, uploadable) def _done(filenode): log.msg("webish upload complete", facility="tahoe.webish", level=log.NOISY) return filenode.get_uri() d.addCallback(_done) return d def _upload_localfile(self, node, localfile, name): uploadable = FileName(localfile) d = node.add_file(name, uploadable) d.addCallback(lambda filenode: filenode.get_uri()) return d def _attach_uri(self, parentnode, contents, name): newuri = contents.read().strip() d = parentnode.set_uri(name, newuri) def _done(res): return newuri d.addCallback(_done) return d def _upload_localdir(self, node, localdir): # build up a list of files to upload. TODO: for now, these files and # directories must have UTF-8 encoded filenames: anything else will # cause the upload to break. all_files = [] all_dirs = [] msg = "No files to upload! %s is empty" % localdir if not os.path.exists(localdir): msg = "%s doesn't exist!" % localdir raise NoLocalDirectoryError(msg) for root, dirs, files in os.walk(localdir): if root == localdir: path = () else: relative_root = root[len(localdir)+1:] path = tuple(relative_root.split(os.sep)) for d in dirs: this_dir = path + (d,) this_dir = tuple([p.decode("utf-8") for p in this_dir]) all_dirs.append(this_dir) for f in files: this_file = path + (f,) this_file = tuple([p.decode("utf-8") for p in this_file]) all_files.append(this_file) d = defer.succeed(msg) for dir in all_dirs: if dir: d.addCallback(self._makedir, node, dir) for f in all_files: d.addCallback(self._upload_one_file, node, localdir, f) return d def _makedir(self, res, node, dir): d = defer.succeed(None) # get the parent. As long as os.walk gives us parents before # children, this ought to work d.addCallback(lambda res: node.get_child_at_path(dir[:-1])) # then create the child directory d.addCallback(lambda parent: parent.create_empty_directory(dir[-1])) return d def _upload_one_file(self, res, node, localdir, f): # get the parent. We can be sure this exists because we already # went through and created all the directories we require. localfile = os.path.join(localdir, *f) d = node.get_child_at_path(f[:-1]) d.addCallback(self._upload_localfile, localfile, f[-1]) return d class Manifest(rend.Page): docFactory = getxmlfile("manifest.xhtml") def __init__(self, dirnode, dirpath): self._dirnode = dirnode self._dirpath = dirpath def dirpath_as_string(self): return "/" + "/".join(self._dirpath) def render_title(self, ctx): return T.title["Manifest of %s" % self.dirpath_as_string()] def render_header(self, ctx): return T.p["Manifest of %s" % self.dirpath_as_string()] def data_items(self, ctx, data): return self._dirnode.build_manifest() def render_row(self, ctx, refresh_cap): ctx.fillSlots("refresh_capability", refresh_cap) return ctx.tag class ChildError: implements(inevow.IResource) def renderHTTP(self, ctx): req = inevow.IRequest(ctx) req.setResponseCode(http.BAD_REQUEST) req.setHeader("content-type", "text/plain") return self.text def child_error(text): ce = ChildError() ce.text = text return ce, () class VDrive(rend.Page): def __init__(self, node, name): self.node = node self.name = name def get_child_at_path(self, path): if path: return self.node.get_child_at_path(path) return defer.succeed(self.node) def locateChild(self, ctx, segments): req = inevow.IRequest(ctx) method = req.method path = tuple([seg.decode("utf-8") for seg in segments]) t = get_arg(req, "t", "") localfile = get_arg(req, "localfile", None) if localfile is not None: if localfile != os.path.abspath(localfile): return NeedAbsolutePathError(), () localdir = get_arg(req, "localdir", None) if localdir is not None: if localdir != os.path.abspath(localdir): return NeedAbsolutePathError(), () if localfile or localdir: if not ILocalAccess(ctx).local_access_is_allowed(): return LocalAccessDisabledError(), () if req.getHost().host != LOCALHOST: return NeedLocalhostError(), () # TODO: think about clobbering/revealing config files and node secrets replace = boolean_of_arg(get_arg(req, "replace", "true")) if method == "GET": # the node must exist, and our operation will be performed on the # node itself. d = self.get_child_at_path(path) def file_or_dir(node): if (IFileNode.providedBy(node) or IMutableFileNode.providedBy(node)): filename = "unknown" if path: filename = path[-1] filename = get_arg(req, "filename", filename) if t == "download": if localfile: # write contents to a local file return LocalFileDownloader(node, localfile), () # send contents as the result return FileDownloader(node, filename), () elif t == "": # send contents as the result return FileDownloader(node, filename), () elif t == "json": return FileJSONMetadata(node), () elif t == "uri": return FileURI(node), () elif t == "readonly-uri": return FileReadOnlyURI(node), () else: return child_error("bad t=%s" % t) elif IDirectoryNode.providedBy(node): if t == "download": if localdir: # recursive download to a local directory return LocalDirectoryDownloader(node, localdir), () return child_error("t=download requires localdir=") elif t == "": # send an HTML representation of the directory return Directory(self.name, node, path), () elif t == "json": return DirectoryJSONMetadata(node), () elif t == "uri": return DirectoryURI(node), () elif t == "readonly-uri": return DirectoryReadonlyURI(node), () elif t == "manifest": return Manifest(node, path), () elif t == 'rename-form': return RenameForm(self.name, node, path), () else: return child_error("bad t=%s" % t) else: return child_error("unknown node type") d.addCallback(file_or_dir) elif method == "POST": # the node must exist, and our operation will be performed on the # node itself. d = self.get_child_at_path(path) def _got_POST(node): return POSTHandler(node, replace), () d.addCallback(_got_POST) elif method == "DELETE": # the node must exist, and our operation will be performed on its # parent node. assert path # you can't delete the root d = self.get_child_at_path(path[:-1]) def _got_DELETE(node): return DELETEHandler(node, path[-1]), () d.addCallback(_got_DELETE) elif method in ("PUT",): # the node may or may not exist, and our operation may involve # all the ancestors of the node. return PUTHandler(self.node, path, t, localfile, localdir, replace), () else: return rend.NotFound return d class UnlinkedPUTCHKUploader(rend.Page): def renderHTTP(self, ctx): req = inevow.IRequest(ctx) assert req.method == "PUT" # "PUT /uri", to create an unlinked file. This is like PUT but # without the associated set_uri. uploadable = FileHandle(req.content) d = IClient(ctx).upload(uploadable) d.addCallback(lambda results: results.uri) # that fires with the URI of the new file return d class UnlinkedPUTSSKUploader(rend.Page): def renderHTTP(self, ctx): req = inevow.IRequest(ctx) assert req.method == "PUT" # SDMF: files are small, and we can only upload data req.content.seek(0) data = req.content.read() d = IClient(ctx).create_mutable_file(data) d.addCallback(lambda n: n.get_uri()) return d class UnlinkedPUTCreateDirectory(rend.Page): def renderHTTP(self, ctx): req = inevow.IRequest(ctx) assert req.method == "PUT" # "PUT /uri?t=mkdir", to create an unlinked directory. d = IClient(ctx).create_empty_dirnode() d.addCallback(lambda dirnode: dirnode.get_uri()) # XXX add redirect_to_result return d class UnlinkedPOSTCHKUploader(rend.Page): """'POST /uri', to create an unlinked file.""" docFactory = getxmlfile("unlinked-upload.xhtml") def __init__(self, client, req): rend.Page.__init__(self) # we start the upload now, and distribute notification of its # completion to render_ methods with an ObserverList assert req.method == "POST" self._done = observer.OneShotObserverList() fileobj = req.fields["file"].file uploadable = FileHandle(fileobj) d = client.upload(uploadable) d.addBoth(self._done.fire) def renderHTTP(self, ctx): req = inevow.IRequest(ctx) when_done = get_arg(req, "when_done", None) if when_done: # if when_done= is provided, return a redirect instead of our # usual upload-results page d = self._done.when_fired() d.addCallback(lambda res: url.URL.fromString(when_done)) return d return rend.Page.renderHTTP(self, ctx) def upload_results(self): return self._done.when_fired() def data_done(self, ctx, data): d = self.upload_results() d.addCallback(lambda res: "done!") return d def data_uri(self, ctx, data): d = self.upload_results() d.addCallback(lambda res: res.uri) return d def render_download_link(self, ctx, data): d = self.upload_results() d.addCallback(lambda res: T.a(href="/uri/" + urllib.quote(res.uri)) ["/uri/" + res.uri]) return d def render_sharemap(self, ctx, data): d = self.upload_results() d.addCallback(lambda res: res.sharemap) def _render(sharemap): if sharemap is None: return "None" l = T.ul() for shnum in sorted(sharemap.keys()): l[T.li["%d -> %s" % (shnum, sharemap[shnum])]] return l d.addCallback(_render) return d def render_servermap(self, ctx, data): d = self.upload_results() d.addCallback(lambda res: res.servermap) def _render(servermap): if servermap is None: return "None" l = T.ul() for peerid in sorted(servermap.keys()): peerid_s = idlib.shortnodeid_b2a(peerid) shares_s = ",".join([str(shnum) for shnum in servermap[peerid]]) l[T.li["[%s] got shares: %s" % (peerid_s, shares_s)]] return l d.addCallback(_render) return d def data_file_size(self, ctx, data): d = self.upload_results() d.addCallback(lambda res: res.file_size) return d def render_time(self, ctx, data): # 1.23s, 790ms, 132us if data is None: return "" s = float(data) if s >= 1.0: return "%.2fs" % s if s >= 0.01: return "%dms" % (1000*s) if s >= 0.001: return "%.1fms" % (1000*s) return "%dus" % (1000000*s) def render_rate(self, ctx, data): # 21.8kBps, 554.4kBps 4.37MBps if data is None: return "" r = float(data) if r > 1000000: return "%1.2fMBps" % (r/1000000) if r > 1000: return "%.1fkBps" % (r/1000) return "%dBps" % r def _get_time(self, name): d = self.upload_results() d.addCallback(lambda res: res.timings.get(name)) return d def data_time_total(self, ctx, data): return self._get_time("total") def data_time_storage_index(self, ctx, data): return self._get_time("storage_index") def data_time_contacting_helper(self, ctx, data): return self._get_time("contacting_helper") def data_time_existence_check(self, ctx, data): return self._get_time("existence_check") def data_time_cumulative_fetch(self, ctx, data): return self._get_time("cumulative_fetch") def data_time_helper_total(self, ctx, data): return self._get_time("helper_total") def data_time_peer_selection(self, ctx, data): return self._get_time("peer_selection") def data_time_total_encode_and_push(self, ctx, data): return self._get_time("total_encode_and_push") def data_time_cumulative_encoding(self, ctx, data): return self._get_time("cumulative_encoding") def data_time_cumulative_sending(self, ctx, data): return self._get_time("cumulative_sending") def data_time_hashes_and_close(self, ctx, data): return self._get_time("hashes_and_close") def _get_rate(self, name): d = self.upload_results() def _convert(r): file_size = r.file_size time = r.timings.get(name) if time is None: return None try: return 1.0 * file_size / time except ZeroDivisionError: return None d.addCallback(_convert) return d def data_rate_total(self, ctx, data): return self._get_rate("total") def data_rate_storage_index(self, ctx, data): return self._get_rate("storage_index") def data_rate_encode(self, ctx, data): return self._get_rate("cumulative_encoding") def data_rate_push(self, ctx, data): return self._get_rate("cumulative_sending") def data_rate_encode_and_push(self, ctx, data): d = self.upload_results() def _convert(r): file_size = r.file_size if file_size is None: return None time1 = r.timings.get("cumulative_encoding") if time1 is None: return None time2 = r.timings.get("cumulative_sending") if time2 is None: return None try: return 1.0 * file_size / (time1+time2) except ZeroDivisionError: return None d.addCallback(_convert) return d def data_rate_ciphertext_fetch(self, ctx, data): d = self.upload_results() def _convert(r): fetch_size = r.ciphertext_fetched if fetch_size is None: return None time = r.timings.get("cumulative_fetch") if time is None: return None try: return 1.0 * fetch_size / time except ZeroDivisionError: return None d.addCallback(_convert) return d class UnlinkedPOSTSSKUploader(rend.Page): def renderHTTP(self, ctx): req = inevow.IRequest(ctx) assert req.method == "POST" # "POST /uri", to create an unlinked file. # SDMF: files are small, and we can only upload data contents = req.fields["file"] contents.file.seek(0) data = contents.file.read() d = IClient(ctx).create_mutable_file(data) d.addCallback(lambda n: n.get_uri()) return d class UnlinkedPOSTCreateDirectory(rend.Page): def renderHTTP(self, ctx): req = inevow.IRequest(ctx) assert req.method == "POST" # "POST /uri?t=mkdir", to create an unlinked directory. d = IClient(ctx).create_empty_dirnode() redirect = get_arg(req, "redirect_to_result", "false") if boolean_of_arg(redirect): def _then_redir(res): new_url = "uri/" + urllib.quote(res.get_uri()) req.setResponseCode(http.SEE_OTHER) # 303 req.setHeader('location', new_url) req.finish() return '' d.addCallback(_then_redir) else: d.addCallback(lambda dirnode: dirnode.get_uri()) return d class UploadStatusPage(rend.Page): docFactory = getxmlfile("upload-status.xhtml") def render_si(self, ctx, data): si_s = base32.b2a_or_none(data.get_storage_index()) if si_s is None: si_s = "(None)" return si_s def render_helper(self, ctx, data): return {True: "Yes", False: "No"}[data.using_helper()] def render_total_size(self, ctx, data): size = data.get_size() if size is None: size = "(unknown)" return size def render_progress_hash(self, ctx, data): progress = data.get_progress()[0] # TODO: make an ascii-art bar return "%.1f%%" % (100.0 * progress) def render_progress_ciphertext(self, ctx, data): progress = data.get_progress()[1] # TODO: make an ascii-art bar return "%.1f%%" % (100.0 * progress) def render_progress_encode_push(self, ctx, data): progress = data.get_progress()[2] # TODO: make an ascii-art bar return "%.1f%%" % (100.0 * progress) def render_status(self, ctx, data): return data.get_status() class DownloadStatusPage(rend.Page): docFactory = getxmlfile("download-status.xhtml") def render_si(self, ctx, data): si_s = base32.b2a_or_none(data.get_storage_index()) if si_s is None: si_s = "(None)" return si_s def render_helper(self, ctx, data): return {True: "Yes", False: "No"}[data.using_helper()] def render_total_size(self, ctx, data): size = data.get_size() if size is None: size = "(unknown)" return size def render_progress(self, ctx, data): progress = data.get_progress() # TODO: make an ascii-art bar return "%.1f%%" % (100.0 * progress) def render_status(self, ctx, data): return data.get_status() class Status(rend.Page): docFactory = getxmlfile("status.xhtml") addSlash = True def data_active_uploads(self, ctx, data): return [u for u in IClient(ctx).list_all_uploads() if u.get_active()] def data_active_downloads(self, ctx, data): return [d for d in IClient(ctx).list_all_downloads() if d.get_active()] def data_recent_uploads(self, ctx, data): return [u for u in IClient(ctx).list_recent_uploads() if not u.get_active()] def data_recent_downloads(self, ctx, data): return [d for d in IClient(ctx).list_recent_downloads() if not d.get_active()] def childFactory(self, ctx, name): client = IClient(ctx) stype,count_s = name.split("-") count = int(count_s) if stype == "up": for s in client.list_recent_uploads(): if s.get_counter() == count: return UploadStatusPage(s) for s in client.list_all_uploads(): if s.get_counter() == count: return UploadStatusPage(s) if stype == "down": for s in client.list_recent_downloads(): if s.get_counter() == count: return DownloadStatusPage(s) for s in client.list_all_downloads(): if s.get_counter() == count: return DownloadStatusPage(s) def _render_common(self, ctx, data): s = data si_s = base32.b2a_or_none(s.get_storage_index()) if si_s is None: si_s = "(None)" ctx.fillSlots("si", si_s) ctx.fillSlots("helper", {True: "Yes", False: "No"}[s.using_helper()]) size = s.get_size() if size is None: size = "(unknown)" ctx.fillSlots("total_size", size) if IUploadStatus.providedBy(data): link = "up-%d" % data.get_counter() else: assert IDownloadStatus.providedBy(data) link = "down-%d" % data.get_counter() ctx.fillSlots("status", T.a(href=link)[s.get_status()]) def render_row_upload(self, ctx, data): self._render_common(ctx, data) (chk, ciphertext, encandpush) = data.get_progress() # TODO: make an ascii-art bar ctx.fillSlots("progress_hash", "%.1f%%" % (100.0 * chk)) ctx.fillSlots("progress_ciphertext", "%.1f%%" % (100.0 * ciphertext)) ctx.fillSlots("progress_encode", "%.1f%%" % (100.0 * encandpush)) return ctx.tag def render_row_download(self, ctx, data): self._render_common(ctx, data) progress = data.get_progress() # TODO: make an ascii-art bar ctx.fillSlots("progress", "%.1f%%" % (100.0 * progress)) return ctx.tag class Root(rend.Page): addSlash = True docFactory = getxmlfile("welcome.xhtml") def locateChild(self, ctx, segments): client = IClient(ctx) req = inevow.IRequest(ctx) segments = list(segments) # XXX HELP I AM YUCKY! while segments and not segments[-1]: segments.pop() if not segments: segments.append('') segments = tuple(segments) if segments: if segments[0] == "uri": if len(segments) == 1 or segments[1] == '': uri = get_arg(req, "uri", None) if uri is not None: there = url.URL.fromContext(ctx) there = there.clear("uri") there = there.child("uri").child(uri) return there, () if len(segments) == 1: # /uri if req.method == "PUT": # either "PUT /uri" to create an unlinked file, or # "PUT /uri?t=mkdir" to create an unlinked directory t = get_arg(req, "t", "").strip() if t == "": mutable = bool(get_arg(req, "mutable", "").strip()) if mutable: return UnlinkedPUTSSKUploader(), () else: return UnlinkedPUTCHKUploader(), () if t == "mkdir": return UnlinkedPUTCreateDirectory(), () errmsg = "/uri only accepts PUT and PUT?t=mkdir" return WebError(http.BAD_REQUEST, errmsg), () elif req.method == "POST": # "POST /uri?t=upload&file=newfile" to upload an # unlinked file or "POST /uri?t=mkdir" to create a # new directory t = get_arg(req, "t", "").strip() if t in ("", "upload"): mutable = bool(get_arg(req, "mutable", "").strip()) if mutable: return UnlinkedPOSTSSKUploader(), () else: return UnlinkedPOSTCHKUploader(client, req), () if t == "mkdir": return UnlinkedPOSTCreateDirectory(), () errmsg = "/uri accepts only PUT, PUT?t=mkdir, POST?t=upload, and POST?t=mkdir" return WebError(http.BAD_REQUEST, errmsg), () if len(segments) < 2: return rend.NotFound uri = segments[1] d = defer.maybeDeferred(client.create_node_from_uri, uri) d.addCallback(lambda node: VDrive(node, uri)) d.addCallback(lambda vd: vd.locateChild(ctx, segments[2:])) def _trap_KeyError(f): f.trap(KeyError) return rend.FourOhFour(), () d.addErrback(_trap_KeyError) return d elif segments[0] == "xmlrpc": raise NotImplementedError() return rend.Page.locateChild(self, ctx, segments) child_webform_css = webform.defaultCSS child_tahoe_css = nevow_File(resource_filename('allmydata.web', 'tahoe.css')) child_provisioning = provisioning.ProvisioningTool() child_status = Status() def data_version(self, ctx, data): return get_package_versions_string() def data_import_path(self, ctx, data): return str(allmydata) def data_my_nodeid(self, ctx, data): return idlib.nodeid_b2a(IClient(ctx).nodeid) def data_storage(self, ctx, data): client = IClient(ctx) try: ss = client.getServiceNamed("storage") except KeyError: return "Not running" allocated = ss.allocated_size() return "about %d bytes allocated" % allocated def data_introducer_furl(self, ctx, data): return IClient(ctx).introducer_furl def data_connected_to_introducer(self, ctx, data): if IClient(ctx).connected_to_introducer(): return "yes" return "no" def data_helper_furl(self, ctx, data): try: uploader = IClient(ctx).getServiceNamed("uploader") except KeyError: return None furl, connected = uploader.get_helper_info() return furl def data_connected_to_helper(self, ctx, data): try: uploader = IClient(ctx).getServiceNamed("uploader") except KeyError: return "no" # we don't even have an Uploader furl, connected = uploader.get_helper_info() if connected: return "yes" return "no" def data_known_storage_servers(self, ctx, data): ic = IClient(ctx).introducer_client servers = [c for c in ic.get_all_connectors().values() if c.service_name == "storage"] return len(servers) def data_connected_storage_servers(self, ctx, data): ic = IClient(ctx).introducer_client return len(ic.get_all_connections_for("storage")) def data_services(self, ctx, data): ic = IClient(ctx).introducer_client c = [ (service_name, nodeid, rsc) for (nodeid, service_name), rsc in ic.get_all_connectors().items() ] c.sort() return c def render_service_row(self, ctx, data): (service_name, nodeid, rsc) = data ctx.fillSlots("peerid", "%s %s" % (idlib.nodeid_b2a(nodeid), rsc.nickname)) if rsc.rref: rhost = rsc.remote_host if nodeid == IClient(ctx).nodeid: rhost_s = "(loopback)" elif isinstance(rhost, address.IPv4Address): rhost_s = "%s:%d" % (rhost.host, rhost.port) else: rhost_s = str(rhost) connected = "Yes: to " + rhost_s since = rsc.last_connect_time else: connected = "No" since = rsc.last_loss_time TIME_FORMAT = "%H:%M:%S %d-%b-%Y" ctx.fillSlots("connected", connected) ctx.fillSlots("since", time.strftime(TIME_FORMAT, time.localtime(since))) ctx.fillSlots("announced", time.strftime(TIME_FORMAT, time.localtime(rsc.announcement_time))) ctx.fillSlots("version", rsc.version) ctx.fillSlots("service_name", rsc.service_name) return ctx.tag def render_download_form(self, ctx, data): # this is a form where users can download files by URI form = T.form(action="uri", method="get", enctype="multipart/form-data")[ T.fieldset[ T.legend(class_="freeform-form-label")["Download a file"], "URI to download: ", T.input(type="text", name="uri"), " ", "Filename to download as: ", T.input(type="text", name="filename"), " ", T.input(type="submit", value="Download!"), ]] return T.div[form] def render_view_form(self, ctx, data): # this is a form where users can download files by URI, or jump to a # named directory form = T.form(action="uri", method="get", enctype="multipart/form-data")[ T.fieldset[ T.legend(class_="freeform-form-label")["View a file or directory"], "URI to view: ", T.input(type="text", name="uri"), " ", T.input(type="submit", value="View!"), ]] return T.div[form] def render_upload_form(self, ctx, data): # this is a form where users can upload unlinked files form = T.form(action="uri", method="post", enctype="multipart/form-data")[ T.fieldset[ T.legend(class_="freeform-form-label")["Upload a file"], "Choose a file: ", T.input(type="file", name="file", class_="freeform-input-file"), T.input(type="hidden", name="t", value="upload"), " Mutable?:", T.input(type="checkbox", name="mutable"), T.input(type="submit", value="Upload!"), ]] return T.div[form] def render_mkdir_form(self, ctx, data): # this is a form where users can create new directories form = T.form(action="uri", method="post", enctype="multipart/form-data")[ T.fieldset[ T.legend(class_="freeform-form-label")["Create a directory"], T.input(type="hidden", name="t", value="mkdir"), T.input(type="hidden", name="redirect_to_result", value="true"), T.input(type="submit", value="Create Directory!"), ]] return T.div[form] class LocalAccess: implements(ILocalAccess) def __init__(self): self.local_access = False def local_access_is_allowed(self): return self.local_access class WebishServer(service.MultiService): name = "webish" def __init__(self, webport, nodeurl_path=None): service.MultiService.__init__(self) self.webport = webport self.root = Root() self.site = site = appserver.NevowSite(self.root) self.site.requestFactory = MyRequest self.allow_local = LocalAccess() self.site.remember(self.allow_local, ILocalAccess) s = strports.service(webport, site) s.setServiceParent(self) self.listener = s # stash it so the tests can query for the portnum self._started = defer.Deferred() if nodeurl_path: self._started.addCallback(self._write_nodeurl_file, nodeurl_path) def allow_local_access(self, enable=True): self.allow_local.local_access = enable def startService(self): service.MultiService.startService(self) # to make various services available to render_* methods, we stash a # reference to the client on the NevowSite. This will be available by # adapting the 'context' argument to a special marker interface named # IClient. self.site.remember(self.parent, IClient) # I thought you could do the same with an existing interface, but # apparently 'ISite' does not exist #self.site._client = self.parent self._started.callback(None) def _write_nodeurl_file(self, junk, nodeurl_path): # what is our webport? s = self.listener if isinstance(s, internet.TCPServer): base_url = "http://localhost:%d" % s._port.getHost().port elif isinstance(s, internet.SSLServer): base_url = "https://localhost:%d" % s._port.getHost().port else: base_url = None if base_url: f = open(nodeurl_path, 'wb') # this file is world-readable f.write(base_url + "\n") f.close()