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29 Commits
0.1.1 ... 0.1.4

Author SHA1 Message Date
Mark Qvist
6c16e810e5 Updated dependencies 2021-10-15 19:47:16 +02:00
Mark Qvist
6d4ac49264 Updated version 2021-10-15 19:43:19 +02:00
Mark Qvist
939bc37f86 Mitigate KeyError in urwid 2021-10-15 13:13:48 +02:00
Mark Qvist
14eb35f7de Fixed sync progress bar display 2021-10-12 21:12:32 +02:00
Mark Qvist
19fb70fb3f Fixed sync progress bar display 2021-10-12 21:08:31 +02:00
Mark Qvist
9f9f10d54e Updated shortcuts bar 2021-10-12 20:46:05 +02:00
Mark Qvist
863a6cd2cd Update README.md 2021-10-11 15:25:29 +02:00
Mark Qvist
2ec95df3ec Fixed announce interval interpreted as seconds instead of minutes. 2021-10-10 13:50:57 +02:00
Mark Qvist
313cc108de Added selection check 2021-10-10 00:09:43 +02:00
Mark Qvist
33ccab0907 Added LXMF peers section to network view 2021-10-10 00:04:10 +02:00
Mark Qvist
71125252ee Updated versions 2021-10-09 23:25:10 +02:00
Mark Qvist
2ec674fbf3 Fixed node announce interval 2021-10-09 13:41:48 +02:00
Mark Qvist
5f651f8786 Updated guide 2021-10-08 21:33:31 +02:00
Mark Qvist
694dd0c547 Updated readme 2021-10-08 18:41:20 +02:00
Mark Qvist
0b3abaa450 Updated text UI glyphs 2021-10-08 17:35:34 +02:00
Mark Qvist
ed7b5de51c Added conversation sort option 2021-10-08 14:46:20 +02:00
Mark Qvist
cd59f31eba Propagation node identity lookup 2021-10-08 13:34:04 +02:00
Mark Qvist
fec4ef5d57 Implemented node entry editing 2021-10-08 13:26:29 +02:00
Mark Qvist
afd5b40694 Cleanup 2021-10-08 12:57:01 +02:00
Mark Qvist
efdcec5670 Added option to limit messages per sync operation 2021-10-08 11:58:24 +02:00
Mark Qvist
830a8e7f23 Added ability to select default LXMF propagation node 2021-10-08 11:17:58 +02:00
Mark Qvist
71680e7329 Fixed adding conversation with unknown peer 2021-10-08 09:32:45 +02:00
Mark Qvist
698b97f78c Improved sync UI 2021-10-08 09:12:20 +02:00
Mark Qvist
0bd7a9bdf5 Updated LXMF storage config 2021-10-08 08:53:25 +02:00
Mark Qvist
3bb90941a3 Cleanup 2021-10-07 21:04:11 +02:00
Mark Qvist
63df56d5b1 Added LXMF propagation node sync controls and handling 2021-10-07 18:14:06 +02:00
Mark Qvist
ba73e3011a Announce propagation node 2021-10-03 21:06:56 +02:00
Mark Qvist
df7692d7c6 Implemented basic LXMF propagation support and controls 2021-10-03 18:44:00 +02:00
Mark Qvist
7043f33dd8 Updated network shortcuts 2021-09-26 00:06:47 +02:00
13 changed files with 734 additions and 80 deletions
Expand all files Collapse all files

23
README.md
View File

@@ -1,17 +1,20 @@
Nomad Network - Communicate Freely
==========
Off-grid, resilient mesh communication with strong encryption, forward secrecy and extreme privacy.
![Screenshot](https://github.com/markqvist/NomadNet/raw/master/docs/screenshots/1.png)
The intention with this program is to provide a tool to that allows you to build private and resilient communications platforms that are in complete control and ownership of the people that use them.
Nomad Network Allows you to build private and resilient communications platforms that are in complete control and ownership of the people that use them. No signups, no agreements, no handover of any data, no permissions and gatekeepers.
Nomad Network is build on [LXMF](https://github.com/markqvist/LXMF) and [Reticulum](https://github.com/markqvist/Reticulum), which together provides the cryptographic mesh functionality and peer-to-peer message routing that Nomad Network relies on. This foundation also makes it possible to use the program over a very wide variety of communication mediums, from packet radio to fiber.
Nomad Network is build on [LXMF](https://github.com/markqvist/LXMF) and [Reticulum](https://github.com/markqvist/Reticulum), which together provides the cryptographic mesh functionality and peer-to-peer message routing that Nomad Network relies on. This foundation also makes it possible to use the program over a very wide variety of communication mediums, from packet radio to fiber optics.
Nomad Network does not need any connections to the public internet to work. In fact, it doesn't even need an IP or Ethernet network. You can use it entirely over packet radio, LoRa or even serial lines. But if you wish, you can bridge islanded Reticulum networks over the Internet or private ethernet networks, or you can build networks running completely over the Internet. The choice is yours.
Nomad Network does not need any connections to the public internet to work. In fact, it doesn't even need an IP or Ethernet network. You can use it entirely over packet radio, LoRa or even serial lines. But if you wish, you can bridge islanded networks over the Internet or private ethernet networks, or you can build networks running completely over the Internet. The choice is yours.
## Notable Features
- Encrypted messaging over packet-radio, LoRa, WiFi or anything else [Reticulum](https://github.com/markqvist/Reticulum) supports.
- Zero-configuration, minimal-infrastructure mesh communication
- Distributed and encrypted message store holds messages for offline users
- Connectable nodes that can host pages and files
- Node-side generated pages with PHP, Python, bash or others
- Built-in text-based browser for interacting with contents on nodes
@@ -23,9 +26,8 @@ The current version of the program should be considered a beta release. The prog
### Feature roadmap
- Access control and authentication for nodes, pages and files
- Network-wide propagated messaging and discussion threads
- Geospatial information sharing
- Distributed Marketplace
- Network-wide propagated bulletins and discussion threads
- Geospatial information sharing and collaborative maps
## Dependencies:
- Python 3
@@ -45,7 +47,14 @@ nomadnet
The first time the program is running, you will be presented with the guide section, which contains all the information you need to start using Nomad Network.
To use Nomad Network on packet radio or LoRa, you will need to configure your Reticulum installation to use any relevant packet radio TNCs or LoRa devices on your system. See the Reticulum documentation for info.
To use Nomad Network on packet radio or LoRa, you will need to configure your Reticulum installation to use any relevant packet radio TNCs or LoRa devices on your system. See the [Reticulum documentation](https://markqvist.github.io/Reticulum/manual/interfaces.html) for info.
## Support Nomad Network
You can help support the continued development of open, free and private communications systems by donating via one of the following channels:
- Ethereum: 0x81F7B979fEa6134bA9FD5c701b3501A2e61E897a
- Bitcoin: 3CPmacGm34qYvR6XWLVEJmi2aNe3PZqUuq
- Ko-Fi: https://ko-fi.com/markqvist
## Caveat Emptor
Nomad Network is beta software, and should be considered as such. While it has been built with cryptography best-practices very foremost in mind, it _has not_ been externally security audited, and there could very well be privacy-breaking bugs. If you want to help out, or help sponsor an audit, please do get in touch.

20
nomadnet/Conversation.py
View File

@@ -196,9 +196,18 @@ class Conversation:
if self.send_destination:
dest = self.send_destination
source = self.app.lxmf_destination
lxm = LXMF.LXMessage(dest, source, content, title=title, desired_method=LXMF.LXMessage.DIRECT)
desired_method = LXMF.LXMessage.DIRECT
if self.app.directory.preferred_delivery(dest.hash) == DirectoryEntry.PROPAGATED:
if self.app.message_router.get_outbound_propagation_node() != None:
desired_method = LXMF.LXMessage.PROPAGATED
lxm = LXMF.LXMessage(dest, source, content, title=title, desired_method=desired_method)
lxm.register_delivery_callback(self.message_notification)
lxm.register_failed_callback(self.message_notification)
if self.app.message_router.get_outbound_propagation_node() != None:
lxm.try_propagation_on_fail = self.app.try_propagation_on_fail
self.app.message_router.handle_outbound(lxm)
message_path = Conversation.ingest(lxm, self.app, originator=True)
@@ -210,6 +219,15 @@ class Conversation:
return False
def message_notification(self, message):
if message.state == LXMF.LXMessage.FAILED and hasattr(message, "try_propagation_on_fail") and message.try_propagation_on_fail:
RNS.log("Direct delivery of "+str(message)+" failed. Retrying as propagated message.", RNS.LOG_VERBOSE)
message.try_propagation_on_fail = None
message.delivery_attempts = 0
del message.next_delivery_attempt
message.packed = None
message.desired_method = LXMF.LXMessage.PROPAGATED
self.app.message_router.handle_outbound(message)
else:
message_path = Conversation.ingest(message, self.app, originator=True)
def __str__(self):

29
nomadnet/Directory.py
View File

@@ -17,6 +17,7 @@ class Directory:
associated_peer = RNS.Destination.hash_from_name_and_identity("lxmf.delivery", announced_identity)
app.directory.node_announce_received(destination_hash, app_data, associated_peer)
app.autoselect_propagation_node()
def __init__(self, app):
@@ -31,7 +32,7 @@ class Directory:
packed_list = []
for source_hash in self.directory_entries:
e = self.directory_entries[source_hash]
packed_list.append((e.source_hash, e.display_name, e.trust_level, e.hosts_node))
packed_list.append((e.source_hash, e.display_name, e.trust_level, e.hosts_node, e.preferred_delivery))
directory = {
"entry_list": packed_list,
@@ -59,7 +60,12 @@ class Directory:
else:
hosts_node = False
entries[e[0]] = DirectoryEntry(e[0], e[1], e[2], hosts_node)
if len(e) > 4:
preferred_delivery = e[4]
else:
preferred_delivery = None
entries[e[0]] = DirectoryEntry(e[0], e[1], e[2], hosts_node, preferred_delivery=preferred_delivery)
self.directory_entries = entries
@@ -85,6 +91,8 @@ class Directory:
self.announce_stream.pop()
if self.trust_level(associated_peer) == DirectoryEntry.TRUSTED:
existing_entry = self.find(source_hash)
if not existing_entry:
node_entry = DirectoryEntry(source_hash, display_name=app_data.decode("utf-8"), trust_level=DirectoryEntry.TRUSTED, hosts_node=True)
self.remember(node_entry)
@@ -130,10 +138,17 @@ class Directory:
else:
return DirectoryEntry.UNKNOWN
def preferred_delivery(self, source_hash):
if source_hash in self.directory_entries:
return self.directory_entries[source_hash].preferred_delivery
else:
return DirectoryEntry.DIRECT
def remember(self, entry):
self.directory_entries[entry.source_hash] = entry
identity = RNS.Identity.recall(entry.source_hash)
if identity != None:
associated_node = RNS.Destination.hash_from_name_and_identity("nomadnetwork.node", identity)
if associated_node in self.directory_entries:
node_entry = self.directory_entries[associated_node]
@@ -189,13 +204,21 @@ class DirectoryEntry:
UNKNOWN = 0x02
TRUSTED = 0xFF
def __init__(self, source_hash, display_name=None, trust_level=UNKNOWN, hosts_node=False):
DIRECT = 0x01
PROPAGATED = 0x02
def __init__(self, source_hash, display_name=None, trust_level=UNKNOWN, hosts_node=False, preferred_delivery=None):
if len(source_hash) == RNS.Identity.TRUNCATED_HASHLENGTH//8:
self.source_hash = source_hash
self.display_name = display_name
if display_name == None:
display_name = source_hash
if preferred_delivery == None:
self.preferred_delivery = DirectoryEntry.DIRECT
else:
self.preferred_delivery = preferred_delivery
self.trust_level = trust_level
self.hosts_node = hosts_node
else:

7
nomadnet/Node.py
View File

@@ -31,6 +31,10 @@ class Node:
if self.app.node_announce_at_start:
self.announce()
job_thread = threading.Thread(target=self.__jobs)
job_thread.setDaemon(True)
job_thread.start()
def register_pages(self):
self.servedpages = []
@@ -128,12 +132,13 @@ class Node:
self.last_announce = time.time()
self.app.peer_settings["node_last_announce"] = self.last_announce
self.destination.announce(app_data=self.app_data)
self.app.message_router.announce_propagation_node()
def __jobs(self):
while self.should_run_jobs:
now = time.time()
if now > self.last_announce + self.announce_interval:
if now > self.last_announce + self.announce_interval*60:
self.announce()
time.sleep(self.job_interval)

129
nomadnet/NomadNetworkApp.py
View File

@@ -6,6 +6,8 @@ import RNS
import LXMF
import nomadnet
from nomadnet.Directory import DirectoryEntry
import RNS.vendor.umsgpack as msgpack
from ._version import __version__
@@ -60,6 +62,7 @@ class NomadNetworkApp:
self.firstrun = False
self.peer_announce_at_start = True
self.try_propagation_on_fail = True
if not os.path.isdir(self.storagepath):
os.makedirs(self.storagepath)
@@ -133,6 +136,9 @@ class NomadNetworkApp:
if not "node_last_announce" in self.peer_settings:
self.peer_settings["node_last_announce"] = None
if not "propagation_node" in self.peer_settings:
self.peer_settings["propagation_node"] = None
except Exception as e:
RNS.log("Could not load local peer settings from "+self.peersettingspath, RNS.LOG_ERROR)
RNS.log("The contained exception was: %s" % (str(e)), RNS.LOG_ERROR)
@@ -145,6 +151,7 @@ class NomadNetworkApp:
"announce_interval": None,
"last_announce": None,
"node_last_announce": None,
"propagation_node": None
}
self.save_peer_settings()
RNS.log("Created new peer settings file")
@@ -154,9 +161,9 @@ class NomadNetworkApp:
nomadnet.panic()
atexit.register(self.exit_handler)
self.directory = nomadnet.Directory(self)
self.message_router = LXMF.LXMRouter()
self.message_router = LXMF.LXMRouter(identity = self.identity, storagepath = self.storagepath, autopeer = True)
self.message_router.register_delivery_callback(self.lxmf_delivery)
self.lxmf_destination = self.message_router.register_delivery_identity(self.identity, display_name=self.peer_settings["display_name"])
@@ -171,9 +178,9 @@ class NomadNetworkApp:
RNS.log("LXMF Router ready to receive on: "+RNS.prettyhexrep(self.lxmf_destination.hash))
self.directory = nomadnet.Directory(self)
if self.enable_node:
self.message_router.enable_propagation()
RNS.log("LXMF Propagation Node started on: "+RNS.prettyhexrep(self.message_router.propagation_destination.hash))
self.node = nomadnet.Node(self)
else:
self.node = None
@@ -181,9 +188,13 @@ class NomadNetworkApp:
RNS.Transport.register_announce_handler(nomadnet.Conversation)
RNS.Transport.register_announce_handler(nomadnet.Directory)
self.autoselect_propagation_node()
if self.peer_announce_at_start:
self.announce_now()
atexit.register(self.exit_handler)
nomadnet.ui.spawn(self.uimode)
def set_display_name(self, display_name):
@@ -197,11 +208,111 @@ class NomadNetworkApp:
def get_display_name_bytes(self):
return self.peer_settings["display_name"].encode("utf-8")
def get_sync_status(self):
if self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_IDLE:
return "Idle"
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_PATH_REQUESTED:
return "Path requested"
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_LINK_ESTABLISHING:
return "Establishing link"
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_LINK_ESTABLISHED:
return "Link established"
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_REQUEST_SENT:
return "Sync request sent"
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_RECEIVING:
return "Receiving messages"
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_RESPONSE_RECEIVED:
return "Messages received"
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_COMPLETE:
new_msgs = self.message_router.propagation_transfer_last_result
if new_msgs == 0:
return "Done, no new messages"
else:
return "Downloaded "+str(new_msgs)+" new messages"
else:
return "Unknown"
def sync_status_show_percent(self):
if self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_IDLE:
return False
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_PATH_REQUESTED:
return True
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_LINK_ESTABLISHING:
return True
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_LINK_ESTABLISHED:
return True
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_REQUEST_SENT:
return True
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_RECEIVING:
return True
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_RESPONSE_RECEIVED:
return True
elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_COMPLETE:
return False
else:
return False
def get_sync_progress(self):
return self.message_router.propagation_transfer_progress
def request_lxmf_sync(self, limit = None):
if self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_IDLE or self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_COMPLETE:
self.message_router.request_messages_from_propagation_node(self.identity, max_messages = limit)
def cancel_lxmf_sync(self):
if self.message_router.propagation_transfer_state != LXMF.LXMRouter.PR_IDLE:
self.message_router.cancel_propagation_node_requests()
def announce_now(self):
self.lxmf_destination.announce()
self.peer_settings["last_announce"] = time.time()
self.save_peer_settings()
def autoselect_propagation_node(self):
selected_node = None
if "propagation_node" in self.peer_settings and self.directory.find(self.peer_settings["propagation_node"]):
selected_node = self.directory.find(self.peer_settings["propagation_node"])
else:
nodes = self.directory.known_nodes()
trusted_nodes = []
best_hops = RNS.Transport.PATHFINDER_M+1
for node in nodes:
if node.trust_level == DirectoryEntry.TRUSTED:
hops = RNS.Transport.hops_to(node.source_hash)
if hops < best_hops:
best_hops = hops
selected_node = node
if selected_node == None:
RNS.log("Could not autoselect a prepagation node! LXMF propagation will not be available until a trusted node announces on the network.", RNS.LOG_WARNING)
else:
node_identity = RNS.Identity.recall(selected_node.source_hash)
if node_identity != None:
propagation_hash = RNS.Destination.hash_from_name_and_identity("lxmf.propagation", node_identity)
RNS.log("Selecting "+selected_node.display_name+" "+RNS.prettyhexrep(propagation_hash)+" as default LXMF propagation node", RNS.LOG_INFO)
self.message_router.set_outbound_propagation_node(propagation_hash)
else:
RNS.log("Could not recall identity for autoselected LXMF propagation node "+RNS.prettyhexrep(selected_node.source_hash), RNS.LOG_WARNING)
RNS.log("LXMF propagation will not be available until a trusted node announces on the network.", RNS.LOG_WARNING)
def get_user_selected_propagation_node(self):
if "propagation_node" in self.peer_settings:
return self.peer_settings["propagation_node"]
else:
return None
def set_user_selected_propagation_node(self, node_hash):
self.peer_settings["propagation_node"] = node_hash
self.save_peer_settings()
self.autoselect_propagation_node()
def get_default_propagation_node(self):
return self.message_router.get_outbound_propagation_node()
def save_peer_settings(self):
file = open(self.peersettingspath, "wb")
file.write(msgpack.packb(self.peer_settings))
@@ -286,6 +397,10 @@ class NomadNetworkApp:
value = self.config["client"].as_bool(option)
self.peer_announce_at_start = value
if option == "try_propagation_on_send_fail":
value = self.config["client"].as_bool(option)
self.try_propagation_on_fail = value
if option == "user_interface":
value = value.lower()
if value == "none":
@@ -430,6 +545,12 @@ downloads_path = ~/Downloads
# to let other peers reach it immediately.
announce_at_start = yes
# By default, the client will try to deliver a
# message via the LXMF propagation network, if
# a direct delivery to the recipient is not
# possible.
try_propagation_on_send_fail = yes
[textui]
# Amount of time to show intro screen

2
nomadnet/_version.py
View File

@@ -1 +1 @@
__version__ = "0.1.1"
__version__ = "0.1.4"

14
nomadnet/ui/TextUI.py
View File

@@ -33,6 +33,7 @@ THEMES = {
("msg_header_ok", "black", "light green", "standout", "#111", "#6b2"),
("msg_header_caution", "black", "yellow", "standout", "#111", "#fd3"),
("msg_header_sent", "black", "light gray", "standout", "#111", "#ddd"),
("msg_header_propagated", "black", "light blue", "standout", "#111", "#28b"),
("msg_header_delivered", "black", "light blue", "standout", "#111", "#28b"),
("msg_header_failed", "black", "dark gray", "standout", "#000", "#777"),
("msg_warning_untrusted", "black", "dark red", "standout", "#111", "dark red"),
@@ -115,11 +116,12 @@ GLYPHS = {
("divider1", "-", "\u2504", "\u2504"),
("peer", "[P]", "\u24c5 ", "\uf415"),
("node", "[N]", "\u24c3 ", "\uf502"),
("page", "", "\u25a4", "\uf719 "),
("speed", "", "\u25F7", "\uf9c4"),
("page", "", "\u25a4 ", "\uf719 "),
("speed", "", "\u25F7 ", "\uf9c4"),
("decoration_menu", " +", " +", " \uf93a"),
("unread_menu", " !", " \u2709", urm_char),
("globe", "", "", "\uf484"),
("sent", "/\\", "\u2191", "\ufbf4")
}
class TextUI:
@@ -129,14 +131,6 @@ class TextUI:
self.app.ui = self
self.loop = None
# TODO: Remove
# if importlib.util.find_spec("urwid") != None:
# import urwid
# else:
# RNS.log("The text-mode user interface requires Urwid to be installed on your system.", RNS.LOG_ERROR)
# RNS.log("You can install it with the command: pip3 install urwid", RNS.LOG_ERROR)
# nomadnet.panic()
urwid.set_encoding("UTF-8")
intro_timeout = self.app.config["textui"]["intro_time"]

161
nomadnet/ui/textui/Conversations.py
View File

@@ -14,13 +14,13 @@ class ConversationListDisplayShortcuts():
def __init__(self, app):
self.app = app
self.widget = urwid.AttrMap(urwid.Text("[Enter] Open [C-e] Peer Info [C-x] Delete [C-n] New"), "shortcutbar")
self.widget = urwid.AttrMap(urwid.Text("[Enter] Open [C-e] Peer Info [C-x] Delete [C-r] Sync [C-n] New"), "shortcutbar")
class ConversationDisplayShortcuts():
def __init__(self, app):
self.app = app
self.widget = urwid.AttrMap(urwid.Text("[C-d] Send [C-k] Clear Editor [C-w] Close [C-t] Editor Type [C-p] Purge [C-x] Clear History"), "shortcutbar")
self.widget = urwid.AttrMap(urwid.Text("[C-d] Send [C-k] Clear [C-w] Close [C-t] Title [C-p] Purge [C-x] Clear History [C-o] Sort"), "shortcutbar")
class ConversationsArea(urwid.LineBox):
def keypress(self, size, key):
@@ -30,6 +30,8 @@ class ConversationsArea(urwid.LineBox):
self.delegate.delete_selected_conversation()
elif key == "ctrl n":
self.delegate.new_conversation()
elif key == "ctrl r":
self.delegate.sync_conversations()
elif key == "tab":
self.delegate.app.ui.main_display.frame.set_focus("header")
elif key == "up" and (self.delegate.ilb.first_item_is_selected() or self.delegate.ilb.body_is_empty()):
@@ -51,6 +53,7 @@ class ConversationsDisplay():
def __init__(self, app):
self.app = app
self.dialog_open = False
self.sync_dialog = None
self.currently_displayed_conversation = None
def disp_list_shortcuts(sender, arg1, arg2):
@@ -144,6 +147,9 @@ class ConversationsDisplay():
unknown_selected = True
trusted_selected = False
direct_selected = True
propagated_selected = False
try:
if self.app.directory.find(bytes.fromhex(source_hash_text)):
trust_level = self.app.directory.trust_level(bytes.fromhex(source_hash_text))
@@ -159,6 +165,11 @@ class ConversationsDisplay():
untrusted_selected = False
unknown_selected = False
trusted_selected = True
if self.app.directory.preferred_delivery(bytes.fromhex(source_hash_text)) == DirectoryEntry.PROPAGATED:
direct_selected = False
propagated_selected = True
except Exception as e:
pass
@@ -167,6 +178,10 @@ class ConversationsDisplay():
r_unknown = urwid.RadioButton(trust_button_group, "Unknown", state=unknown_selected)
r_trusted = urwid.RadioButton(trust_button_group, "Trusted", state=trusted_selected)
method_button_group = []
r_direct = urwid.RadioButton(method_button_group, "Deliver directly", state=direct_selected)
r_propagated = urwid.RadioButton(method_button_group, "Use propagation nodes", state=propagated_selected)
def dismiss_dialog(sender):
self.update_conversation_list()
self.dialog_open = False
@@ -181,7 +196,11 @@ class ConversationsDisplay():
elif r_trusted.state == True:
trust_level = DirectoryEntry.TRUSTED
entry = DirectoryEntry(source_hash, display_name, trust_level)
delivery = DirectoryEntry.DIRECT
if r_propagated.state == True:
delivery = DirectoryEntry.PROPAGATED
entry = DirectoryEntry(source_hash, display_name, trust_level, preferred_delivery=delivery)
self.app.directory.remember(entry)
self.update_conversation_list()
self.dialog_open = False
@@ -216,6 +235,9 @@ class ConversationsDisplay():
r_untrusted,
r_unknown,
r_trusted,
urwid.Divider(g["divider1"]),
r_direct,
r_propagated,
known_section,
urwid.Columns([("weight", 0.45, urwid.Button("Save", on_press=confirmed)), ("weight", 0.1, urwid.Text("")), ("weight", 0.45, urwid.Button("Back", on_press=dismiss_dialog))])
])
@@ -304,6 +326,111 @@ class ConversationsDisplay():
conversation = ConversationsDisplay.cached_conversation_widgets[source_hash]
self.close_conversation(conversation)
def sync_conversations(self):
g = self.app.ui.glyphs
self.dialog_open = True
def dismiss_dialog(sender):
self.dialog_open = False
self.sync_dialog = None
self.update_conversation_list()
if self.app.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_COMPLETE:
self.app.cancel_lxmf_sync()
max_messages_group = []
r_mall = urwid.RadioButton(max_messages_group, "Download all", state=True)
r_mlim = urwid.RadioButton(max_messages_group, "Limit to", state=False)
ie_lim = urwid.IntEdit("", 5)
rbs = urwid.GridFlow([r_mlim, ie_lim], 12, 1, 0, align="left")
def sync_now(sender):
limit = None
if r_mlim.get_state():
limit = ie_lim.value()
self.app.request_lxmf_sync(limit)
self.update_sync_dialog()
def cancel_sync(sender):
self.app.cancel_lxmf_sync()
self.update_sync_dialog()
cancel_button = urwid.Button("Close", on_press=dismiss_dialog)
sync_progress = SyncProgressBar("progress_empty" , "progress_full", current=self.app.get_sync_progress(), done=1.0, satt=None)
real_sync_button = urwid.Button("Sync Now", on_press=sync_now)
hidden_sync_button = urwid.Button("Cancel Sync", on_press=cancel_sync)
if self.app.get_sync_status() == "Idle" or self.app.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_COMPLETE:
sync_button = real_sync_button
else:
sync_button = hidden_sync_button
button_columns = urwid.Columns([("weight", 0.45, sync_button), ("weight", 0.1, urwid.Text("")), ("weight", 0.45, cancel_button)])
real_sync_button.bc = button_columns
pn_ident = None
if self.app.get_default_propagation_node() != None:
pn_hash = self.app.get_default_propagation_node()
pn_ident = RNS.Identity.recall(pn_hash)
if pn_ident == None:
RNS.log("Propagation node identity is unknown, requesting from network...", RNS.LOG_DEBUG)
RNS.Transport.request_path(pn_hash)
if pn_ident != None:
node_hash = RNS.Destination.hash_from_name_and_identity("nomadnetwork.node", pn_ident)
pn_entry = self.app.directory.find(node_hash)
dialog = DialogLineBox(
urwid.Pile([
urwid.Text(""+g["node"]+" "+str(pn_entry.display_name), align="center"),
urwid.Divider(g["divider1"]),
sync_progress,
urwid.Divider(g["divider1"]),
r_mall,
rbs,
urwid.Text(""),
button_columns
]), title="Message Sync"
)
else:
button_columns = urwid.Columns([("weight", 0.45, urwid.Text("" )), ("weight", 0.1, urwid.Text("")), ("weight", 0.45, cancel_button)])
dialog = DialogLineBox(
urwid.Pile([
urwid.Text(""),
urwid.Text("No trusted nodes found, cannot sync", align="center"),
urwid.Text(""),
button_columns
]), title="Message Sync"
)
dialog.delegate = self
dialog.sync_progress = sync_progress
dialog.cancel_button = cancel_button
dialog.real_sync_button = real_sync_button
dialog.hidden_sync_button = hidden_sync_button
dialog.bc = button_columns
self.sync_dialog = dialog
bottom = self.listbox
overlay = urwid.Overlay(dialog, bottom, align="center", width=("relative", 100), valign="middle", height="pack", left=2, right=2)
options = self.columns_widget.options("weight", ConversationsDisplay.list_width)
self.columns_widget.contents[0] = (overlay, options)
def update_sync_dialog(self, loop = None, sender = None):
if self.dialog_open and self.sync_dialog != None:
self.sync_dialog.sync_progress.set_completion(self.app.get_sync_progress())
if self.app.get_sync_status() == "Idle" or self.app.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_COMPLETE:
self.sync_dialog.bc.contents[0] = (self.sync_dialog.real_sync_button, self.sync_dialog.bc.options("weight", 0.45))
else:
self.sync_dialog.bc.contents[0] = (self.sync_dialog.hidden_sync_button, self.sync_dialog.bc.options("weight", 0.45))
self.app.ui.loop.set_alarm_in(0.2, self.update_sync_dialog)
def conversation_list_selection(self, arg1, arg2):
pass
@@ -311,7 +438,13 @@ class ConversationsDisplay():
ilb_position = self.ilb.get_selected_position()
self.update_listbox()
options = self.columns_widget.options("weight", ConversationsDisplay.list_width)
if not (self.dialog_open and self.sync_dialog != None):
self.columns_widget.contents[0] = (self.listbox, options)
else:
bottom = self.listbox
overlay = urwid.Overlay(self.sync_dialog, bottom, align="center", width=("relative", 100), valign="middle", height="pack", left=2, right=2)
self.columns_widget.contents[0] = (overlay, options)
if ilb_position != None:
self.ilb.select_item(ilb_position)
nomadnet.NomadNetworkApp.get_shared_instance().ui.loop.draw_screen()
@@ -522,6 +655,7 @@ class ConversationWidget(urwid.WidgetWrap):
self.source_hash = source_hash
self.conversation = nomadnet.Conversation(source_hash, nomadnet.NomadNetworkApp.get_shared_instance())
self.message_widgets = []
self.sort_by_timestamp = False
self.updating_message_widgets = False
self.update_message_widgets()
@@ -646,6 +780,9 @@ class ConversationWidget(urwid.WidgetWrap):
self.toggle_editor()
elif key == "ctrl x":
self.clear_history_dialog()
elif key == "ctrl o":
self.sort_by_timestamp ^= True
self.conversation_changed(None)
else:
return super(ConversationWidget, self).keypress(size, key)
@@ -666,6 +803,9 @@ class ConversationWidget(urwid.WidgetWrap):
message_widget = LXMessageWidget(message)
self.message_widgets.append(message_widget)
if self.sort_by_timestamp:
self.message_widgets.sort(key=lambda m: m.timestamp, reverse=False)
else:
self.message_widgets.sort(key=lambda m: m.sort_timestamp, reverse=False)
from nomadnet.vendor.additional_urwid_widgets import IndicativeListBox
@@ -718,6 +858,12 @@ class LXMessageWidget(urwid.WidgetWrap):
elif message.lxm.state == LXMF.LXMessage.FAILED:
header_style = "msg_header_failed"
title_string = g["cross"]+" "+title_string
elif message.lxm.method == LXMF.LXMessage.PROPAGATED and message.lxm.state == LXMF.LXMessage.SENT:
header_style = "msg_header_propagated"
title_string = g["sent"]+" "+title_string
elif message.lxm.state == LXMF.LXMessage.SENT:
header_style = "msg_header_sent"
title_string = g["sent"]+" "+title_string
else:
header_style = "msg_header_sent"
title_string = g["arrow_r"]+" "+title_string
@@ -741,3 +887,12 @@ class LXMessageWidget(urwid.WidgetWrap):
])
urwid.WidgetWrap.__init__(self, display_widget)
class SyncProgressBar(urwid.ProgressBar):
def get_text(self):
status = nomadnet.NomadNetworkApp.get_shared_instance().get_sync_status()
show_percent = nomadnet.NomadNetworkApp.get_shared_instance().sync_status_show_percent()
if show_percent:
return status+" "+super().get_text()
else:
return status

81
nomadnet/ui/textui/Guide.py
View File

@@ -108,9 +108,11 @@ class TopicList(urwid.WidgetWrap):
self.topic_list = [
GuideEntry(self.app, self, guide_display, "Introduction"),
GuideEntry(self.app, self, guide_display, "Concepts & Terminology"),
GuideEntry(self.app, self, guide_display, "Hosting a Node"),
GuideEntry(self.app, self, guide_display, "Markup"),
self.first_run_entry,
GuideEntry(self.app, self, guide_display, "Network Configuration"),
GuideEntry(self.app, self, guide_display, "Display Test"),
GuideEntry(self.app, self, guide_display, "Credits & Licenses"),
]
@@ -187,9 +189,11 @@ Nomad Network is build on LXMF and Reticulum, which together provides the crypto
Nomad Network does not need any connections to the public internet to work. In fact, it doesn't even need an IP or Ethernet network. You can use it entirely over packet radio, LoRa or even serial lines. But if you wish, you can bridge islanded Reticulum networks over the Internet or private ethernet networks, or you can build networks running completely over the Internet. The choice is yours.
The current version of the program should be considered an alpha release. The program works well, but there will most probably be bugs and possibly sub-optimal performance in some scenarios. On the other hand, this is the best time to have an influence on the direction of the development of Nomad Network. To do so, join the discussion on the Nomad Network project on GitHub.
The current version of the program should be considered a beta release. The program works well, but there will most probably be bugs and possibly sub-optimal performance in some scenarios. On the other hand, this is the best time to have an influence on the direction of the development of Nomad Network. To do so, join the discussion on the Nomad Network project on GitHub.
>Concepts and Terminology
'''
TOPIC_CONCEPTS = '''>Concepts and Terminology
The following section will briefly introduce various concepts and terms used in the program.
@@ -197,9 +201,20 @@ The following section will briefly introduce various concepts and terms used in
A `*peer`* refers to another Nomad Network client, which will generally be operated by another person. But since Nomad Network is a general LXMF client, it could also be any other LXMF client, program, automated system or machine that can communicate over LXMF.
All peers (and nodes) are identified by their `*address`* (which is, technically speaking, a Reticulum destination hash). An address consist of 20 hexadecimal characters, and looks like this:
`c<b8ea8f92541c9a275f0e>
`l
Anyone can choose whatever display name they want, but addresses are always unique, and generated from the unique cryptographic keys of the peer. This is an important point to understand. Since there is not anyone controlling naming or address spaces in Nomad Network, you can easily come across another user with the same display name as you.
Your addresses will always be unique though, and you must always verify that the address you are communicating with is matching the address of the peer you expect to be in the other end.
To make this easier, Nomad Network allows you to mark peers and nodes as either `*trusted`*, `*unknown`* or `*untrusted`*. In this way, you can mark the peers and nodes that you know to be legitimate, and easily spot peers with similar names as unrelated.
>>Announces
An `*announce`* can be sent by any peer on the network, which will notify other peers of its existence, and contains the cryptographic keys that allows other peers to communicate with it.
An `*announce`* can be sent by any peer or node on the network, which will notify other peers of its existence, and contains the cryptographic keys that allows other peers to communicate with it.
In the `![ Network ]`! section of the program, you can monitor announces on the network, initiate conversations with announced peers, and announce your own peer on the network. You can also connect to nodes on the network and browse information shared by them.
@@ -207,17 +222,27 @@ In the `![ Network ]`! section of the program, you can monitor announces on the
Nomad Network uses the term `*conversation`* to signify both direct peer-to-peer messaging threads, and also discussion threads with an arbitrary number of participants that might change over time.
Both things like discussion forums and chat threads can be encapsulated as conversations in Nomad Network. The user interface will indicate the different characteristics a conversation can take, and also what form of transport encryption messages within used.
Both things like discussion forums and chat threads can be encapsulated as conversations in Nomad Network. The user interface will indicate the different characteristics a conversation can take, and also what form of transport encryption was used for messages within.
In the `![ Conversations ]`! part of the program you can view and interact with all currently active conversations. You can also edit nickname and trust settings for peers here.
In the `![ Conversations ]`! part of the program you can view and interact with all currently active conversations. You can also edit nickname and trust settings for peers belonging to these conversations here. To edit settings for a peer, select it in the conversation list, and press `!Ctrl-E`!.
By default, Nomad Network will attempt to deliver messages to a peer directly. This happens by first establishing an encrypted link directly to the peer, and then delivering the message over it.
If the desired peer is not available because it has disconnected from the network, this method will obviously fail. In this case, Nomad Network will attempt to deliver the message to a node, which will store and forward it over the network, for later retrieval by the destination peer. The message is encrypted with an ephemeral key before being transmitted to the network, and is only readable by the intended recipient.
For propagated delivery to work, one or more nodes must be available on the network. If one or more trusted nodes are available, Nomad Network will automatically select the most suitable node to send the message via, but you can also manually specify what node to use.
To select a node manually, go to the `![ Network ]`! part of the program, choose the desired node in the `*Known Nodes`* list, and select the `!< Info >`! button. In the `!Node Info`! dialog, you can specify the selected node as the default propagation node.
>>Node
A Nomad Network `*node`* is an instance of the Nomad Network program that has been configured to host information for other peers and help propagate messages and information on the network.
Nodes can host pages (similar to webpages) written in a markup-language called `*micron`*, as well as make files and other resources available for download for peers on the network. Nodes are also integral in allowing forum/discussion threads to exist and propagate on the network.
Nodes can host pages (similar to webpages) written in a markup-language called `*micron`*, as well as make files and other resources available for download for peers on the network. Nodes also form a distributed message store for offline users, and allows messages to be exchanged between peers that are not online at the same time.
If no nodes exist on a network, all peers will still be able to communicate directly peer-to-peer, but both endpoints of a conversation will need to be online at the same time to converse. When nodes exist on the network, messages will be held and syncronised between nodes for deferred delivery if the destination peer is unavailable.
If no nodes exist on a network, all peers will still be able to communicate directly peer-to-peer, but both endpoints of a conversation will need to be available at the same time to converse. When nodes exist on the network, messages will be held and syncronised between nodes for deferred delivery if the destination peer is unavailable. Nodes will automatically discover and peer with each other, and handle synchronisation of message stores.
To learn how to host your own node, read the `*Hosting a Node`* section of this guide.
'''
@@ -279,7 +304,7 @@ To get the most out of Nomad Network, you will need a terminal that supports UTF
If you don't already have a Nerd Font installed (see https://www.nerdfonts.com/), I also highly recommend to do so, since it will greatly expand the amount of glyphs, icons and graphics that Nomad Network can use. Once you have your terminal set up with a Nerd Font, go to the `![ Config ]`! menu item and enable Nerd Fonts in the configuration instead of normal unicode glyphs.
Nomad Network expects that you are already connected to some form of Reticulum network. That could be as simple as the default UDP-based demo interface on your local ethernet network. This short guide won't go into any details on building, but you will find other entries in the guide that deal with network setup and configuration.
Nomad Network expects that you are already connected to some form of Reticulum network. That could be as simple as the default UDP-based demo interface on your local ethernet network. This short guide won't go into any details on building networks, but you will find other entries in the guide that deal with network setup and configuration.
At least, if Nomad Network launches, it means that it is connected to a running Reticulum instance, that should in turn be connected to `*something`*, which should get you started.
@@ -293,6 +318,44 @@ Now go out there and explore. This is still early days. See what you can find an
'''
TOPIC_NETWORKS = '''>Network Configuration
Nomad Network uses the Reticulum Network Stack for communication and encryption. This means that it will use any interfaces and communications channels already defined in your Reticulum configuration.
Reticulum supports using many kinds of devices as networking interfaces, and allows you to mix and match them in any way you choose. The number of distinct network topologies you can create with Reticulum is more or less endless, but common to them all is that you will need to define one or more interfaces for Reticulum to use.
If you have not changed the default Reticulum configuration, which should be located at `!~/.reticulum/config`!, you will have one interface active right now. With it, you should be able to communicate with any other peers and nodes that exist on your local ethernet or WiFi network, if your system is connected to one, and most probably nothing else outside of that.
To learn how to configure your Reticulum setup to use LoRa radios, packet radio or other interfaces, or connect to other Reticulum networks via the Internet, the best places to start is to read the relevant parts of the Reticulum Manual, which can be found on GitHub:
`c`_https://markqvist.github.io/Reticulum/manual/interfaces.html`_
`l
If you don't currently have access to the Internet, the default Reticulum configuration file is also full of examples of all the supported interface types, and it should be relatively simple to get a working setup going just from those examples.
For future reference, you can download the Reticulum Manual in PDF format here:
`c`_https://github.com/markqvist/Reticulum/raw/master/docs/Reticulum%20Manual.pdf`_
`l
It might be nice to keep that handy when you are not connected to the Internet, as it is full of information and examples that are also very relevant to Nomad Network.
>The Unsigned.io Testnet
If you have Internet access, and just want to get started experimenting, you are welcome to join the Unsigned.io RNS Testnet. The testnet is just that, an informal network for testing and experimenting. It will be up most of the time, and anyone can join, but it also means that there's no guarantees for service availability.
The Testnet also runs the latest version of Reticulum, often even a short while before it is publicly released, which means strange behaviour might occur. If none of that scares you, add the following interface to your Reticulum configuration file to join:
>>
[[RNS Testnet Frankfurt]]
type = TCPClientInterface
interface_enabled = yes
outgoing = True
target_host = frankfurt.rns.unsigned.io
target_port = 4965
'''
TOPIC_DISPLAYTEST = '''>Markup & Color Display Test
@@ -628,10 +691,12 @@ TOPIC_MARKUP += "\n`=\n\n>Closing Remarks\n\nIf you made it all the way here, yo
TOPICS = {
"Introduction": TOPIC_INTRODUCTION,
"Concepts & Terminology": TOPIC_CONCEPTS,
"Conversations": TOPIC_CONVERSATIONS,
"Hosting a Node": TOPIC_HOSTING,
"Markup": TOPIC_MARKUP,
"First Run": TOPIC_FIRST_RUN,
"Display Test": TOPIC_DISPLAYTEST,
"Network Configuration": TOPIC_NETWORKS,
"Credits & Licenses": TOPIC_LICENSES,
}

7
nomadnet/ui/textui/Main.py
View File

@@ -129,11 +129,12 @@ class MainDisplay():
def update_active_shortcuts(self):
self.frame.contents["footer"] = (self.sub_displays.active().shortcuts().widget, None)
def request_redraw(self):
self.app.ui.loop.set_alarm_in(0.25, self.redraw_now)
def request_redraw(self, extra_delay=0.0):
self.app.ui.loop.set_alarm_in(0.25+extra_delay, self.redraw_now)
def redraw_now(self, sender=None, data=None):
self.app.ui.loop.draw_screen()
self.app.ui.loop.screen.clear()
#self.app.ui.loop.draw_screen()
def start(self):
self.menu_display.start()

268
nomadnet/ui/textui/Network.py
View File

@@ -13,7 +13,7 @@ class NetworkDisplayShortcuts():
self.app = app
g = app.ui.glyphs
self.widget = urwid.AttrMap(urwid.Text("[C-l] Toggle Nodes/Announces view [C-x] Remove entry [C-w] Disconnect [C-d] Back [C-f] Forward [C-r] Reload [C-u] Enter URL"), "shortcutbar")
self.widget = urwid.AttrMap(urwid.Text("[C-l] Nodes/Announces [C-x] Remove [C-w] Disconnect [C-d] Back [C-f] Forward [C-r] Reload [C-u] URL"), "shortcutbar")
# "[C-"+g["arrow_u"]+g["arrow_d"]+"] Navigate Lists"
@@ -107,6 +107,7 @@ class AnnounceInfo(urwid.WidgetWrap):
self.parent.left_pile.contents[0] = (self.parent.announce_stream_display, options)
def connect(sender):
self.app.ui.main_display.request_redraw(extra_delay=0.75)
self.parent.browser.retrieve_url(RNS.hexrep(source_hash, delimit=False))
show_announce_stream(None)
@@ -359,6 +360,144 @@ class ListDialogLineBox(urwid.LineBox):
else:
return super(ListDialogLineBox, self).keypress(size, key)
class KnownNodeInfo(urwid.WidgetWrap):
def __init__(self, node_hash):
self.app = nomadnet.NomadNetworkApp.get_shared_instance()
self.parent = self.app.ui.main_display.sub_displays.network_display
self.pn_changed = False
g = self.app.ui.glyphs
source_hash = node_hash
node_ident = RNS.Identity.recall(node_hash)
time_format = self.app.time_format
trust_level = self.app.directory.trust_level(source_hash)
trust_str = ""
node_entry = self.app.directory.find(source_hash)
if node_entry == None:
display_str = self.app.directory.simplest_display_str(source_hash)
else:
display_str = node_entry.display_name
addr_str = "<"+RNS.hexrep(source_hash, delimit=False)+">"
if node_ident != None:
lxmf_addr_str = RNS.prettyhexrep(RNS.Destination.hash_from_name_and_identity("lxmf.propagation", node_ident))
else:
lxmf_addr_str = "Unknown"
type_string = "Node " + g["node"]
if trust_level == DirectoryEntry.UNTRUSTED:
trust_str = "Untrusted"
symbol = g["cross"]
style = "list_untrusted"
elif trust_level == DirectoryEntry.UNKNOWN:
trust_str = "Unknown"
symbol = g["unknown"]
style = "list_unknown"
elif trust_level == DirectoryEntry.TRUSTED:
trust_str = "Trusted"
symbol = g["check"]
style = "list_trusted"
elif trust_level == DirectoryEntry.WARNING:
trust_str = "Warning"
symbol = g["warning"]
style = "list_warning"
else:
trust_str = "Warning"
symbol = g["warning"]
style = "list_untrusted"
if trust_level == DirectoryEntry.UNTRUSTED:
untrusted_selected = True
unknown_selected = False
trusted_selected = False
elif trust_level == DirectoryEntry.UNKNOWN:
untrusted_selected = False
unknown_selected = True
trusted_selected = False
elif trust_level == DirectoryEntry.TRUSTED:
untrusted_selected = False
unknown_selected = False
trusted_selected = True
trust_button_group = []
r_untrusted = urwid.RadioButton(trust_button_group, "Untrusted", state=untrusted_selected)
r_unknown = urwid.RadioButton(trust_button_group, "Unknown", state=unknown_selected)
r_trusted = urwid.RadioButton(trust_button_group, "Trusted", state=trusted_selected)
e_name = urwid.Edit(caption="Name : ",edit_text=display_str)
def show_known_nodes(sender):
options = self.parent.left_pile.options(height_type="weight", height_amount=1)
self.parent.left_pile.contents[0] = (self.parent.known_nodes_display, options)
def connect(sender):
self.app.ui.main_display.request_redraw(extra_delay=0.75)
self.parent.browser.retrieve_url(RNS.hexrep(source_hash, delimit=False))
show_known_nodes(None)
def pn_change(sender, userdata):
self.pn_changed = True
propagation_node_checkbox = urwid.CheckBox("Use as default propagation node", state=(self.app.get_user_selected_propagation_node() == source_hash), on_state_change=pn_change)
def save_node(sender):
if self.pn_changed:
if propagation_node_checkbox.get_state():
self.app.set_user_selected_propagation_node(source_hash)
else:
self.app.set_user_selected_propagation_node(None)
trust_level = DirectoryEntry.UNTRUSTED
if r_unknown.get_state() == True:
trust_level = DirectoryEntry.UNKNOWN
if r_trusted.get_state() == True:
trust_level = DirectoryEntry.TRUSTED
display_str = e_name.get_edit_text()
node_entry = DirectoryEntry(source_hash, display_name=display_str, trust_level=trust_level, hosts_node=True)
self.app.directory.remember(node_entry)
self.app.ui.main_display.sub_displays.network_display.directory_change_callback()
show_known_nodes(None)
type_button = ("weight", 0.45, urwid.Button("Connect", on_press=connect))
save_button = ("weight", 0.45, urwid.Button("Save", on_press=save_node))
button_columns = urwid.Columns([("weight", 0.45, urwid.Button("Back", on_press=show_known_nodes)), ("weight", 0.1, urwid.Text("")), save_button, ("weight", 0.1, urwid.Text("")), type_button])
pile_widgets = [
urwid.Text("Type : "+type_string, align="left"),
# urwid.Text("Name : "+display_str, align="left"),
e_name,
urwid.Text("Node Addr : "+addr_str, align="left"),
urwid.Text("LXMF Addr : "+lxmf_addr_str, align="left"),
# urwid.Text(["Trust : ", (style, trust_str)], align="left"),
urwid.Divider(g["divider1"]),
propagation_node_checkbox,
urwid.Divider(g["divider1"]),
r_untrusted,
r_unknown,
r_trusted,
urwid.Divider(g["divider1"]),
button_columns
]
node_ident = RNS.Identity.recall(source_hash)
op_hash = RNS.Destination.hash_from_name_and_identity("lxmf.delivery", node_ident)
op_str = self.app.directory.simplest_display_str(op_hash)
operator_entry = urwid.Text("Operator : "+op_str, align="left")
pile_widgets.insert(4, operator_entry)
pile = urwid.Pile(pile_widgets)
self.display_widget = urwid.Filler(pile, valign="top", height="pack")
urwid.WidgetWrap.__init__(self, urwid.LineBox(self.display_widget, title="Node Info"))
class KnownNodes(urwid.WidgetWrap):
def __init__(self, app):
self.app = app
@@ -404,6 +543,8 @@ class KnownNodes(urwid.WidgetWrap):
trust_level = self.app.directory.trust_level(source_hash)
display_str = self.app.directory.simplest_display_str(source_hash)
parent = self.app.ui.main_display.sub_displays.network_display
def dismiss_dialog(sender):
self.delegate.close_list_dialogs()
@@ -411,11 +552,21 @@ class KnownNodes(urwid.WidgetWrap):
self.delegate.browser.retrieve_url(RNS.hexrep(source_hash, delimit=False))
self.delegate.close_list_dialogs()
def show_info(sender):
info_widget = KnownNodeInfo(source_hash)
options = parent.left_pile.options(height_type="weight", height_amount=1)
parent.left_pile.contents[0] = (info_widget, options)
dialog = ListDialogLineBox(
urwid.Pile([
urwid.Text("Connect to node\n"+self.app.directory.simplest_display_str(source_hash)+"\n", align="center"),
urwid.Columns([("weight", 0.45, urwid.Button("Yes", on_press=confirmed)), ("weight", 0.1, urwid.Text("")), ("weight", 0.45, urwid.Button("No", on_press=dismiss_dialog))])
urwid.Columns([
("weight", 0.45, urwid.Button("Yes", on_press=confirmed)),
("weight", 0.1, urwid.Text("")),
("weight", 0.45, urwid.Button("No", on_press=dismiss_dialog)),
("weight", 0.1, urwid.Text("")),
("weight", 0.45, urwid.Button("Info", on_press=show_info))])
]), title="?"
)
dialog.delegate = self.delegate
@@ -427,7 +578,9 @@ class KnownNodes(urwid.WidgetWrap):
self.delegate.left_pile.contents[0] = (overlay, options)
def delete_selected_entry(self):
source_hash = self.ilb.get_selected_item().original_widget.source_hash
si = self.ilb.get_selected_item()
if si != None:
source_hash = si.original_widget.source_hash
def dismiss_dialog(sender):
self.delegate.close_list_dialogs()
@@ -873,6 +1026,9 @@ class NetworkLeftPile(urwid.Pile):
def keypress(self, size, key):
if key == "ctrl l":
self.parent.toggle_list()
elif key == "ctrl p":
self.parent.reinit_lxmf_peers()
self.parent.show_peers()
elif key == "ctrl w":
self.parent.browser.disconnect()
elif key == "ctrl u":
@@ -894,6 +1050,7 @@ class NetworkDisplay():
self.browser.loopback = self.app.node.destination.hash
self.known_nodes_display = KnownNodes(self.app)
self.lxmf_peers_display = LXMFPeers(self.app)
self.network_stats_display = NetworkStats(self.app, self)
self.announce_stream_display = AnnounceStream(self.app, self)
self.local_peer_display = LocalPeer(self.app, self)
@@ -935,6 +1092,15 @@ class NetworkDisplay():
self.left_pile.contents[0] = (self.known_nodes_display, options)
self.list_display = 1
def show_peers(self):
options = self.left_pile.options(height_type="weight", height_amount=1)
self.left_pile.contents[0] = (self.lxmf_peers_display, options)
if self.list_display != 0:
self.list_display = 0
else:
self.list_display = 1
def focus_lists(self):
self.columns.focus_position = 0
@@ -944,6 +1110,11 @@ class NetworkDisplay():
self.close_list_dialogs()
self.announce_stream_display.rebuild_widget_list()
def reinit_lxmf_peers(self):
self.lxmf_peers_display = LXMFPeers(self.app)
self.lxmf_peers_display.delegate = self
self.close_list_dialogs()
def close_list_dialogs(self):
if self.list_display == 0:
options = self.left_pile.options(height_type="weight", height_amount=1)
@@ -972,6 +1143,97 @@ class NetworkDisplay():
self.known_nodes_display.rebuild_widget_list()
class LXMFPeers(urwid.WidgetWrap):
def __init__(self, app):
self.app = app
self.peer_list = app.message_router.peers
# self.peer_list = {}
g = self.app.ui.glyphs
self.widget_list = self.make_peer_widgets()
self.ilb = IndicativeListBox(
self.widget_list,
on_selection_change=self.node_list_selection,
initialization_is_selection_change=False,
highlight_offFocus="list_off_focus"
)
if len(self.peer_list) > 0:
self.display_widget = self.ilb
widget_style = None
self.no_content = False
else:
self.no_content = True
widget_style = "inactive_text"
self.pile = urwid.Pile([urwid.Text(("warning_text", g["info"]+"\n"), align="center"), SelectText(("warning_text", "Currently, no LXMF nodes are peered\n\n"), align="center")])
self.display_widget = urwid.Filler(self.pile, valign="top", height="pack")
urwid.WidgetWrap.__init__(self, urwid.AttrMap(urwid.LineBox(self.display_widget, title="LXMF Peers"), widget_style))
def keypress(self, size, key):
if key == "up" and (self.no_content or self.ilb.first_item_is_selected()):
nomadnet.NomadNetworkApp.get_shared_instance().ui.main_display.frame.set_focus("header")
elif key == "ctrl x":
self.delete_selected_entry()
return super(LXMFPeers, self).keypress(size, key)
def node_list_selection(self, arg1, arg2):
pass
def delete_selected_entry(self):
si = self.ilb.get_selected_item()
if si != None:
destination_hash = si.original_widget.destination_hash
self.app.message_router.unpeer(destination_hash)
self.delegate.reinit_lxmf_peers()
self.delegate.show_peers()
def rebuild_widget_list(self):
self.peer_list = self.app.message_router.peers
self.widget_list = self.make_peer_widgets()
self.ilb.set_body(self.widget_list)
if len(self.widget_list) > 0:
self.no_content = False
else:
self.no_content = True
self.delegate.reinit_lxmf_peers()
def make_peer_widgets(self):
widget_list = []
for peer_id in self.peer_list:
peer = self.peer_list[peer_id]
pe = LXMFPeerEntry(self.app, peer, self)
pe.destination_hash = peer.destination_hash
widget_list.append(pe)
# TODO: Sort list
return widget_list
class LXMFPeerEntry(urwid.WidgetWrap):
def __init__(self, app, peer, delegate):
destination_hash = peer.destination_hash
self.app = app
g = self.app.ui.glyphs
display_str = RNS.prettyhexrep(destination_hash)
sym = g["sent"]
style = "list_unknown"
focus_style = "list_focus"
widget = ListEntry(sym+" "+display_str+"\n Last heard "+pretty_date(int(peer.last_heard))+"\n "+str(len(peer.unhandled_messages))+" unhandled")
# urwid.connect_signal(widget, "click", delegate.connect_node, node)
self.display_widget = urwid.AttrMap(widget, style, focus_style)
self.display_widget.destination_hash = destination_hash
urwid.WidgetWrap.__init__(self, self.display_widget)
def pretty_date(time=False):
"""

3
nomadnet/vendor/quotes.py vendored
View File

@@ -1,5 +1,6 @@
quotes = [
("I want the wisdom that wise men revere. I want more.", "Faithless"),
("That's enough entropy for you my friend", "Unknown"),
("Any time two people connect online, it's financed by a third person who believes they can manipulate the first two", "Jaron Lanier")
("Any time two people connect online, it's financed by a third person who believes they can manipulate the first two", "Jaron Lanier"),
("The landscape of the future is set, but how one will march across it is not determined", "Terence McKenna")
]

2
setup.py
View File

@@ -23,6 +23,6 @@ setuptools.setup(
entry_points= {
'console_scripts': ['nomadnet=nomadnet.nomadnet:main']
},
install_requires=['rns>=0.2.6', 'lxmf>=0.0.9', 'urwid>=2.1.2'],
install_requires=['rns>=0.2.9', 'lxmf>=0.1.2', 'urwid>=2.1.2'],
python_requires='>=3.6',
)