Skip to content
New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

gnrc_rpl: Rejoining RPL instance as root after reboot messes up routing #5016

Closed
jnohlgard opened this issue Mar 9, 2016 · 18 comments
Closed
Assignees
Labels
Area: network Area: Networking Type: bug The issue reports a bug / The PR fixes a bug (including spelling errors)

Comments

@jnohlgard
Copy link
Member

Scenario: RPL network with two nodes, one root with the border router example with ethos and another as a normal single interface RPL router (gnrc_networking or microcoap_server). Border router reboots while other RPL routers are still alive -> BR routing messed up

PC address: 2001:16d8:ff00:645::2
BR address (wireless): 2001:16d8:ff00:8645:1016:4e54:8bab:4012
other node address: 2001:16d8:ff00:8645:1016:4e54:8af1:4012

The border router was started first, configured for ethos, then the following commands to set up radio and RPL on the BR:

ifconfig 6 set chan 0
ifconfig 6 set pan 1911
ifconfig 6 set page 2
rpl init 6
rpl root 0 2001:16d8:ff00:8645:1016:4e54:8bab:4012

Then I booted the wireless node and configured it similarly:

ifconfig 7 set chan 0
ifconfig 7 set pan 1911
ifconfig 7 set page 2
rpl init 7

After this, everything works, even IPv6 internet connectivity. I ran ping6 2600:: on the wireless node and it receives the replies correctly.

I then rebooted the BR node and did the same initialization commands above, however, I noticed that it joined the DODAG right after rpl init before the rpl root command. Now it is no longer working and the BR is trying to route packets via itself over the air, so ping6 2600:: from the BR results in the below packet:

0000   61 dc 0b 77 07 12 40 ab 8b 54 4e 16 12 12 40 ab  a..w..@..TN...@.
0010   8b 54 4e 16 12 7a 00 3a 20 01 16 d8 ff 00 86 45  .TN..z.: ......E
0020   10 16 4e 54 8b ab 40 12 26 00 00 00 00 00 00 00  ..NT..@.&.......
0030   00 00 00 00 00 00 00 00 80 00 c8 70 00 55 00 01  ...........p.U..
0040   55 55 55 55                                      UUUU

Frame 887: 68 bytes on wire (544 bits), 68 bytes captured (544 bits) on interface 0
IEEE 802.15.4 Data, Dst: 12:16:4e:54:8b:ab:40:12, Src: 12:16:4e:54:8b:ab:40:12
    Frame Control Field: 0xdc61, Frame Type: Data, Acknowledge Request, Intra-PAN, Destination Addressing Mode: Long/64-bit, Source Addressing Mode: Long/64-bit
        .... .... .... .001 = Frame Type: Data (0x0001)
        .... .... .... 0... = Security Enabled: False
        .... .... ...0 .... = Frame Pending: False
        .... .... ..1. .... = Acknowledge Request: True
        .... .... .1.. .... = Intra-PAN: True
        .... 11.. .... .... = Destination Addressing Mode: Long/64-bit (0x0003)
        ..01 .... .... .... = Frame Version: 1
        11.. .... .... .... = Source Addressing Mode: Long/64-bit (0x0003)
    Sequence Number: 11
    Destination PAN: 0x0777
    Destination:     12:16:4e:54:8b:ab:40:12 (12:16:4e:54:8b:ab:40:12) <<<<<<<========= SIC! 
    Extended Source: 12:16:4e:54:8b:ab:40:12 (12:16:4e:54:8b:ab:40:12) <<<<<<<========= SIC! 
6LoWPAN
    IPHC Header
        011. .... = Pattern: IP header compression (0x03)
        ...1 1... .... .... = Traffic class and flow label: Version, traffic class, and flow label compressed (0x0003)
        .... .0.. .... .... = Next header: Inline
        .... ..10 .... .... = Hop limit: 64 (0x0002)
        .... .... 0... .... = Context identifier extension: False
        .... .... .0.. .... = Source address compression: Stateless
        .... .... ..00 .... = Source address mode: Inline (0x0000)
        .... .... .... 0... = Multicast address compression: False
        .... .... .... .0.. = Destination address compression: Stateless
        .... .... .... ..00 = Destination address mode: Inline (0x0000)
    Next header: ICMPv6 (0x3a)
    Source: 2001:16d8:ff00:8645:1016:4e54:8bab:4012
    Destination: 2600::
Internet Protocol Version 6, Src: 2001:16d8:ff00:8645:1016:4e54:8bab:4012, Dst: 2600::
    0110 .... = Version: 6
    .... 0000 0000 .... .... .... .... .... = Traffic class: 0x00 (DSCP: CS0, ECN: Not-ECT)
    .... .... .... 0000 0000 0000 0000 0000 = Flowlabel: 0x00000000
    Payload length: 12
    Next header: ICMPv6 (58)
    Hop limit: 64
    Source: 2001:16d8:ff00:8645:1016:4e54:8bab:4012
    Destination: 2600::
Internet Control Message Protocol v6
    Type: Echo (ping) request (128)
    Code: 0
    Checksum: 0xc870 [correct]
    Identifier: 0x0055
    Sequence: 1
    [No response seen]
        [Expert Info (Warn/Sequence): No response seen to ICMPv6 request in frame 887]
            [No response seen to ICMPv6 request in frame 887]
            [Severity level: Warn]
            [Group: Sequence]
    Data (4 bytes)
        Data: 55555555
        [Length: 4]

After the issue appears the fibroute command shows that the default route via the ethos interface was deleted (by joining the RPL DAG as a router?)

running fibroute add :: via fe80::1 dev 7 makes routing work on the BR again and I can yet again communicate between the PC and the 6lowpan network.

@jnohlgard jnohlgard added Type: bug The issue reports a bug / The PR fixes a bug (including spelling errors) Area: network Area: Networking GNRC labels Mar 9, 2016
@jnohlgard jnohlgard modified the milestone: POSIX compliance Mar 9, 2016
@miri64 miri64 assigned cgundogan and unassigned miri64 Mar 9, 2016
@miri64
Copy link
Member

miri64 commented Mar 9, 2016

RPL is not really my forte :-)

@cgundogan
Copy link
Member

Once rpl is initialized it sends out a DIS to probe for a DAG in its neighborhood.
The DAG of the other node is still alive and emits DIOs.

I could propose two solutions for that

  1. parameterize rpl_init, so that you can specify if a probing (DIS) should be done or not. You still have a decreased chance that you join a DAG if a DIO is emitted after you initialize and before you create the root, however.
  2. also initialize rpl (if not done before) when calling rpl_root, this way the root node must not call rpl_init before rpl_root and hence there is no time in between to join the defunct DAG.

edited

@jnohlgard
Copy link
Member Author

@cgundogan What is the proper procedure for recovering from the root node of an RPL DODAG losing its state? Increment DODAG version and let all nodes re-join the tree?

@cgundogan
Copy link
Member

There is no proper procedure that I know of. If the root node loses its state, then how should it know from which version it should start? If the root node just creates a new DAG with the same instance id and dodag id, but a lower version number, then I have no idea how a node that is in a DAG with the same instance id and DODAG id but a higher version should react. Probably will they ignore the new DODAG until the DAG fades away due to timeouts. I will have to look into the RFC, it's an interesting use case.

@cgundogan
Copy link
Member

@BytesGalore do you have any clues?

@BytesGalore
Copy link
Member

Basically the situation described is "just" a local inconsistency, independent if its the root-node or any other node.
Just a guess, I think the node should reply a unicast DIO with the current DODAG version when receiving a outdated version from the root node. In turn the root can adjust its version.
(BTW, you can test this situation with the attacker #4831 just rising the DODAG version of a root child-node)

@cgundogan
Copy link
Member

(BTW, you can test this situation with the attacker #4831 just rising the DODAG version of a root child-node)

what's a root child-node? (:

@BytesGalore
Copy link
Member

I mean a node just below the root, using the root node as parent.

@OlegHahm
Copy link
Member

Maybe it makes sense to discuss this on the mailing list to allow a broader audience to participate?

@BytesGalore
Copy link
Member

I did not said it explicitly before so:
The root-node do a global repair when receiving a DIO with a higher DODAG version then its own. As result, the root-node will not join the outdated advertized DODAG as router and not add/overwrite its default-route entry with an entry to the advertized DODAG-root (itself).

@jnohlgard
Copy link
Member Author

@BytesGalore That's good to hear. As a workaround, I have modified my border router application to do rpl init immediately followed by rpl root 0 (myip) and it seems to work across reboots.

@miri64
Copy link
Member

miri64 commented Mar 11, 2016

Can someone dump this result to the mailing list too?

@miri64 miri64 added this to the Release 2016.10 milestone Oct 18, 2016
miri64 added a commit that referenced this issue Nov 11, 2016
RIOT-2016.10 - Release Notes
============================
RIOT is a real-time multi-threading operating system that supports a range of
devices that are typically found in the Internet of Things: 8-bit
microcontrollers, 16-bit microcontrollers and light-weight 32-bit processors.

RIOT is based on the following design principles: energy-efficiency, real-time
capabilities, small memory footprint, modularity, and uniform API access,
independent of the underlying hardware (this API offers partial POSIX
compliance).

RIOT is developed by an international open source community which is
independent of specific vendors (e.g. similarly to the Linux community) and is
licensed with a non-viral copyleft license (LGPLv2.1), which allows indirect
business models around the free open-source software platform provided by
RIOT.

About this release:
===================
This release provides a lot of new features as well as it  fixes several major
bugs. Among these new features are the new simplified network socket API
called sock, the GNRC specific CoAP implementation gcoap and several new
packages: TinyDTLS, the Aversive++ microcontroller library for robotics, the
u8g2 graphic library, and nanocoap.
Using the new sock API an implementation of the Simple Time Network Protocol
(SNTP) was also introduced, allowing for time synchronization between nodes.
New platforms include the Arduino Uno, the Arduino Duemilanove, the Arduino
Zero, SODAQ Autonomo, and the Zolertia remote (rev. B).
The most significant bug fix was done in native which led to a significantly
more robust handling of ISRs and now allows for at least 1,000 native
instances running stably on one machine.

About 263 pull requests with about 398 commits have been merged since the last
release and about 42 issues have been solved. 37 people contributed with code
in 100 days. 1006 files have been touched with 166500 insertions and 26926
deletions.

Notations used below:
=====================
+ means new feature/item
* means modified feature/item
- means removed feature/item

New features and changes
========================
General
-------
* Verbose behavior for assert() macro

Core
----
+ MPU support for Cortex-M

API changes
-----------
+ Socket-like sock API (replacing conn)
* netdev2: Add Testmodes and CCA modes
* IEEE 802.15.4: clean-up Intra-PAN behavior
* IEEE 802.15.4: centralize default values
* gnrc_pktbuf: allow for 0-sized snips
+ gnrc_netapi: mbox and arbitrary callback support

System libraries
----------------
No new features or changes

Networking
----------
+ Provide sock-port for GNRC
+ gcoap: a GNRC-based CoAP implementation
+ Simple Network Time Protocol (RFC 5905, section 14)
+ Priority Queue for packet snips
+ IPv4 header definitions

Packages
--------
+ nanocoap: CoAP header parser/builder
+ TinyDTLS: DTLS library
+ tiny-asn1: asn.1/der decoder
+ Aversive++ microcontroller programming library
+ u8g2 graphic library

Platforms
---------
+ Support for stm32f2xx MCU family
+ Low power modes for samd21 CPUs
+ More Arduino-based platforms:
    + Arduino Uno
    + Arduino Duemilanove
    + Arduino Zero
+ More boards of ST's Nucleo platforms:
    + ST Nucleo F030 board support
    + ST Nucleo F070 board support
    + ST Nucleo F446 board support
+ SODAQ Automono
+ Zolertia remote rev. B

Drivers
-------
+ W5100 Ethernet device
+ Atmel IO1 Xplained extension
+ LPD8808 LED strips
* at86rf2xx: provide capability to access the RND_VALUE random value register

Build System
------------
+ static-tests build target for easy local execution of CI's static tests

Other
-----
+ Provide Arduino API to Nucleo boards
+ Packer configuration file to build vagrant boxes
+ CC2650STK Debugger Support
+ ethos: add Ethos over TCP support

Fixed Issues from the last release
==================================
 #534:  native debugging on osx fails
 #2071: native: *long* overdue fixes
 #3341: netdev2_tap crashes when hammered
 #5007: gnrc icmpv6: Ping reply goes out the wrong interface
 #5432: native: valgrind fails

Known Issues
============
Networking related issues
-------------------------
 #3075: nhdp: unnecessary microsecond precision: NHDP works with timer values
       of microsecond precision which is not required. Changing to lower
       precision would save some memory.
 #4048: potential racey memory leak: According to the packet buffer stats,
       flood-pinging a multicast destination may lead to a memory leak due to
       a race condition. However, it seems to be a rare case and a completely
       filled up packet buffer was not observed.
 #4388: POSIX sockets: open socket is bound to a specific thread: This was an
       inherit problem of the conn API under GNRC. Since the POSIX sockets are
       still based on conn for this release, this issue persists
 #4527: gnrc_ipv6: Multicast is not forwarded if routing node listens to the
       address (might still be fixable for release, see #5729, #5230: gnrc
       ipv6: multicast packets are not dispatched to the upper layers)
 #5016: gnrc_rpl: Rejoining RPL instance as root after reboot messes up routing
 #5055: cpuid: multiple radios will get same EUI-64 Nodes with multiple
       interfaces might get the same EUI-64 for them since they are generated
       from the same CPU ID.
 #5656: Possible Weakness with locking in the GNRC network stack: For some
       operations mutexes to the network interfaces need to get unlocked in
       the current implementation to not get deadlocked. Recursive mutexes as
       provided in #5731 might help to solve this problem.
 #5748: gnrc: nodes crashing with too small packet buffer: A packet buffer of
       size ~512 B might lead to crashes. The issue describes this for several
       hundret nodes, but agressive flooding with just two nodes was also
       shown to lead to this problem.
 #5858: gnrc: 6lo: potential problem with reassembly of fragments: If one frame
       gets lost the reassembly state machine might get out of sync

 ### NDP is not working properly
 #4499: handle of l2src_len in gnrc_ndp_rtr_sol_handle: Reception of a router
       solicitation might lead to invalid zero-length link-layer addresses in
       neighbor cache.
 #5005: ndp: router advertisement sent with global address: Under some
       circumstances a router might send RAs with GUAs. While they are ignored
       on receive (as RFC 4861 specifies), RAs should have link-local
       addresses and not even be send out this way.
 #5122: NDP: global unicast address on non-6LBR nodes disappears after a while:
       Several issues (also see #5760) lead to a global unicast address
       effectively being banned from the network (disappears from neighbor
       cache, is not added again)
 #5467: ipv6 address vanishes when ARO (wrongly) indicates DUP caused by
       outdated ncache at router
 #5539: Border Router: packet not forwarded from ethos to interface 6
 #5790: ND: Lost of Global IPV6 on node after sending lot of UDP frame from BR

Timer related issues
--------------------
 #4841: xtimer: timer already in the list: Under some conditions an xtimer can
       end up twice in the internal list of the xtimer module
 #4902: xtimer: xtimer_set: xtimer_set does not handle integer overflows well
 #5338: xtimer: xtimer_now() not ISR safe for non-32-bit platforms.
 #5928: xtimer: usage in board_init() crashes: some boards use the xtimer in
       there board_init() function. The xtimer is however first initialized in
       the auto_init module which is executed after board_init()
 #6052: tests: xtimer_drift gets stuck: xtimer_drift application freezes after
       ~30-200 seconds

native related issues
---------------------
 #495:  native not float safe: When the FPU is used when an asynchronous context
       switch occurs, either the stack gets corrupted or a floating point
       exception occurs.
 #2175: ubjson: valgind registers "Invalid write of size 4" in unittests
 #4590: pkg: building relic with clang fails.
 #5796: native: tlsf: early malloc will lead to a crash: TLSF needs pools to be
       initialized (which is currently expected to be done in an application).
       If a malloc is needed before an application's main started (e.g. driver
       initialization) the node can crash, since no pool is allocated yet.

other platform related issues
-----------------------------
 #1891: newlib-nano: Printf formatting does not work properly for some numberic
       types: PRI[uxdi]64, PRI[uxdi]8 and float are not parsed in newlib-nano
 #2006: cpu/nrf51822: timer callback may be fired too early
 #2143: unittests: tests-core doesn't compile for all platforms: GCC build-ins
       were used in the unittests which are not available with msp430-gcc
 #2300: qemu unittest fails because of a page fault
 #4512: pkg: tests: RELIC unittests fail on iotlab-m3
 #4522: avsextrem: linker sometimes doesn't find `bl_init_clks()`
 #4560: make: clang is more pedantic than gcc oonf_api is not building with
       clang. (Partly solved by #4593)
 #4694: drivers/lm75a: does not build
 #4737: cortex-m: Hard fault after a thread exits (under some circumstances)
 #4822: kw2xrf: packet loss when packets get fragmented
 #4876: at86rf2xx: Simultaneous use of different transceiver types is not
       supported
 #4954: chronos: compiling with -O0 breaks
 #4866: not all GPIO driver implementations are thread safe: Due to non-atomic
       operations in the drivers some pin configurations might get lost.
 #5009: RIOT is saw-toothing in energy consumption (even when idling)
 #5103: xtimer: weird behavior of tests/xtimer_drift: xtimer_drift randomly
       jumps a few seconds on nrf52
 #5361: cpu/cc26x0: timer broken
 #5405: Eratic timings on iotlab-m3 with compression context activated
 #5460: cpu/samd21: i2c timing with compiler optimization
 #5486: at86rf2xx: lost interrupts
 #5489: cpu/lpc11u34: ADC broken
 #5603: atmega boards second UART issue
 #5678: at86rf2xx: failed assertion in _isr
 #5719: cc2538: rf driver doesn't handle large packets
 #5799: kw2x: 15.4 duplicate transmits
 #5944: msp430: ipv6_hdr unittests fail
 #5848: arduino: Race condition in sys/arduino/Makefile.include
 #5954: nRF52 uart_write get stuck
 #6018: nRF52 gnrc 6lowpan ble memory leak

other issues
------------
 #1263: TLSF implementation contains (a) read-before-write error(s).
 #3256: make: Setting constants on compile time doesn't really set them
       everywhere
 #3366: periph/i2c: handle NACK
 #4488: Making the newlib thread-safe: When calling puts/printf after
       thread_create(), the CPU hangs for DMA enabled uart drivers.
 #4866: periph: GPIO drivers are not thread safe
 #5128: make: buildtest breaks when exporting FEATURES_PROVIDED var
 #5207: make: buildest fails with board dependent application Makefiles
 #5390: pkg: OpenWSN does not compile: This package still uses deprecated
       modules and was not tested for a long time.
 #5520: tests/periph_uart not working
 #5561: C++11 extensions in header files
 #5776: make: Predefining CFLAGS are parsed weirdly
 #5863: OSX +  SAMR21-xpro: shell cannot handle command inputs larger than 64
       chars
 #5962: Makefile: UNDEF variable is not working as documented
 #6022: pkg: build order issue

Special Thanks
==============
We like to give our special thanks to all the companies that provided us with
their hardware for porting and testing, namely the people from (in
alphabeticalorder): Atmel, Freescale, Imagination Technologies, Limifrog,
Nordic, OpenMote, Phytec, SiLabs, UDOO,and Zolertia; and also companies that
directly sponsored development time: Cisco Systems, Eistec, Ell-i, Enigeering
Spirit, Nordic, FreshTemp LLC, OTAkeys and Phytec.

More information
================
http://www.riot-os.org

Mailing lists
-------------
* RIOT OS kernel developers list
  devel@riot-os.org (http://lists.riot-os.org/mailman/listinfo/devel)
* RIOT OS users list
  users@riot-os.org (http://lists.riot-os.org/mailman/listinfo/users)
* RIOT commits
  commits@riot-os.org (http://lists.riot-os.org/mailman/listinfo/commits)
* Github notifications
  notifications@riot-os.org (http://lists.riot-os.org/mailman/listinfo/notifications)

IRC
---
* Join the RIOT IRC channel at: irc.freenode.net, #riot-os

License
=======
* Most of the code developed by the RIOT community is licensed under the GNU
  Lesser General Public License (LGPL) version 2.1 as published by the Free
  Software Foundation.
* Some external sources are published under a separate, LGPL compatible
  license (e.g. some files developed by SICS).

All code files contain licensing information.
miri64 added a commit that referenced this issue Nov 11, 2016
RIOT-2016.10 - Release Notes
============================
RIOT is a real-time multi-threading operating system that supports a range of
devices that are typically found in the Internet of Things: 8-bit
microcontrollers, 16-bit microcontrollers and light-weight 32-bit processors.

RIOT is based on the following design principles: energy-efficiency, real-time
capabilities, small memory footprint, modularity, and uniform API access,
independent of the underlying hardware (this API offers partial POSIX
compliance).

RIOT is developed by an international open source community which is
independent of specific vendors (e.g. similarly to the Linux community) and is
licensed with a non-viral copyleft license (LGPLv2.1), which allows indirect
business models around the free open-source software platform provided by
RIOT.

About this release:
===================
This release provides a lot of new features as well as it  fixes several major
bugs. Among these new features are the new simplified network socket API
called sock, the GNRC specific CoAP implementation gcoap and several new
packages: TinyDTLS, the Aversive++ microcontroller library for robotics, the
u8g2 graphic library, and nanocoap.
Using the new sock API an implementation of the Simple Time Network Protocol
(SNTP) was also introduced, allowing for time synchronization between nodes.
New platforms include the Arduino Uno, the Arduino Duemilanove, the Arduino
Zero, SODAQ Autonomo, and the Zolertia remote (rev. B).
The most significant bug fix was done in native which led to a significantly
more robust handling of ISRs and now allows for at least 1,000 native
instances running stably on one machine.

About 263 pull requests with about 398 commits have been merged since the last
release and about 42 issues have been solved. 37 people contributed with code
in 100 days. 1006 files have been touched with 166500 insertions and 26926
deletions.

Notations used below:
=====================
+ means new feature/item
* means modified feature/item
- means removed feature/item

New features and changes
========================
General
-------
* Verbose behavior for assert() macro

Core
----
+ MPU support for Cortex-M

API changes
-----------
+ Socket-like sock API (replacing conn)
* netdev2: Add Testmodes and CCA modes
* IEEE 802.15.4: clean-up Intra-PAN behavior
* IEEE 802.15.4: centralize default values
* gnrc_pktbuf: allow for 0-sized snips
+ gnrc_netapi: mbox and arbitrary callback support

System libraries
----------------
No new features or changes

Networking
----------
+ Provide sock-port for GNRC
+ gcoap: a GNRC-based CoAP implementation
+ Simple Network Time Protocol (RFC 5905, section 14)
+ Priority Queue for packet snips
+ IPv4 header definitions

Packages
--------
+ nanocoap: CoAP header parser/builder
+ TinyDTLS: DTLS library
+ tiny-asn1: asn.1/der decoder
+ Aversive++ microcontroller programming library
+ u8g2 graphic library

Platforms
---------
+ Support for stm32f2xx MCU family
+ Low power modes for samd21 CPUs
+ More Arduino-based platforms:
    + Arduino Uno
    + Arduino Duemilanove
    + Arduino Zero
+ More boards of ST's Nucleo platforms:
    + ST Nucleo F030 board support
    + ST Nucleo F070 board support
    + ST Nucleo F446 board support
+ SODAQ Automono
+ Zolertia remote rev. B

Drivers
-------
+ W5100 Ethernet device
+ Atmel IO1 Xplained extension
+ LPD8808 LED strips
* at86rf2xx: provide capability to access the RND_VALUE random value register

Build System
------------
+ static-tests build target for easy local execution of CI's static tests

Other
-----
+ Provide Arduino API to Nucleo boards
+ Packer configuration file to build vagrant boxes
+ CC2650STK Debugger Support
+ ethos: add Ethos over TCP support

Fixed Issues from the last release
==================================
 #534:  native debugging on osx fails
 #2071: native: *long* overdue fixes
 #3341: netdev2_tap crashes when hammered
 #5007: gnrc icmpv6: Ping reply goes out the wrong interface
 #5432: native: valgrind fails

Known Issues
============
Networking related issues
-------------------------
 #3075: nhdp: unnecessary microsecond precision: NHDP works with timer values
       of microsecond precision which is not required. Changing to lower
       precision would save some memory.
 #4048: potential racey memory leak: According to the packet buffer stats,
       flood-pinging a multicast destination may lead to a memory leak due to
       a race condition. However, it seems to be a rare case and a completely
       filled up packet buffer was not observed.
 #4388: POSIX sockets: open socket is bound to a specific thread: This was an
       inherit problem of the conn API under GNRC. Since the POSIX sockets are
       still based on conn for this release, this issue persists
 #4527: gnrc_ipv6: Multicast is not forwarded if routing node listens to the
       address (might still be fixable for release, see #5729, #5230: gnrc
       ipv6: multicast packets are not dispatched to the upper layers)
 #5016: gnrc_rpl: Rejoining RPL instance as root after reboot messes up routing
 #5055: cpuid: multiple radios will get same EUI-64 Nodes with multiple
       interfaces might get the same EUI-64 for them since they are generated
       from the same CPU ID.
 #5656: Possible Weakness with locking in the GNRC network stack: For some
       operations mutexes to the network interfaces need to get unlocked in
       the current implementation to not get deadlocked. Recursive mutexes as
       provided in #5731 might help to solve this problem.
 #5748: gnrc: nodes crashing with too small packet buffer: A packet buffer of
       size ~512 B might lead to crashes. The issue describes this for several
       hundret nodes, but agressive flooding with just two nodes was also
       shown to lead to this problem.
 #5858: gnrc: 6lo: potential problem with reassembly of fragments: If one frame
       gets lost the reassembly state machine might get out of sync

 ### NDP is not working properly
 #4499: handle of l2src_len in gnrc_ndp_rtr_sol_handle: Reception of a router
       solicitation might lead to invalid zero-length link-layer addresses in
       neighbor cache.
 #5005: ndp: router advertisement sent with global address: Under some
       circumstances a router might send RAs with GUAs. While they are ignored
       on receive (as RFC 4861 specifies), RAs should have link-local
       addresses and not even be send out this way.
 #5122: NDP: global unicast address on non-6LBR nodes disappears after a while:
       Several issues (also see #5760) lead to a global unicast address
       effectively being banned from the network (disappears from neighbor
       cache, is not added again)
 #5467: ipv6 address vanishes when ARO (wrongly) indicates DUP caused by
       outdated ncache at router
 #5539: Border Router: packet not forwarded from ethos to interface 6
 #5790: ND: Lost of Global IPV6 on node after sending lot of UDP frame from BR

Timer related issues
--------------------
 #4841: xtimer: timer already in the list: Under some conditions an xtimer can
       end up twice in the internal list of the xtimer module
 #4902: xtimer: xtimer_set: xtimer_set does not handle integer overflows well
 #5338: xtimer: xtimer_now() not ISR safe for non-32-bit platforms.
 #5928: xtimer: usage in board_init() crashes: some boards use the xtimer in
       there board_init() function. The xtimer is however first initialized in
       the auto_init module which is executed after board_init()
 #6052: tests: xtimer_drift gets stuck: xtimer_drift application freezes after
       ~30-200 seconds

native related issues
---------------------
 #495:  native not float safe: When the FPU is used when an asynchronous context
       switch occurs, either the stack gets corrupted or a floating point
       exception occurs.
 #2175: ubjson: valgind registers "Invalid write of size 4" in unittests
 #4590: pkg: building relic with clang fails.
 #5796: native: tlsf: early malloc will lead to a crash: TLSF needs pools to be
       initialized (which is currently expected to be done in an application).
       If a malloc is needed before an application's main started (e.g. driver
       initialization) the node can crash, since no pool is allocated yet.

other platform related issues
-----------------------------
 #1891: newlib-nano: Printf formatting does not work properly for some numberic
       types: PRI[uxdi]64, PRI[uxdi]8 and float are not parsed in newlib-nano
 #2006: cpu/nrf51822: timer callback may be fired too early
 #2143: unittests: tests-core doesn't compile for all platforms: GCC build-ins
       were used in the unittests which are not available with msp430-gcc
 #2300: qemu unittest fails because of a page fault
 #4512: pkg: tests: RELIC unittests fail on iotlab-m3
 #4522: avsextrem: linker sometimes doesn't find `bl_init_clks()`
 #4560: make: clang is more pedantic than gcc oonf_api is not building with
       clang. (Partly solved by #4593)
 #4694: drivers/lm75a: does not build
 #4737: cortex-m: Hard fault after a thread exits (under some circumstances)
 #4822: kw2xrf: packet loss when packets get fragmented
 #4876: at86rf2xx: Simultaneous use of different transceiver types is not
       supported
 #4954: chronos: compiling with -O0 breaks
 #4866: not all GPIO driver implementations are thread safe: Due to non-atomic
       operations in the drivers some pin configurations might get lost.
 #5009: RIOT is saw-toothing in energy consumption (even when idling)
 #5103: xtimer: weird behavior of tests/xtimer_drift: xtimer_drift randomly
       jumps a few seconds on nrf52
 #5361: cpu/cc26x0: timer broken
 #5405: Eratic timings on iotlab-m3 with compression context activated
 #5460: cpu/samd21: i2c timing with compiler optimization
 #5486: at86rf2xx: lost interrupts
 #5489: cpu/lpc11u34: ADC broken
 #5603: atmega boards second UART issue
 #5678: at86rf2xx: failed assertion in _isr
 #5719: cc2538: rf driver doesn't handle large packets
 #5799: kw2x: 15.4 duplicate transmits
 #5944: msp430: ipv6_hdr unittests fail
 #5848: arduino: Race condition in sys/arduino/Makefile.include
 #5954: nRF52 uart_write get stuck
 #6018: nRF52 gnrc 6lowpan ble memory leak

other issues
------------
 #1263: TLSF implementation contains (a) read-before-write error(s).
 #3256: make: Setting constants on compile time doesn't really set them
       everywhere
 #3366: periph/i2c: handle NACK
 #4488: Making the newlib thread-safe: When calling puts/printf after
       thread_create(), the CPU hangs for DMA enabled uart drivers.
 #4866: periph: GPIO drivers are not thread safe
 #5128: make: buildtest breaks when exporting FEATURES_PROVIDED var
 #5207: make: buildest fails with board dependent application Makefiles
 #5390: pkg: OpenWSN does not compile: This package still uses deprecated
       modules and was not tested for a long time.
 #5520: tests/periph_uart not working
 #5561: C++11 extensions in header files
 #5776: make: Predefining CFLAGS are parsed weirdly
 #5863: OSX +  SAMR21-xpro: shell cannot handle command inputs larger than 64
       chars
 #5962: Makefile: UNDEF variable is not working as documented
 #6022: pkg: build order issue

Special Thanks
==============
We like to give our special thanks to all the companies that provided us with
their hardware for porting and testing, namely the people from (in
alphabeticalorder): Atmel, Freescale, Imagination Technologies, Limifrog,
Nordic, OpenMote, Phytec, SiLabs, UDOO,and Zolertia; and also companies that
directly sponsored development time: Cisco Systems, Eistec, Ell-i, Enigeering
Spirit, Nordic, FreshTemp LLC, OTAkeys and Phytec.

More information
================
http://www.riot-os.org

Mailing lists
-------------
* RIOT OS kernel developers list
  devel@riot-os.org (http://lists.riot-os.org/mailman/listinfo/devel)
* RIOT OS users list
  users@riot-os.org (http://lists.riot-os.org/mailman/listinfo/users)
* RIOT commits
  commits@riot-os.org (http://lists.riot-os.org/mailman/listinfo/commits)
* Github notifications
  notifications@riot-os.org (http://lists.riot-os.org/mailman/listinfo/notifications)

IRC
---
* Join the RIOT IRC channel at: irc.freenode.net, #riot-os

License
=======
* Most of the code developed by the RIOT community is licensed under the GNU
  Lesser General Public License (LGPL) version 2.1 as published by the Free
  Software Foundation.
* Some external sources are published under a separate, LGPL compatible
  license (e.g. some files developed by SICS).

All code files contain licensing information.
@miri64 miri64 modified the milestones: Release 2016.10, Release 2017.01 Nov 11, 2016
neiljay pushed a commit to neiljay/RIOT that referenced this issue Jan 16, 2017
RIOT-2016.10 - Release Notes
============================
RIOT is a real-time multi-threading operating system that supports a range of
devices that are typically found in the Internet of Things: 8-bit
microcontrollers, 16-bit microcontrollers and light-weight 32-bit processors.

RIOT is based on the following design principles: energy-efficiency, real-time
capabilities, small memory footprint, modularity, and uniform API access,
independent of the underlying hardware (this API offers partial POSIX
compliance).

RIOT is developed by an international open source community which is
independent of specific vendors (e.g. similarly to the Linux community) and is
licensed with a non-viral copyleft license (LGPLv2.1), which allows indirect
business models around the free open-source software platform provided by
RIOT.

About this release:
===================
This release provides a lot of new features as well as it  fixes several major
bugs. Among these new features are the new simplified network socket API
called sock, the GNRC specific CoAP implementation gcoap and several new
packages: TinyDTLS, the Aversive++ microcontroller library for robotics, the
u8g2 graphic library, and nanocoap.
Using the new sock API an implementation of the Simple Time Network Protocol
(SNTP) was also introduced, allowing for time synchronization between nodes.
New platforms include the Arduino Uno, the Arduino Duemilanove, the Arduino
Zero, SODAQ Autonomo, and the Zolertia remote (rev. B).
The most significant bug fix was done in native which led to a significantly
more robust handling of ISRs and now allows for at least 1,000 native
instances running stably on one machine.

About 263 pull requests with about 398 commits have been merged since the last
release and about 42 issues have been solved. 37 people contributed with code
in 100 days. 1006 files have been touched with 166500 insertions and 26926
deletions.

Notations used below:
=====================
+ means new feature/item
* means modified feature/item
- means removed feature/item

New features and changes
========================
General
-------
* Verbose behavior for assert() macro

Core
----
+ MPU support for Cortex-M

API changes
-----------
+ Socket-like sock API (replacing conn)
* netdev2: Add Testmodes and CCA modes
* IEEE 802.15.4: clean-up Intra-PAN behavior
* IEEE 802.15.4: centralize default values
* gnrc_pktbuf: allow for 0-sized snips
+ gnrc_netapi: mbox and arbitrary callback support

System libraries
----------------
No new features or changes

Networking
----------
+ Provide sock-port for GNRC
+ gcoap: a GNRC-based CoAP implementation
+ Simple Network Time Protocol (RFC 5905, section 14)
+ Priority Queue for packet snips
+ IPv4 header definitions

Packages
--------
+ nanocoap: CoAP header parser/builder
+ TinyDTLS: DTLS library
+ tiny-asn1: asn.1/der decoder
+ Aversive++ microcontroller programming library
+ u8g2 graphic library

Platforms
---------
+ Support for stm32f2xx MCU family
+ Low power modes for samd21 CPUs
+ More Arduino-based platforms:
    + Arduino Uno
    + Arduino Duemilanove
    + Arduino Zero
+ More boards of ST's Nucleo platforms:
    + ST Nucleo F030 board support
    + ST Nucleo F070 board support
    + ST Nucleo F446 board support
+ SODAQ Automono
+ Zolertia remote rev. B

Drivers
-------
+ W5100 Ethernet device
+ Atmel IO1 Xplained extension
+ LPD8808 LED strips
* at86rf2xx: provide capability to access the RND_VALUE random value register

Build System
------------
+ static-tests build target for easy local execution of CI's static tests

Other
-----
+ Provide Arduino API to Nucleo boards
+ Packer configuration file to build vagrant boxes
+ CC2650STK Debugger Support
+ ethos: add Ethos over TCP support

Fixed Issues from the last release
==================================
 RIOT-OS#534:  native debugging on osx fails
 RIOT-OS#2071: native: *long* overdue fixes
 RIOT-OS#3341: netdev2_tap crashes when hammered
 RIOT-OS#5007: gnrc icmpv6: Ping reply goes out the wrong interface
 RIOT-OS#5432: native: valgrind fails

Known Issues
============
Networking related issues
-------------------------
 RIOT-OS#3075: nhdp: unnecessary microsecond precision: NHDP works with timer values
       of microsecond precision which is not required. Changing to lower
       precision would save some memory.
 RIOT-OS#4048: potential racey memory leak: According to the packet buffer stats,
       flood-pinging a multicast destination may lead to a memory leak due to
       a race condition. However, it seems to be a rare case and a completely
       filled up packet buffer was not observed.
 RIOT-OS#4388: POSIX sockets: open socket is bound to a specific thread: This was an
       inherit problem of the conn API under GNRC. Since the POSIX sockets are
       still based on conn for this release, this issue persists
 RIOT-OS#4527: gnrc_ipv6: Multicast is not forwarded if routing node listens to the
       address (might still be fixable for release, see RIOT-OS#5729, RIOT-OS#5230: gnrc
       ipv6: multicast packets are not dispatched to the upper layers)
 RIOT-OS#5016: gnrc_rpl: Rejoining RPL instance as root after reboot messes up routing
 RIOT-OS#5055: cpuid: multiple radios will get same EUI-64 Nodes with multiple
       interfaces might get the same EUI-64 for them since they are generated
       from the same CPU ID.
 RIOT-OS#5656: Possible Weakness with locking in the GNRC network stack: For some
       operations mutexes to the network interfaces need to get unlocked in
       the current implementation to not get deadlocked. Recursive mutexes as
       provided in RIOT-OS#5731 might help to solve this problem.
 RIOT-OS#5748: gnrc: nodes crashing with too small packet buffer: A packet buffer of
       size ~512 B might lead to crashes. The issue describes this for several
       hundret nodes, but agressive flooding with just two nodes was also
       shown to lead to this problem.
 RIOT-OS#5858: gnrc: 6lo: potential problem with reassembly of fragments: If one frame
       gets lost the reassembly state machine might get out of sync

 ### NDP is not working properly
 RIOT-OS#4499: handle of l2src_len in gnrc_ndp_rtr_sol_handle: Reception of a router
       solicitation might lead to invalid zero-length link-layer addresses in
       neighbor cache.
 RIOT-OS#5005: ndp: router advertisement sent with global address: Under some
       circumstances a router might send RAs with GUAs. While they are ignored
       on receive (as RFC 4861 specifies), RAs should have link-local
       addresses and not even be send out this way.
 RIOT-OS#5122: NDP: global unicast address on non-6LBR nodes disappears after a while:
       Several issues (also see RIOT-OS#5760) lead to a global unicast address
       effectively being banned from the network (disappears from neighbor
       cache, is not added again)
 RIOT-OS#5467: ipv6 address vanishes when ARO (wrongly) indicates DUP caused by
       outdated ncache at router
 RIOT-OS#5539: Border Router: packet not forwarded from ethos to interface 6
 RIOT-OS#5790: ND: Lost of Global IPV6 on node after sending lot of UDP frame from BR

Timer related issues
--------------------
 RIOT-OS#4841: xtimer: timer already in the list: Under some conditions an xtimer can
       end up twice in the internal list of the xtimer module
 RIOT-OS#4902: xtimer: xtimer_set: xtimer_set does not handle integer overflows well
 RIOT-OS#5338: xtimer: xtimer_now() not ISR safe for non-32-bit platforms.
 RIOT-OS#5928: xtimer: usage in board_init() crashes: some boards use the xtimer in
       there board_init() function. The xtimer is however first initialized in
       the auto_init module which is executed after board_init()
 RIOT-OS#6052: tests: xtimer_drift gets stuck: xtimer_drift application freezes after
       ~30-200 seconds

native related issues
---------------------
 RIOT-OS#495:  native not float safe: When the FPU is used when an asynchronous context
       switch occurs, either the stack gets corrupted or a floating point
       exception occurs.
 RIOT-OS#2175: ubjson: valgind registers "Invalid write of size 4" in unittests
 RIOT-OS#4590: pkg: building relic with clang fails.
 RIOT-OS#5796: native: tlsf: early malloc will lead to a crash: TLSF needs pools to be
       initialized (which is currently expected to be done in an application).
       If a malloc is needed before an application's main started (e.g. driver
       initialization) the node can crash, since no pool is allocated yet.

other platform related issues
-----------------------------
 RIOT-OS#1891: newlib-nano: Printf formatting does not work properly for some numberic
       types: PRI[uxdi]64, PRI[uxdi]8 and float are not parsed in newlib-nano
 RIOT-OS#2006: cpu/nrf51822: timer callback may be fired too early
 RIOT-OS#2143: unittests: tests-core doesn't compile for all platforms: GCC build-ins
       were used in the unittests which are not available with msp430-gcc
 RIOT-OS#2300: qemu unittest fails because of a page fault
 RIOT-OS#4512: pkg: tests: RELIC unittests fail on iotlab-m3
 RIOT-OS#4522: avsextrem: linker sometimes doesn't find `bl_init_clks()`
 RIOT-OS#4560: make: clang is more pedantic than gcc oonf_api is not building with
       clang. (Partly solved by RIOT-OS#4593)
 RIOT-OS#4694: drivers/lm75a: does not build
 RIOT-OS#4737: cortex-m: Hard fault after a thread exits (under some circumstances)
 RIOT-OS#4822: kw2xrf: packet loss when packets get fragmented
 RIOT-OS#4876: at86rf2xx: Simultaneous use of different transceiver types is not
       supported
 RIOT-OS#4954: chronos: compiling with -O0 breaks
 RIOT-OS#4866: not all GPIO driver implementations are thread safe: Due to non-atomic
       operations in the drivers some pin configurations might get lost.
 RIOT-OS#5009: RIOT is saw-toothing in energy consumption (even when idling)
 RIOT-OS#5103: xtimer: weird behavior of tests/xtimer_drift: xtimer_drift randomly
       jumps a few seconds on nrf52
 RIOT-OS#5361: cpu/cc26x0: timer broken
 RIOT-OS#5405: Eratic timings on iotlab-m3 with compression context activated
 RIOT-OS#5460: cpu/samd21: i2c timing with compiler optimization
 RIOT-OS#5486: at86rf2xx: lost interrupts
 RIOT-OS#5489: cpu/lpc11u34: ADC broken
 RIOT-OS#5603: atmega boards second UART issue
 RIOT-OS#5678: at86rf2xx: failed assertion in _isr
 RIOT-OS#5719: cc2538: rf driver doesn't handle large packets
 RIOT-OS#5799: kw2x: 15.4 duplicate transmits
 RIOT-OS#5944: msp430: ipv6_hdr unittests fail
 RIOT-OS#5848: arduino: Race condition in sys/arduino/Makefile.include
 RIOT-OS#5954: nRF52 uart_write get stuck
 RIOT-OS#6018: nRF52 gnrc 6lowpan ble memory leak

other issues
------------
 RIOT-OS#1263: TLSF implementation contains (a) read-before-write error(s).
 RIOT-OS#3256: make: Setting constants on compile time doesn't really set them
       everywhere
 RIOT-OS#3366: periph/i2c: handle NACK
 RIOT-OS#4488: Making the newlib thread-safe: When calling puts/printf after
       thread_create(), the CPU hangs for DMA enabled uart drivers.
 RIOT-OS#4866: periph: GPIO drivers are not thread safe
 RIOT-OS#5128: make: buildtest breaks when exporting FEATURES_PROVIDED var
 RIOT-OS#5207: make: buildest fails with board dependent application Makefiles
 RIOT-OS#5390: pkg: OpenWSN does not compile: This package still uses deprecated
       modules and was not tested for a long time.
 RIOT-OS#5520: tests/periph_uart not working
 RIOT-OS#5561: C++11 extensions in header files
 RIOT-OS#5776: make: Predefining CFLAGS are parsed weirdly
 RIOT-OS#5863: OSX +  SAMR21-xpro: shell cannot handle command inputs larger than 64
       chars
 RIOT-OS#5962: Makefile: UNDEF variable is not working as documented
 RIOT-OS#6022: pkg: build order issue

Special Thanks
==============
We like to give our special thanks to all the companies that provided us with
their hardware for porting and testing, namely the people from (in
alphabeticalorder): Atmel, Freescale, Imagination Technologies, Limifrog,
Nordic, OpenMote, Phytec, SiLabs, UDOO,and Zolertia; and also companies that
directly sponsored development time: Cisco Systems, Eistec, Ell-i, Enigeering
Spirit, Nordic, FreshTemp LLC, OTAkeys and Phytec.

More information
================
http://www.riot-os.org

Mailing lists
-------------
* RIOT OS kernel developers list
  devel@riot-os.org (http://lists.riot-os.org/mailman/listinfo/devel)
* RIOT OS users list
  users@riot-os.org (http://lists.riot-os.org/mailman/listinfo/users)
* RIOT commits
  commits@riot-os.org (http://lists.riot-os.org/mailman/listinfo/commits)
* Github notifications
  notifications@riot-os.org (http://lists.riot-os.org/mailman/listinfo/notifications)

IRC
---
* Join the RIOT IRC channel at: irc.freenode.net, #riot-os

License
=======
* Most of the code developed by the RIOT community is licensed under the GNU
  Lesser General Public License (LGPL) version 2.1 as published by the Free
  Software Foundation.
* Some external sources are published under a separate, LGPL compatible
  license (e.g. some files developed by SICS).

All code files contain licensing information.
@PeterKietzmann PeterKietzmann modified the milestones: Release 2017.01, Release 2017.04 Jan 26, 2017
@PeterKietzmann PeterKietzmann modified the milestones: Release 2017.04, Release 2017.01 Jan 26, 2017
@miri64
Copy link
Member

miri64 commented Nov 28, 2017

Sorry 'bout the project back-and-forth.... Thought I accidentally moved it to "In Progress" there in connection to #7925.

@cgundogan
Copy link
Member

@gebart is #8173 a remedy for this issue? Can it be closed?

@jnohlgard
Copy link
Member Author

@cgundogan it looks like #8173 could be a fix for this, I have not had time to test.

@cgundogan
Copy link
Member

@gebart do you think this issue can be closed?

@miri64 miri64 removed the GNRC label Oct 5, 2018
@stale
Copy link

stale bot commented Aug 10, 2019

This issue has been automatically marked as stale because it has not had recent activity. It will be closed if no further activity occurs. If you want me to ignore this issue, please mark it with the "State: don't stale" label. Thank you for your contributions.

@stale stale bot added the State: stale State: The issue / PR has no activity for >185 days label Aug 10, 2019
@miri64 miri64 removed the State: stale State: The issue / PR has no activity for >185 days label Aug 10, 2019
@miri64
Copy link
Member

miri64 commented Aug 10, 2019

@gebart do you think this issue can be closed?

I take this as a yes... Reopen if you disagree

@miri64 miri64 closed this as completed Aug 10, 2019
Sign up for free to join this conversation on GitHub. Already have an account? Sign in to comment
Labels
Area: network Area: Networking Type: bug The issue reports a bug / The PR fixes a bug (including spelling errors)
Projects
None yet
Development

No branches or pull requests

7 participants