| Commit message (Collapse) | Author | Age | Files | Lines |
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The scheduler in the normal IPCP is now multithreaded. While useful in
itself for scalability, it currently solves thread starvation in case
of executing post_sdu operations that may require a response. This
could be further revised in the future to split the SDU handling
threads from the component tasks.
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Fixes a memory leak when the DHT is destroyed during a send_msg. Fixes
a deadlock when destroying the DHT with a pending lookup. Removes some
debug logs that clutter output due to expected redundant FIND_VALUE
responses.
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This adds a threadpool manager component in the library that is used
in the IRMd and IPCPs. The threadpool manager now doesn't detach
threads but does a join when they exit. This solves a data race in the
previous implementation where some threads were not completely finished
upon release of some resources.
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This will make the remote retry sending responses when the DT
component can't send the message. This is most useful at enrollment,
when the remote's routing table may need to wait a bit on the routing
component for a path to the new member,
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The received message list was not correctly freed upon destruction of
the CDAP object. There was also still a rare case in which thread
cancellation would keep a lock, blocking the IPCP shutdown, which is
also fixed.
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The processing state was not correctly reset at all points in the
loop, causing CDAP to block the IPCP on shutdown in some cases. This
also adds a missing unlock and reorders some other unlocks.
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Not all returned contacts were processed when a FIND_NODE or
FIND_VALUE message was returned.
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This fixes the order of the IPCPs in the IRMd, so that the right type
is queried first on flow allocation.
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ipcpd: Add DHT as directory in normal IPCP
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This implements a Distributed Hash Table (DHT) based on the Kademlia
protocol, with default parameters set as used in the BitTorrent
Mainline DHT. This initial implementation is almost feature complete,
except for some things to be done after a testing period: caching and
stale peer bumping, and setting the expiration timeout via the IRM
tool.
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The enrollment calls dealloc immediately after cdap_del_flow(), but
the CDAP instance may still have that fd in its fqueue loop.
cdap_del_flow will now wait for an fqueue loop to end before
returning, to make sure the flow is not needed anymore.
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This will hardcode the shim hash algorithms as they don't have an
enrollment phase.
Fixes #44
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This adds a secure random number generator. It will use OS specific
calls with a fallback to OpenSSL if available.
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This adds more Quality of Service support to Ouroboros. One part is
the network specific characteristics such as bandwidth, delay, ...
The other part is end-to-end QoS like reliability, window based flow
control, ...
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The dev.c source file had some missing include headers. This PR fixes
inconsistencies between the definitions and declarations in ipcp-dev.h
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include: Fix macro for printing hash
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Other protocol machines now have to register on top of the DT AE. This
allows multiple instances of the same protocol machine and avoids
preallocating fds for each protocol machine instance.
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Fixed releasing an allocated fd on failure. As the sending of dealloc
messages has been deprecated, dealloc was simplified by removing a
stale block of code (replaced with an assertion). Fixed reading some
variables without a necessary lock.
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This makes the routing component into a policy since different
approaches may exist to do this, depending on how high the rank of the
DIF is.
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This commits adds the functions and messages to specify a fixed
protocol syntax during CACEP. It also revises the messages for
specifying the DT protocol syntax from the irm tool.
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In order to ensure 100% reliable transfer, the protocol state machine
that takes care of retransmission and SDU ordering has to be in the
application. Flow allocation in the normal now uses fds. The PDU_type
field was deprecated and AE's within the DIF can use reserved fds.
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APs and AP-Is were not removed from the registry entry for that name.
Reported by: loic.vervaeke@ugent.be
Tested by: loic.vervaeke@ugent.be
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The flow resources are Delta-t protocol machines that will time out
and free their resources without any required signaling. Flows can be
cleaned locally when the application requests it and all FRCT
instances have timed out and released their resources.
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The frct instance was previously destroyed before sending the message,
resulting in the destination address being 0 and the message getting
dropped. Some fixes in the normal for deallocation, but will require
further revision once all data transfer protocols are in place.
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irmd: Remove some debug logs
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ipcpd: normal: Split connection establishment
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Connection establishment was done at the same time as flow
allocation. This splits it more cleanly, and allows to re-use the DT
AE for other purposes.
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