The RTT callback for a super-frame cycle uses the `arg` pointer to set
the message value that then is handed to the GoMacH thread. However,
in both instances the timer is scheduled the constant
`GNRC_GOMACH_EVENT_RTT_NEW_CYCLE` is provided. This means the argument
is not really necessary.
The ubjson module has a number of quality defects and is unsafe.
Considering CBOR is popular, standarized and supported in RIOT and that
the ubjson implementation is a home-grown one whose API will likely be
unfamiliar to new users, I propose to delete it.
This removal, of course, dows not have to be NOW. We can deprecate it for
one or two releases before.
What's wrong with this module?
- Unsafe: the parsing is done recursively. This is embedded in the API, so it
is not possible to fix it without changing the API. A document with too much
nesting can cause a stack overflow.
- Does not validate writing: it is possible to produce invalid output. From
the docs:
> The library won't complain if you write multiple values that are not
> inside an array or object. The result will just not be properly serialized.
- Poorly tested. As shown by #11702, #11703 the tests were not even detecting
that a False was stored as True.
- In line with the previous remark, see
68dc5b0d6e/tests/unittests/tests-ubjson/tests-ubjson.c (L66-L77)
Why is the following code in the unit tests??
```c
irq_disable();
sched_set_status(data->main_thread, STATUS_PENDING);
```
- #2175 is still unfixed after 3.5 years.
- Code quality. The code has multiline macros that assign variables and
return. See c332514875/sys/ubjson/ubjson-write.c (L34-L41)
Can we mark it as deprecated this release and sweep it in the following one?
`gnrc_sixlowpan_frag_rb_base_rm()` cleans up the intervals which is part
of `gnrc_sixlowpan_frag_rb`, not `gnrc_sixlowpan_frag`, so when the
`gnrc_sixlowpan_frag` is not compiled in, but `gnrc_sixlowpan_frag_rb`,
the intervals allocated in the reassembly buffer and inherited by the
virtual reassembly buffer are never released.
This fits with the semantics of this function which doesn't provide or
uses any state of the reassembly buffer provided by the user, but finds
the entry itself and then removes it. This gives the user no chance to
remove the packet in the reassembly buffer entry, so
`gnrc_sixlowpan_frag_rb_rm_by_datagram()` has to release the packet
(other than `gnrc_sixlowpan_frag_rb_remove()` where not releasing the
packet is desired as it might be handed up to an upper layer).
Prevent a possible race condition when _mutex_timeout fires just after the
mutex was locked but before the xtimer was removed
The flow
int xtimer_mutex_lock_timeout(mutex_t *mutex, uint64_t timeout) {
...
mutex_lock(mutex);
/* mutex locked */
/* _mutex_timeout fires and tries to remove thread from mutex queue */
/* DEBUG: simulate callback call between lock and remove */
xtimer_spin(xtimer_ticks_from_usec(timeout*2));
xtimer_remove(&t);
...
}
To make it possible to use an Arduino library, a new pseudomodule arduino_lib is introduced. This pseudomodule enables implicitly module arduino but avoids that a sketch is required or generated and compiled. Thus, it is possible to compile and use a package or directory with some source files from an Arduino library in RIOT applications.
Preprocesor fails to evaluate the if condicion on L91-92 because
RTT_FREQUENCY is not defined, and therefore a division by 0 occurs.
TO avoid this replicate the RTT_FREQUENCY undefined warning.
Currently the bitfield type mixes up the order of bits: While the byte
order is big-endian (most significant byte first), the bit order of each
single byte within the bitfield is little-endian (most significant bit
last). While this isn't a problem for most applications of the bitfield
type it becomes one when sending the bitfield over the network (as done
e.g. in the [ACKs of Selective Fragment Recovery][SFR-ACKs]).
This change unifies byte order and bit order to both be most
significant bX first.
[SFR-ACKs]: https://tools.ietf.org/html/draft-ietf-6lo-fragment-recovery-07
Right now 'ipv6_addr_split_iface' assumes that the interface specifier
will always be a number (based on GNRC way of identifying interfaces),
but this may not be always the case.In order to be able to use the
Network Interface API, interfaces should be referred by their name.
This changes 'ipv6_addr_split_iface' so it returns a pointer to the
string that specifies the interface.
45f7966 made the `src_len` field the "emptiness signifier" for the VRB.
However, when `gnrc_sixlowpan_frag` is compiled in, the remove function
`gnrc_sixlowpan_frag_vrb_rm()` does not set the `src_len` to zero,
resulting in already deleted entry to be recognized as non-empty.
This allows to set a timer between the completion of a datagram in the
reassembly buffer and the deletion of the corresponding reassembly
buffer entry. This allows to ignore potentially late incoming link-layer
duplicates of fragments of the datagram that then will have the
reassembly buffer entry be blocked.
This was noted in this [discussion] for classic 6LoWPAN reassembly (and
minimal fragment forwarding) and is recommended in the current
[selective fragment recovery draft][SFR draft].
[discussion]: https://mailarchive.ietf.org/arch/msg/6lo/Ez0tzZDqawVn6AFhYzAFWUOtJns
[SFR draft]: https://tools.ietf.org/html/draft-ietf-6lo-fragment-recovery-07#section-6
As analyzed in #12678 there are cases where different reports can be
generated for the different snips of the packet send via the `sock`.
To catch all errors generated by the stack, the sock has to subscribe
for all snips of the packet sent. If any of the snips reports an error
distinct from `GNRC_NETERR_SUCCESS` or the previous one, we report that
status instead of just the first we receive. This way we are ensured to
have the first error reported by the stack for the given packet.
cd1ce6b98d accidentally disabled generating documentation for
`xtimer_msg_*()` functions.
Always define those functions when building the documentation.
Arduino is always enabling C++11 support, so sketches and libs are depending on
it. Every C++ compiler has been enabling C++11 by default for some years now.
Still, Ubuntu's avr-gcc is so **horrible** out of date, that it is not enabled
there. As a simple work around, -std=c++11 is now passed to the C++ compiler if
Arduino is used.
This imports the protocol parameters for Selective Fragment Recovery
(SFR). For the values I took some educated guesses based on my
experience with previous experimentation with fragment forwarding.
The defines currently are based on [draft v7].
[draft v7]: https://tools.ietf.org/html/draft-ietf-6lo-fragment-recovery-07#section-7.1
fixup! gnrc_sixlowpan_frag: initial import of SRF parameters
The name `fragment_msg` or `frag_msg`/`msg_frag` always to me was a bit
misplaced, as it basically implements an asynchronous fragmentation
buffer and doesn't necessarily have anything to do with messages.
This change
1. changes the name to `fb` (for fragmentation buffer)
2. factors its code out to its own sub-module so it can be re-used by
other 6LoWPAN fragmentation schemes like [Selective Fragment
Recovery]
[Selective Fragment Recovery]: https://tools.ietf.org/html/draft-ietf-6lo-fragment-recovery-05
The interface is already fetched in the beginning of the function and
doesn't change during its run, so getting the interface again at this
point is just redundant.
When decoding IPHC in a fragmented datagram, relying on the size of the
allocated space for the decoded packet is wrong when fragments are
forwarded and decoded on an intermediate node (for which the reassembly
buffer's space is used): Using the full datagram size for allocation in
this case would be wasteful, so the allocated space is only marginally
larger than the fragment's compressed form.
This in turn results in the wrong UDP payload size being chosen and
even worse being forwarded to the subsequent nodes.
This change uses the (virtual) reassembly buffer's `datagram_size`
instead of relying on the allocated space for the encoded
datagram/fragment.
This module was intended to be a test framework for GNRC but it never
really got used. It was not maintained for 3 years. It will be removed
after 2020.07 release at the latest.
Added a header to allow defining C interfaces using the default C11 atomic
types. Those types are however fully opaque and inaccessible from C++, as C11
atomics are completely incompatible with C++.
`_match_to_idx()` was removed from source address selection (which was
the only one setting the filter parameter to a non-NULL value), so it
is the parameter is not needed anymore.
When source address selection is done, both RFC and comments in the code
state, that a longest prefix match should *only* be used as a
tie-breaker between more than one viable candidate. If there is only one
address, there is
a) no need for a tie-breaker
b) in the case of either the destination address or the single remaining
address being ULAs ([which are considered to be of global scope]
[RFC4193]) possibly not matching, as `fd00::/7` and e.g. `2001::/8`
do not have a common prefix.
(b) in fact causes the match function to return -1, causing the source
address selection to return -1, causing the outer function to return the
first address it found (which most often is the link-local address),
causing e.g. a ping to an ULA to fail, even is there is a global
address.
[RFC4193]: https://tools.ietf.org/html/rfc4193
Different platforms evaluate `printf()` for NULL pointers differently,
resulting tests checking for a certain output to fail. This unifies that
(debug) output for the static packet buffer statistics.
This adds an early exit when the usb interface with the data endpoints
is not activated. This prevents the cdc_ecm_netdev code from attempting
to send the PDU when the USB device is not yet initialized or activated
by a host.
Similar as with #12513, when the NIB is compiled in 6LN mode (but not
6LR mode), the address-resolution state-machine (ARSM) functionality is
disabled in favor of the more simpler address resolution proposed in RFC
6775.
However, if a non-6LN interface is also compiled in (without making it
a router or border router) it will never join the solicited-nodes
multicast address of addresses added to it, resulting in address
resolution to that interface to fail.
If the interface is not a 6LN (which in case 6LN mode is disabled is
always false), a warning is now printed, encouraging the user to
activate the ARSM functionality if needed.
The OUT endpoint of the cdc ecm data endpoint is only expected to
receive data when the alternative interface is activated. Signalling
ready in the init function can cause issues as the endpoints are not yet
enabled in the low level USB peripheral driver.
Previously `ifconfig` would only know link-local addresses
(printed as 'local') and everything else would be 'global'.
This is wrong for site-local and unique local addresses which were
also denoted as global.
So use the already existing helper functions to determine the correct
type of IPv6 address when printing.
When the NIB is compiled for 6LN mode (but not a 6LBR), the Stateless
Address Autoconfiguration (SLAAC) functionality is disabled, as it is
typically not required; see `sys/include/net/gnrc/ipv6/nib/conf.h`, ll.
46 and 55. However, if a non-6LN interface is also compiled in (still
without making the node a border router) an auto-configured address will
be assigned in accordance with [RFC 6775] to the interface, just
assuming the interface is a 6LN interface. As it then only performs
duplicate address detection RFC-6775-style then, the address then never
becomes valid, as the duplicate address detection according to [RFC
4862] (part of the SLAAC functionality) is never performed.
As auto-configuring an address without SLAAC doesn't make sense, this
fix makes the interface skip it completely, but provides a warning to
the user, so they know what to do.
[RFC 6775]: https://tools.ietf.org/html/rfc6775#section-5.2
[RFC 4862]: https://tools.ietf.org/html/rfc4862#section-5.4
The functions now are semantic distinct:
- gnrc_netif_is_6lo(): the interface is a 6Lo interface
- gnrc_netif_is_6ln(): the interface is using Neighbor Discovery
according to RFC 6775
We want to check if the interface is an interface requiring the 6Lo
adaptation layer, not if it is a 6LN according to RFC 6775 [[1]].
[1]: https://tools.ietf.org/html/rfc6775#section-2
Preparation step to introduce a semantic difference between an
interface being a 6Lo interface and a 6LN according to RFC 6775 [[1]]
(i.e. performs Neighbor Discovery as defined there).
[1]: https://tools.ietf.org/html/rfc6775#section-2
When writing to the IPv6 header the implementation currently doesn't
take the packet with the (potentially) duplicated header, but the
packet with the original one, which leads to the packet sent and then
released in `gnrc_netif_ethernet.c` first and then accessed again in
further iterations of the "writing to the IPv6 header" loop, which
causes access to an invalid pointer, causing a crash.
Fixes#11980
Arduino libraries often include Arduino.h. For source code compatibility this header file is required. Header guards in file arduino.hpp had to be renamed.
While 485dbd1fda (from #12175) was right
in assuming that the for most ICMPv6 error messages the originating
packet's destination address must not be a multicast, this is not the
case for _all_ ICMPv6 error messages (see [RFC 4443], section 2.4(e.3)).
Additionally, 485dbd1fda removed the
check for the source address ([RFC 4443], section 2.4(e.6)), which this
PR re-adds.
[RFC 4443]: https://tools.ietf.org/html/rfc4443#section-2.4
Rather than dispatching the packet automatically once it is complete,
`gnrc_sixlowpan_frag_rb_add()` now only returns success, and leaves it
to the caller to dispatch the packet.
While it is correct to not use an invalid address as a source address,
it is incorrect to assume that addresses not assigned to the interface
(`idx == -1` in the respective piece of code) are invalid: Other than
classic forwarding via a FIB, forwarded packets utilizing a IPv6
routing header will pass this check, like any other packet sent by this
node. The source address for these is not on the given node, so e.g.
source routing is not possible at the moment.
The IPv6 (extension) headers of the first fragment received are re-used
for the reassembled packet, so when receiving a subsequent packet we
need to distinguish, if we just want to release the payload or all of
the packet after the packet data was added to the reassembly buffer.
This commit adds an example application showcasing SUIT draft v4
firmware updates.
It includes a test script suitable for local or CI testing.
Co-authored-by: Alexandre Abadie <alexandre.abadie@inria.fr>
Co-authored-by: Koen Zandberg <koen@bergzand.net>
Co-authored-by: Francisco Molina <femolina@uc.cl>
Without this change an attacker would be able to stop the emcute server
by sending a crafted packet triggering this branch. The solution is
using `continue` instead of `return`.
Due to some changes to the minimal forwarding draft and in preparation
for Selective Fragment Recovery some changes to the VRB API were
needed. Now the index of a VRB entry is only (L2 src, tag) not as
before (L2 src, L2 dst, length, tag).
I know that the current `rbuf_base` causes waste, as all the fields not
used by the new index are effectively not used by the VRB. I'd like to
fix that however in a later change, since that also requires some
modifications of the classic reassembly buffer, and thus would
complicate the review and testing of the change.
Sources for the index change:
- https://tools.ietf.org/html/draft-ietf-6lo-minimal-fragment-04#section-1
- https://mailarchive.ietf.org/arch/browse/6lo/?gbt=1&index=DLCTxC2X4bRNtYPHhtEkavMWlz4
This fixes a denial of service where an attacker would be able to cause
a NULL pointer dereference by sending a spoofed packet. This attack only
requires knowledge about pending message ids.
This is quick solution to avoid wrapping around after 4294967 milliseconds.
It uses xtimer_now_usec64 instead of xtimer_now_usec.
Notice that this is more expansive than the previous solution, especially
on AVR systems.
This change is in preparation to [PR 10788]. PR 10788 will make the
shell exitable which may lead to unexpected behavior in comparison to
previous usage of the shell.
To prevent this, this PR introduces two "new" functions to the shell's
API: `shell_run_once()` and `shell_run_forever()`.
`shell_run_once()` basically has the same behavior as `shell_run()` in
current master: Start a shell and continue reading lines until EOF is
reached.
`shell_run_forever()` wraps around `shell_run_once()` and restarts the
shell if it exits.
`shell_run()` is re-introduced as a back-porting alias for
`shell_run_forever()`.
As a consequence all current calls to `shell_run()` won't exit even
with [PR 10788] merged (which would add EOT as additional exit
condition for `shell_run_once()`).
[PR 10788]: https://github.com/RIOT-OS/RIOT/pull/10788
TCP options have up to three fields (kind, length, value). The
current code only checks for the presence of the first field. Before
accessing the second field (length) the code must ensure that a length
field is even present.
A received packet is outputted in DEBUG _after_ it was already parsed,
but with a reference to the already parsed header. The result is that
there can be some garbage in the output and the packet is not dumped in
total. As without parsing we do not have access to the header yet, we
use the `gnrc_netif_addr_to_str()` helper function instead of parsing
the destination address by hand.
This commit changes the name of the requests over the control endpoints
to control requests instead of setup requests. This is a terminology fix
to follow the USB specification more closely as technically only the
first stage of a control request is named setup which contains a setup
packet. The whole transfer is a control transfer.
This enables 'pthread' support on arduino.
avr-libc C90 'time.h' does not include 'sys/types.h' as POSIX expects it.
However, the type previously defined conflicts with the one in
'cpu/atmega_common/avr_libc_extra/include/sys/types.h' when both are
included, so include 'sys/types.h'.
Maybe it should alway be included by 'time.h' but this
would need its specific review.
llvm-ar behaves weidly when creating thin archive. This only manifests
itself when using arduino sketches as these are built from the "bin"
directory.
Specifically, given a directory "m" and an object in "m/obj.o " an
invocation with CWD==m:
```
llvm-ar rcTs ../m.a obj.o
```
Will create a maformed archive. Binutils does not have any issue with this.
The following command, executed with CWD==m/.. works:
```
llvm-ar rcTs m.a m/obj.o
```
The trick used in this commit is to put the source files in a different
directory than the object files and compile from there.
- add init_schedstatistics function to be called after
auto_init, that way xtimer_is init is called before
the first call to xtimer_now
- register schedstatics code as a callback to be executed
on each sched_run()
- Removed stdio_init() from newlib's _init(), as this is too late in the boot
process to allow DEBUG()ing during periph_init()
- Added stdio_init() to the various cpu_init() routines of the ARM CPUs just
before periph_init()
The function insert returns KERNEL_PID_UNDEF now because pthread_create checks for it.
In pthread_create it checks now if thread_create returns a valid pid
before this commit the src address was checked for multicast, but the dst address should be checked. Therefore udp multicast packets would be flooded back to the src as ICMPv6 error, as not all nodes had a UDP receiver registered.
Replaces the special heap command approach of the lpc_common module with a more general heap command approach. Module lpc_common was already removed with PR #2118. PR #2118 integrated cpu/lpc_common code in cpu/lpc2387. With PR #3530 special heap handling for cpu/lpc2387 was replaced by newlib memory management which uses _sbrk_r to allocate chunks from the heap. _sbrk_r uses _sheap and _eheap symbols that are defined in lpc2387.ld and can be used together with mallinfo function for heap statistics.
- Serial.print() and Serial.println() have been extended to support:
- unsigned int
- long
- unsigned long
- The SerialFormat BIN has been implemented
- Serial.println(void) has been added
Rename TMP006 to TMP00x
Add TMP007 sensor support to TMP00X
Change uint8_t reg to uint16_t
Add to doxygen documentation group
Expose compile time configurations
Move defines from .c to .h
Change double to float, because double is not needed
Add TMP007 register information
Generate a module for arduino sketches in a subfolder of BINDIR.
This prevents issues when doing concurrent builds or out of tree build with
readonly sources.
Declare all generated files as `BUILDDEPS` to be re-created after
`clean` on parrallel `clean all`.
When a keepalive timeout occurs keepalive_retry_cnt remains zero,
so when the connection is re-established _on_keepalive_evt will
immediately disconnect instead of actually sending a keepalive ping.
The sequence looks like:
1. _on_connack: start con->keepalive_timer
2. Server does not respond to keepalive pings
3. _on_keepalive_evt: con->keepalive_retry_cnt reaches zero
4. Connection torn down and ASYMCUTE_DISCONNECTED sent to application
5. Application starts reconnection
6. _on_connack: start con->keepalive_timer again
7. First _on_keepalive_evt: con->keepalive_retry_cnt is still zero
8. Repeat from 4.
So this simply resets keepalive_retry_cnt in _on_connack when
the keepalive timer is restarted. It's a new connection, so
resetting the keepalive retry counter make senses regardless.
Signed-off-by: Derek Hageman <hageman@inthat.cloud>
With the increase of the message queue size from 8 to 16 in
946b06e4f0, the default stack became too small.
This changes the stack size to grow with the message queue size.
The cc110x driver has been re-written from scratch to overcome the limitations
of the old driver. The main motivation of the rewrite was to achieve better
maintainability by a detailed documentation, reduce the complexity and the
overhead of the SPI communication with the device, and to allow to
simultaneously use transceivers with different configuration regarding the used
base band, the channel bandwidth, the modulation rate, and the channel map.
Features of this driver include:
- Support for the CC1100, CC1101, and the CC1100e sub-gigahertz transceivers.
- Detailed documentation of every aspect of this driver.
- An easy to use configuration API that allows setting the transceiver
configuration (modulation rate, channel bandwidth, base frequency) and the
channel map.
- Fast channel hopping by pre-calibration of the channels during device
configuration (so that no calibration is needed during hopping).
- Simplified SPI communication: Only during start-up the MCU has to wait
for the transceiver to be ready (for the power regulators and the crystal
to stabilize). The old driver did this for every SPI transfer, which
resulted in complex communication code. This driver will wait on start up
for the transceiver to power up and then use RIOT's SPI API like every other
driver. (Not only the data sheet states that this is fine, it also proved to
be reliable in practise.)
- Greatly reduced latency: The RTT on the old driver (@150 kbps data rate) was
about 16ms, the new driver (@250 kbps data rate) has as RTT of ~3ms
(depending on SPI clock and on CPU performance) (measured with ping6).
- Increased reliability: The preamble size and the sync word size have been
doubled compared to the old driver (preamble: 8 bytes instead of 4,
sync word: 4 byte instead of 2). The new values are the once recommended by
the data sheet for reliable communication.
- Basic diagnostic during driver initialization to detect common issues as
SPI communication issues and GDO pin configuration/wiring issues.
- TX power configuration with netdev_driver_t::set() API-integration
- Calls to netdev_driver_t::send() block until the transmission has completed
to ease the use of the API (implemented without busy waiting, so that the
MCU can enter lower power states or other threads can be executed).
- Removed cc110x driver
- Updated all makefiles
- Kept both board specific configurations and support for it in RIOT's
upper layers, so re-implementations don't need to start from zero
CTRL-C cancels the current line, similar to how getty works.
This is useful if one is using a dumb terminal to communicate with
a node, as it saves having to repeatedly type backspace to discard the
current line. It also helps when connecting to an already running node,
as one does not know what is on the line buffer, the safest thing to do
is to begin by sending a ctrl-C.
This is a suggestion of @benemorius.
Add an implementation that waits for 's' to print 'START' and return.
If 'r' is given is prints 'READY' to allow querying for state.
The help and answered string have to be different to not match the other.
Using puts/getchar was smaller than using `stdio_read/stdio_write` on the
example I tested with `esp32`.
From the gnrc_pktbuf_mark documentation:
It's not guaranteed that `result->data` points to the
same address as the original `pkt->data.
Thus it should be necessary to update the `hdr` pointer.
if xtimer_set spins the callback is executed in the thread context.
comment to explain irq_disable
and when this line could be removed
(when xtimer stops executing the callback funtion from thread context)
If an address was pre-configured by the upper layer its validity is
currently ignored. It is neither checked if the address is on the
interface at all nor is it checked if it is valid.
This change provides a fix for that by checking both facts.
A proper error code is returned if a key with unsupported (either by the implementation or the AES algorithm) length is passed to aes_init.
This fixes Issue #10175
The length field in an MQTT packet carries the _total_ length of the
packet. If it is below 256 (i.e. fits in one byte) only one byte is
used for the length field. If it is larger than that 3 bytes are used,
with the first byte having the value `0x01` and the remaining bytes
representing the length in as a 2 byte unsigned integer in network byte
order. Resulting from that it can be assessed that the check in
`emcutes`'s `set_len()` function is wrong as it needs to be checked if
`len` is lesser or equal to `0xff - 1`. `len <= (0xff - 1)` can be
simplified to `len < 0xff`. For some larger packages this safes 2 bytes
of wasted packet space.
`len` is used with the `memcpy()` to copy the payload to `tbuf`. With a
payload provided that is just long enough to fill `tbuf`, `len += 6`
leads to the `memcpy()` overriding data after `tbuf` (e.g. the
`mutex` that is unlocked right after) and thus resulting in potential
segmentation faults.
Additionally `+ 6` can only be applied if the total packet length is
below 256 (see spec), so `len + pos` is what needs to be provided to the
corresponding send functions instead (`pos` adapts to the header length
of the PUBLISH message).
Unstructured static initializer like { 0 } lead to compilation errors on ESP8266, MSP430 and MIPS. Error messages are:
error: (near initialization for 'queue.event_list') [-Werror=missing-braces]
error: (near initialization for 'queue.waiter') [-Werror=missing-field-initializers]
This change fixes the compilation problem.
Check for the usage of `newlib_nano` module instead of the
`USE_NANO_SPECS` variable.
This allows also benefiting from the `printf_float` and `scanf_float`
behaviour on `arm7` and `riscv` cpus.
- Add SEMTECH_LORAMAC_ALREADY_JOINED ret code for semtech_loramac_join
- Add SEMTECH_LORAMAC_TX_CNF_FAILED ret code for semtech_loramac_send
- Update shell commands to notify when no ACK is received on cnf tx
stm32eth: Move to stm32_common periph
cpu/stm32_periph_eth: Rebase to current master branch
- Update DMA to use new vendor headers
- Update send to use iolist. It looks like the packet headers are now transfered as seperate iolist entries which results in the eth periph sending each header as own packet. To fix this a rather ugly workaround is used where the whole iolist content is first copied to a static buffer. This will be fixed soon in another commit
- If MAC is set to zero use luid to generate one
- Small code style fixes
cpu/stm312f7: Add periph config for on-board ethernet
boards/nucleo-f767zi: Add config for on board ethernet
tests/stm32_eth_lwip: Remove board restriction
boards/common/nucleo: Add luid module if stm32 ethernet is used
tests/stm32_eth_gnrc: Add Testcase for gnrc using the stm32 eth periph
stm32_eth: Rework netdev driver layour
tests/stm32_eth_*: Use netdev driver header file for prototypes
stm32_eth: Add auto init for stm32 eth netdev driver
boards/stm32: Enable ethernet conf for nucleo boards
stm32_eth_auto_init: Add dont be pendantic flag
stm32_eth: Remove dma specific stuff from periph_cpu.h
Looks like this was implemented in PR #9171 and 021697ae94 with the same interface.
stm32_eth: Remove eth feature from stm32f4discovery boards
stm32_eth: Migrate to stm32 DMA API
stm32_eth: Add iolist to module deps
stm32_eth: Rework send function to use iolist
stm32_eth: Fix ci build warnings
stm32_eth: Fix bug introduced with iolist usage
stm32_eth: Remove redundant static buffer
stm32_eth: Fix feature dependencies
stm32_eth: Fix wrong header guard name
stm32_eth: Implement correct l2 netstats interface
stm32_eth: Rename public functions to stm32_eth_*
stm32_eth: Fix doccheck
stm32_eth: Move register DEFINE to appropriate header file
stm32_eth: remove untested configuration for f446ze boards
stm32_eth: Move periph configuration struct to stm32_common
stm32_eth: Fix naming of eth_phy_read and eth_phy_write
stm32_eth: Remove obsolete test applications
When reworking the reception of IPv6 packets I reset a previously set
`ipv6` snip as follows when the IPv6 extension handler returns a
packet (see first hunk of this commit):
```C
ipv6 = pkt->next->next
```
With `gnrc_ipv6_ext` this makes *somewhat* sense, `pkt->next` was
previously equal to `ipv6` and after the function call `pkt->next`
is the marked extension header, while `pkt->next->next` is the IPv6
header. However, since `ipv6` is already write-protected i.e.
`ipv6->users == 1` (see ll. 665-675), any additional call of
`gnrc_pktbuf_start_write()` [won't][start-write-doc] duplicate the
packet. In fact, the only `gnrc_pktbuf_start_write()` in
`gnrc_ipv6_ext` is used to send the *result* to the subscribers of that
extension header type, leaving the original packet unchanged for the
caller. As such `ipv6` remains the pointer to the IPv6 header whether
we set it in the line above or not. So we actually don't need that
line.
However, the extension header handling also returns a packet when
`gnrc_ipv6_ext` is not compiled in. In that case it is just a dummy
define that returns the packet you give provide it which means that
this still holds true: `pkt->next == ipv6`.
So setting `ipv6` in this case is actually harmful, as `ipv6` now
points to the NETIF header [following the IPv6 header][pkt-structure]
in the packet and this causes the `user` counter of that NETIF header
`hdr` to be decremented if `hdr->users > 1` in the write-protection I
removed in hunk 2 of this commit:
```C
/* pkt might not be writable yet, if header was given above */
ipv6 = gnrc_pktbuf_start_write(ipv6);
if (ipv6 == NULL) {
DEBUG("ipv6: unable to get write access to packet: dropping it\n");
gnrc_pktbuf_release(pkt);
return;
}
```
But as we already established, `ipv6->users` is already 1, so we don't
actually need the write protection here either.
Since the packet stays unchanged after the `ipv6` snip, we also don't
need to re-search for `netif_hdr` after the other two lines are
removed.
[start-write-doc]: https://doc.riot-os.org/group__net__gnrc__pktbuf.html#ga640418467294ae3d408c109ab27bd617
[pkt-structure]: https://doc.riot-os.org/group__net__gnrc__pkt.html#ga278e783e56a5ee6f1bd7b81077ed82a7
