| Commit message (Collapse) | Author | Age | Files | Lines |
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The calculation of the beginning of a block for TCH/F, TCH/H and FACCH
can be challenging since those channels are affected by the diagonal
interleaving of the TCH channels. However, GSM 05.02 Section 7 Table 1
of 5 specifies how the blocks are distributed over the TDMA frame
interval. Lets add a mapping function that is based on that table
Related: OS#3803
Change-Id: I3d71c66f8c401f5afbad9b1c86c24580dab9e0ce
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Otherwise bad configurations can easily sneak in and produce unexpected
behavior.
Change-Id: Ic9c1b566ec4a459f03e6319cf369691903cf9d00
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log_enable_multithread() enables use of locks inside the
implementation. Lock use is disabled by default, this way only
multi-thread processes need to enable it and suffer related
complexity/performance penalties.
Locks are required around osmo_log_target_list and items inside it,
since targets can be used, modified and deleted by different threads
concurrently (for instance, user writing "logging disable" in VTY while
another thread is willing to write into that target).
Multithread apps and libraries aiming at being used in multithread apps
should update their code to use the locks introduced here when
containing code iterating over osmo_log_target_list explictly or
implicitly by obtaining a log_target (eg. osmo_log_vty2tgt()).
Related: OS#4088
Change-Id: Id7711893b34263baacac6caf4d489467053131bb
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Change-Id: I4b9e12e34f69d98fa87179c7ee390e31001ec943
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Rather than having applications maintain their own talloc cotexts,
let's offer some root talloc contexts in libosmocore. Let's also
make them per thread right from the beginning. This will help
some multi-threaded applications to use talloc in a thread-safe
way.
Change-Id: Iae39cd57274bf6753ecaf186f229e582b42662e3
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Add global flag osmo_fsm_term_safely() -- if set to true, enable the following
behavior:
Detect osmo_fsm_inst_term() occuring within osmo_fsm_inst_term():
- collect deallocations until the outermost osmo_fsm_inst_term() is done.
- call osmo_fsm_inst_free() *after* dispatching the parent event.
If a struct osmo_fsm_inst enters osmo_fsm_inst_term() while another is already
within osmo_fsm_inst_term(), do not directly deallocate it, but talloc-reparent
it to a separate talloc context, to be deallocated with the outermost FSM inst.
The effect is that all osmo_fsm_inst freed within an osmo_fsm_inst_term()
cascade will stay allocated until all osmo_fsm_inst_term() are complete and all
of them will be deallocated at the same time.
Mark the deferred deallocation state as __thread in an attempt to make cascaded
deallocation handling threadsafe. Keep the enable/disable flag separate, so
that it is global and not per-thread.
The feature is showcased by fsm_dealloc_test.c: with this feature, all of those
wild deallocation scenarios succeed.
Make fsm_dealloc_test a normal regression test in testsuite.at.
Rationale:
It is difficult to gracefully handle deallocations of groups of FSM instances
that reference each other. As soon as one child dispatching a cleanup event
causes its parent to deallocate before fsm.c was ready for it, deallocation
will hit a use-after-free. Before this patch, by using parent_term events and
distinct "terminating" FSM states, parent/child FSMs can be taught to wait for
all children to deallocate before deallocating the parent. But as soon as a
non-child / non-parent FSM instance is involved, or actually any other
cleanup() action that triggers parent FSMs or parent talloc contexts to become
unused, it is near impossible to think of all possible deallocation events
ricocheting, and to avoid running into freeing FSM instances that were still in
the middle of osmo_fsm_inst_term(), or FSM instances to enter
osmo_fsm_inst_term() more than once. This patch makes deallocation of "all
possible" setups of complex cross referencing FSM instances easy to handle
correctly, without running into use-after-free or double free situations, and,
notably, without changing calling code.
Change-Id: I8eda67540a1cd444491beb7856b9fcd0a3143b18
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Despite efforts to properly handle "GONE" events and entering a ST_DESTROYING
only once, so far this test runs straight into a heap use-after-free. With
current fsm.c, it is hard to resolve the situation with the objects named
"other" also causing deallocations besides the FSM instance parent/child
relations.
For illustration, add an "expected" test output file fsm_dealloc_test.err,
making this pass will follow in a subsequent patch.
Change-Id: If801907c541bca9f524c9e5fd22ac280ca16979a
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Provide a common implementation of use counting that supports naming each user
as well as counting more than just one use per user, depending on the rules the
caller implies.
In osmo-msc, we were originally using a simple int counter to see whether a
connection is still in use or should be discarded. For clarity, we later added
names to each user in the form of a bitmask of flags, to figure out exactly
which users are still active: for logging and to debug double get / double put
bugs. This however is still not adequate, since there may be more than one CM
Service Request pending. Also, it is a specialized implementation that is not
re-usable.
With this generalized implementation, we can:
- fix the problem of inadequate counting of multiple concurrent CM Service
Requests (more than one use count per user category),
- directly use arbitrary names for uses like __func__ or "foo" (no need to
define enums and value_string[]s),
- re-use the same code for e.g. vlr_subscr and get fairly detailed VLR
susbscriber usage logging for free.
Change-Id: Ife31e6798b4e728a23913179e346552a7dd338c0
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For handling RTP IP addresses and ports, osmo-mgw, osmo-bsc and osmo-msc
so far have their own separate shims and code duplication around
inet_ntoa(), htons(), sockaddr conversions etc. Unify and standardize
with this common API.
In the MGW endpoint FSM that was introduced in osmo-bsc and which I
would like to re-use for osmo-msc (upcoming patch moving that to
osmo-mgw), it has turned out that using char* IP address and uint16_t
port number types are a convenient common denominator for logging,
MGCP message composition and GSM48. Ongoing osmo-msc work also uses this
for MNCC.
This is of course potentially useful for any other IP+port combinations
besides RTP stream handling.
Needless to say that most current implementations will probably stay
with their current own conversion code for a long time; for current
osmo-{bsc,msc,mgw} work (MGW endpoint FSM) though, I would like to move
to this API here.
Change-Id: Id617265337f09dfb6ddfe111ef5e578cd3dc9f63
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This ensures that the rpath of the generated binaries is set to
use only the just-compiled libosmo{core,gsm,vty}.so and not any
system-wide installed libraries while avoiding the ugly shell script
wrapper.
Change-Id: I9b9ae0ed277ba71519661a66a70b7f86971e4511
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Run INT_MAX and ULONG_MAX related tests only manually, remove from automatic
testing. This will hopefully fix recent build failures on various platforms.
Add a 64 bit output example for expected results when invoking
`./tdef_test range'. This is not checked automatically and merely serves for
manual reference.
For vty tests, use 32bit max values instead of INT_MAX and ULONG_MAX.
Change-Id: I6242243bde1d7ddebb858512a1f0b07f4ec3e5c2
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Move T_def from osmo-bsc to libosmocore as osmo_tdef. Adjust naming to be more
consistent. Upgrade to first class API:
- add timer grouping
- add generic vty support
- add mising API doc
- add C test
- add VTY transcript tests, also as examples for using the API
From osmo_fsm_inst_state_chg() API doc, cross reference to osmo_tdef API.
The root reason for moving to libosmocore is that I want to use the
mgw_endpoint_fsm in osmo-msc for inter-MSC handover, and hence want to move the
FSM to libosmo-mgcp-client. This FSM uses the T_def from osmo-bsc. Though the
mgw_endpoint_fsm's use of T_def is minimal, I intend to use the osmo_tdef API
in osmo-msc (and probably elsewhere) as well. libosmocore is the most sensible
place for this.
osmo_tdef provides:
- a list of Tnnnn (GSM) timers with description, unit and default value.
- vty UI to allow users to configure non-default timeouts.
- API to tie T timers to osmo_fsm states and set them on state transitions.
- a few standard units (minute, second, millisecond) as well as a custom unit
(which relies on the timer's human readable description to indicate the
meaning of the value).
- conversion for standard units: for example, some GSM timers are defined in
minutes, while our FSM definitions need timeouts in seconds. Conversion is
for convenience only and can be easily avoided via the custom unit.
By keeping separate osmo_tdef arrays, several groups of timers can be kept
separately. The VTY tests in tests/tdef/ showcase different schemes:
- tests/vty/tdef_vty_test_config_root.c:
Keep several timer definitions in separately named groups: showcase the
osmo_tdef_vty_groups*() API. Each timer group exists exactly once.
- tests/vty/tdef_vty_test_config_subnode.c:
Keep a single list of timers without separate grouping.
Put this list on a specific subnode below the CONFIG_NODE.
There could be several separate subnodes with timers like this, i.e.
continuing from this example, sets timers could be separated by placing
timers in specific config subnodes instead of using the global group name.
- tests/vty/tdef_vty_test_dynamic.c:
Dynamically allocate timer definitions per each new created object.
Thus there can be an arbitrary number of independent timer definitions, one
per allocated object.
T_def was introduced during the recent osmo-bsc refactoring for inter-BSC
handover, and has proven useful:
- without osmo_tdef, each invocation of osmo_fsm_inst_state_chg() needs to be
programmed with the right timeout value, for all code paths that invoke this
state change. It is a likely source of errors to get one of them wrong. By
defining a T timer exactly for an FSM state, the caller can merely invoke the
state change and trust on the original state definition to apply the correct
timeout.
- it is helpful to have a standardized config file UI to provide user
configurable timeouts, instead of inventing new VTY commands for each
separate application of T timer numbers.
Change-Id: Ibd6b1ed7f1bd6e1f2e0fde53352055a4468f23e5
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I want to tweak general VTY features and need to cover with a transcript test
to show the differences. Start by showing the current situation of optional
and multi-choice arguments.
Change-Id: I5a79c83fabd02aba6406b6e0d620969c4bd0cc1d
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It was introduced and forgotten to add to EXTRA_DIST in:
"logging vty: add VTY transcript test"
commit 3a9ff11e574fa7ee19b1062b2c90151dbf7f0e27
change-Id I948e832a33131f8eab98651d6010ceb0ccbc9a9c
Change-Id: I1bcedf3097f02b2adc679560d1cbceb27dbc345e
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Add functions to encode and decode Global Call Reference as per
3GPP TS 29.205 Table B 2.1.9.1 add corresponding tests.
Change-Id: Iee95aa4e5c056645b6cb5667e4a067097d52dfbf
Related: OS#2487
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I am setting out to refactor various details about logging. To show the effect,
I am first adding this new test to illustrate the exact effects on the various
osmo programs.
Add logging_vty_test.c as a standalone program that simply defines a few
logging categories and opens a telnet vty to play with.
Add logging_vty_test.vty, as an osmo_verify_transcript_vty.py test script.
Add --enable-external-tests to configure.ac, to enable running
logging_vty_test.vty during 'make check'.
Also allow running 'make vty-test' without the need to first configure with
--enable-external-tests (a flexibility I've missed many times over in the other
osmo source trees).
Add a Makefile.am stub for external CTRL tests, basically a copy-paste from
osmo-msc.git. I doubt that libosmocore will get python driven CTRL interface
testing any time soon, but if so we will know to not run it concurrently.
Change-Id: I948e832a33131f8eab98651d6010ceb0ccbc9a9c
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Do not link against the system-wide installed libosmo* libs when building the
regression test programs. Always use the locally built ones.
Linking some libosmo libraries causes libtool to pull in other libosmo libs
even though they were not explicitly named. For example, ctrl_test explicitly
links libosmoctrl, but this also has dependencies to libosmovty and libosmogsm:
ldd src/ctrl/.libs/libosmoctrl.so | grep osmo
libosmocore.so.11 => /usr/local/lib/libosmocore.so.11 (0x00007f26c26d4000)
libosmogsm.so.10 => /usr/local/lib/libosmogsm.so.10 (0x00007f26c22bb000)
libosmovty.so.4 => /usr/local/lib/libosmovty.so.4 (0x00007f26c2171000)
If we omit explicit LDADD of these dependencies in the Makefile.am, libtool
will take the first canonical place to find them, which may just be the already
installed older versions of the same libs, which may or may not be compatible
with the current build. In any case, it is never intended to link installed
libs.
All library dependencies are listed by this quick script:
cd libosmocore
for l in $(find . -name "*.so") ; do echo; echo "$l"; ldd $l | grep libosmo; done
./.libs/libosmocore.so
./coding/.libs/libosmocoding.so
libosmocore.so.11 => /usr/local/lib/libosmocore.so.11 (0x00007f25fc3c2000)
libosmogsm.so.10 => /usr/local/lib/libosmogsm.so.10 (0x00007f25fbfa9000)
libosmocodec.so.0 => /usr/local/lib/libosmocodec.so.0 (0x00007f25fbf9b000)
./codec/.libs/libosmocodec.so
libosmocore.so.11 => /usr/local/lib/libosmocore.so.11 (0x00007fb4c900d000)
./ctrl/.libs/libosmoctrl.so
libosmocore.so.11 => /usr/local/lib/libosmocore.so.11 (0x00007f5df5129000)
libosmogsm.so.10 => /usr/local/lib/libosmogsm.so.10 (0x00007f5df4d10000)
libosmovty.so.4 => /usr/local/lib/libosmovty.so.4 (0x00007f5df4bc6000)
./gb/.libs/libosmogb.so
libosmocore.so.11 => /usr/local/lib/libosmocore.so.11 (0x00007f788e536000)
libosmovty.so.4 => /usr/local/lib/libosmovty.so.4 (0x00007f788e3ec000)
libosmogsm.so.10 => /usr/local/lib/libosmogsm.so.10 (0x00007f788dfd3000)
./vty/.libs/libosmovty.so
libosmocore.so.11 => /usr/local/lib/libosmocore.so.11 (0x00007f3b7ed21000)
./gsm/.libs/libosmogsm.so
libosmocore.so.11 => /usr/local/lib/libosmocore.so.11 (0x00007fc69472e000)
./sim/.libs/libosmosim.so
libosmocore.so.11 => /usr/local/lib/libosmocore.so.11 (0x00007f2f6412d000)
libosmogsm.so.10 => /usr/local/lib/libosmogsm.so.10 (0x00007f2f63d14000)
Add all explicit linking of all required library dependencies in all regression
test programs, as shown by above listing.
Example for reproducing a problem:
In libosmocore.a, introduce a new function, and call that from libosmovty code.
For example, I made loglevel_strs non-static in logging.c, and used that in
logging_vty.c. Build and install this in a place where libtool can find it.
Then go back to before this change and rebuild. You will see that linking
ctrl_test (before this patch) then complains about libosmovty requiring the
loglevel_strs symbol which it cannot find in libosmocore.so.
Change-Id: Id084e6e6efd25cd62b1bd7a4fc7c5985c39130c6
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As oap_client has moved from osmo-sgsn to libosmogsm, it is only fair
that the related unit test shall also be moved here.
Change-Id: I9d64e10b4bacac9b530cf077841bad762fc6d558
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Recent OS#3407 shows that we should verify stderr to catch sanitizer failures.
(They might not always be ignorable like that one.)
Change-Id: Ic9e437a1cc96ae081e0fd6a9b6e3156987e14c0c
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The conv_gen.py utility was tested against both Python 2 and 3,
so there is no need to enforce Python 2. Also, having:
#!/usr/local/bin/python{2|3}
is a bad idea, because Python may be installed in a different location.
Change-Id: I6007d481047b584db13d6eda70fb99f11f9ddaa1
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Sometimes the library probiding dlopen is not the same one providing
dlsym.
This is the case when compiling with AddressSanitizer enabled. In this
case, AC_SEARCH_LIBS([dlopen]...) reports no lib is required, but tests
using dlsym still require to link against -ldl.
Change-Id: Ic619b0885688066b60c97caf1e2c7e5402c1d9f7
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Change-Id: I5bebc6e01fc9d238065bc2517058f0ba85620349
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The sercomm functions are unavailable in case of embedded build. Add
stub and link the tests against it.
Change-Id: I9bc5cb2f822b1a3ffdc6ec29f46b6bac8288314e
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As of 67bdd80a96bdfc49d1aadbd32cca2b53f123d180 the stats.c is
effectively disable so we should disable the corresponding tests as
well.
Change-Id: I42ff7a6619c0a5926fdc2ec779cf04689c567e15
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When a bad GSM voice frame is received, it's being replaced
by a silence frame. This may cause unpleasant audio effects.
This change implements a functionality to craft a replacement
frame from the last known good frame. Currently, only FR is
supported, support for other codecs may be added latter.
Change-Id: I06a21f60db01bfe1c2b838f93866fad1d53fdcd1
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In case of embedded build some tests are failing to link properly. Fix
it:
* do not run fsm_test unless CTRL is enabled
* do not run fr_test unless GB is enabled
* do not link loggingrb_test with libosmovty
Change-Id: Icedad5ba3ed311ccdb97fa3ccd3002f5fda8be68
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* remove duplicate code: use function from libosmocore
* use utility function to dump ubits
* reformat for easier reading
* link against libosmocore
Change-Id: I8c31b0954176a2c53305936a025c92a793b6d9b6
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The testsuite fails on some specific build machines in the OBS
build cluster. Let's try to figure out which CPU flags they have
to narrow down the cause of this.
Change-Id: Ib23e5bfb3c894206fad62d6cc6151583b1bb75a6
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According to
https://www.gnu.org/software/automake/manual/automake.html#Libtool-Flags
the libraries supposed to be added to *_LDADD or *_LIBADD
while *_LDFLAGS should contain additional libtool linking
flags. Previously we used both. Let's unify this and move all the
libraries into proper automake variable. While at it - also add
libosmocore.la for tests to LDADD since all the tests link against it
anyway.
Change-Id: Ia657a66db75df831421af5df1175a992da5ba80f
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This function is actively used by OsmoPCU but have not been covered by
tests so far. The test code is based on
Minh-Quang Nguyen <minh-quang.nguyen@nutaq.com> submission with some
modifications.
The test's FIXME will be addressed in follow-up patches.
Change-Id: I2ee544256b8675bc62a42493aab66a8eeee54f90
Related: OS#1526
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Add GSM23003_IMSI_MIN_DIGITS definition.
Add regression test gsm23003_test.c to test the two new functions.
Will be used by OsmoHLR to validate VTY and CTRL input.
Change-Id: I1e94f5b0717b947d2a7a7d36bacdf04a75cb3522
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The recent exit-by-indent patch breaks a VTY case where a node is entered but
directly followed by a sibling or ancestor without listing any child nodes.
Regression introduced by I24cbb3f6de111f2d31110c3c484c066f1153aac9.
An example is a common usage in osmo-bts, where 'phy N' / 'instance N' is a
parent node that is commonly left empty:
phy 0
instance 0
bts 0
band 1800
Before this patch, this case produces the error:
There is no such command.
Error occurred during reading the below line:
bts 0
Fix indentation parsing logic in command.c to accomodate this case.
Add a unit test for empty parent node.
Change-Id: Ia0880a17ae55accb092ae8585cc3a1bec9986891
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Note: This will break users' config files if they do not use consistent
indenting. (see below for a definition of "consistent".)
When reading VTY commands from a file, use indenting as means to implicitly
exit child nodes. Do not look for commands in the parent node implicitly.
The VTY so far implies 'exit' commands if a VTY line cannot be parsed on the
current node, but succeeds on the parent node. That is the mechanism by which
our VTY config files do not need 'exit' at the end of each child node.
We've hit problems with this in the following scenarios, which will show
improved user experience after this patch:
*) When both a parent and its child node have commands with identical names:
cs7 instace 0
point-code 1.2.3
sccp-address osmo-msc
point-code 0.0.1
If I put the parent's command below the child, it is still interpreted in the
context of the child node:
cs7 instace 0
sccp-address osmo-msc
point-code 0.0.1
point-code 1.2.3
Though the indenting lets me assume I am setting the cs7 instance's global PC
to 1.2.3, I'm actually overwriting osmo-msc's PC with 1.2.3 and discarding the
0.0.1.
*) When a software change moves a VTY command from a child to a parent. Say
'timezone' moved from 'bts' to 'network' level:
network
timezone 1 2
Say a user still has an old config file with 'timezone' on the child level:
network
bts 0
timezone 1 2
trx 0
The user would expect an error message that 'timezone' is invalid on the 'bts'
level. Instead, the VTY finds the parent node's 'timezone', steps out of 'bts'
to the 'network' level, and instead says that the 'trx' command does not exist.
Format:
Consistent means that two adjacent indenting lines have the exact
same indenting characters for the common length:
Weird mix if you ask me, but correct and consistent:
ROOT
<space>PARENT
<space><tab><space>CHILD
<space><tab><space><tab><tab>GRANDCHILD
<space><tab><space><tab><tab>GRANDCHILD2
<space>SIBLING
Inconsistent:
ROOT
<space>PARENT
<tab><space>CHILD
<space><space><tab>GRANDCHILD
<space><tab><tab>GRANDCHILD2
<tab>SIBLING
Also, when going back to a parent level, the exact same indenting must be used
as before in that node:
Incorrect:
ROOT
<tab>PARENT
<tab><tab><tab>CHILD
<tab><tab>SIBLING
As not really intended side effect, it is also permitted to indent the entire
file starting from the root level. We could guard against it but there's no
harm:
Correct and consistent:
<tab>ROOT
<tab><tab>PARENT
<tab><tab><tab><tab>CHILD
<tab><tab>SIBLING
Implementation:
Track parent nodes state: whenever a command enters a child node, push a parent
node onto an llist to remember the exact indentation characters used for that
level.
As soon as the first line on a child node is parsed, remember this new
indentation (which must have a longer strlen() than its parent level) to apply
to all remaining child siblings and grandchildren.
If the amount of spaces that indent a following VTY command are less than this
expected indentation, call vty_go_parent() until it matches up.
At any level, if the common length of indentation characters mismatch, abort
parsing in error.
Transitions to child node are spread across VTY implementations and are hard to
change. But transitions to the parent node are all handled by vty_go_parent().
By popping a parent from the list of parents in vty_go_parent(), we can also
detect that a command has changed the node without changing the parent, hence
it must have stepped into a child node, and we can push a parent frame.
The behavior on the interactive telnet VTY remains unchanged.
Change-Id: I24cbb3f6de111f2d31110c3c484c066f1153aac9
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These PRBS sequences are specified in ITU-T O.150. They are typically
used as test data to be transmitted for BER (bit error rate) testing.
Change-Id: I227b6a6e86a251460ecb816afa9a7439d5fb94d1
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