| Commit message (Collapse) | Author | Age | Files | Lines |
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The format prints IP:port separated by a colon, which of course is confusing
when the IPv6 address itself contains mostly colons. The new format adds square
braces.
cafe:face::1:42 -> [cafe:face::1]:42
The IPv4 format remains unchanged:
1.2.3.4:42
Change-Id: I161f8427729ae31be0eac719b7a4a9290715e37f
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This shows the weird format choice for showing IPv6 addresses' port, fixed in
subsequent patch.
Change-Id: I8e5ebfbbc3a2b88aed820e8f845d9f6ededb29de
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Only known user of API is in osmocom-bb and it compiles fine after the
change.
Related: OS#4244
Change-Id: Ia10345008b3aca50b30482ef3b852b03eca71995
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Related: OS#4244
Change-Id: I32e9cc1c2397b44f0d48db2acdf782a821365b63
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Often, an IP address of 0.0.0.0 is considered an unset value (for clients
requiring a server address; not for listening on "any").
osmo_sockaddr_str_is_set() does return false when the port is 0, but there is
no simple way to tell whether the IP address is actually set to a server
address.
Add osmo_sockaddr_str_is_nonzero() to return false if:
- the port is zero, or
- the IP address is zero (0.0.0.0 or ::0), or
- the IP address cannot be parsed.
A practical use example: osmo-msc so far accepts an RTP IP address of 0.0.0.0
as valid. I noticed when trying to trigger error handling from a ttcn3 test.
osmo-msc can use this function to reject invalid addresses from MGCP messages.
Related: I53ddb19a70fda3deb906464e1b89c12d9b4c7cbd (osmo-msc)
Change-Id: I73cbcab90cffcdc9a5f8d5281c57c1f87b2c3550
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Refuse state changes and event dispatch for FSM instances that are already
terminating.
It is assumed that refusing state changes and events after FSM termination is
seen as the sane expected behavior, hence this change in behavior is merged
without being configurable.
There is no fallout in current Osmocom code trees. fsm_dealloc_test needs a
changed expected output, since it is explicitly creating complex FSM structures
that terminate. Currently no other C test in Osmocom code needs adjusting.
Rationale:
Where multiple FSM instances are collaborating (like in osmo-bsc or osmo-msc),
a terminating FSM instance often causes events to be dispatched back to itself,
or causes state changes in FSM instances that are already terminating. That is
hard to avoid, since each FSM instance could be a cause of failure, and wants
to notify all the others of that, which in turn often choose to terminate.
Another use case: any function that dispatches events or state changes to more
than one FSM instance must be sure that after the first event dispatch, the
second FSM instance is in fact still allocated. Furthermore, if the second FSM
instance *has* terminated from the first dispatch, this often means that no
more actions should be taken. That could be done by an explicit check for
fsm->proc.terminating, but a more general solution is to do this check
internally in fsm.c.
In practice, I need this to avoid a crash in libosmo-mgcp-client, when an
on_success() event dispatch causes the MGCP endpoint FSM to deallocate. The
earlier dealloc-in-main-loop patch fixed part of it, but not all.
Change-Id: Ia81a0892f710db86bd977462730b69f0dcc78f8c
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This is a simpler and more general solution to the problem so far solved by
osmo_fsm_term_safely(true). This extends use-after-free fixes to arbitrary
functions, not only FSM instances during termination.
The aim is to defer talloc_free() until back in the main loop.
Rationale: I discovered an osmo-msc use-after-free crash from an invalid
message, caused by this pattern:
void event_action()
{
osmo_fsm_inst_dispatch(foo, FOO_EVENT, NULL);
osmo_fsm_inst_dispatch(bar, BAR_EVENT, NULL);
}
Usually, FOO_EVENT takes successful action, and afterwards we also notify bar.
However, in this particular case, FOO_EVENT caused failure, and the immediate
error handling directly terminated and deallocated bar. In such a case,
dispatching BAR_EVENT causes a use-after-free; this constituted a DoS vector
just from sending messages that cause *any* failure during the first event
dispatch.
Instead, when this is enabled, we do not deallocate 'foo' until event_action()
has returned back to the main loop.
Test: duplicate fsm_dealloc_test.c using this, and print the number of items
deallocated in each test loop, to ensure the feature works. We also verify that
the deallocation safety works simply by fsm_dealloc_test.c not crashing.
We should probably follow up by refusing event dispatch and state transitions
for FSM instances that are terminating or already terminated:
see I0adc13a1a998e953b6c850efa2761350dd07e03a.
Change-Id: Ief4dba9ea587c9b4aea69993e965fbb20fb80e78
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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: I436daa804aac11622fde24afe9ea35193d9e9beb
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This is useful for timers expected to have a range of valid or expected
values.
Validation is done at runtime when timer values are set by the app or by
the user through the VTY.
Related: OS#4190
Change-Id: I4661ac41c29a009a1d5fc57d87aaee6041c7d1b2
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OSMO_GSUP_SUPPORTED_RAT_TYPES_IE corresponds to the Supported RAT Types
Indicator from 3GPP TS 29.002. See 8.1.2 MAP_UPDATE_LOCATION service,
which indicates the capabilities of the MSC/VLR to the HLR.
So far, have room for eight RAT types in the gsup_msg. That is an arbitrary
random choice without any rationale.
OSMO_GSUP_CURRENT_RAT_TYPE_IE is useful to communicate the currently
used RAN / RAT type of the current subscriber during Location Updating Request.
Change-Id: I93850710ab55a605bf61b95063a69682a2899bb1
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Since structure 'osmo_gcr_parsed' does contain arrays, GCC is not
happy about the way we initialize it. Let's do it explicitly.
Change-Id: Ia814b4a4ed5bec84ff1f69232f7f7d5ca0d19794
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Change-Id: I4b9e12e34f69d98fa87179c7ee390e31001ec943
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The ECU implementation for FR is currently tested by calling the related
functions directly and by using the generic ECU abstraction layer. However,
the test "test_fr_concealment" only tests directly. Lets add a version
that uses the generic ECU abstraction layer as well.
The generic ECU abstraction layer obsolets the public API functions
osmo_ecu_fr_reset() and osmo_ecu_fr_conceal(), lets tag those functions
as dprecated.
Change-Id: Ib0c8a9b164f14ea4fa00688f760a76cdb4890af4
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We don't want to expose the details of a given ECU implementation to
the user (e.g. osmo-bts), but have a generic abstraction layer where
an ECU implementation can simply register a few call-back functions
with the generic core.
As the developer and copyright holder of the related code, I hereby
state that any ECU implementation using 'struct osmo_ecu_ops' and
registering with the 'osmo_ecu_register()' function shall not be
considered as a derivative work under any applicable copyright law;
the copyleft terms of GPLv2 shall hence not apply to any such ECU
implementation.
The intent of the above exception is to allow anyone to combine
third party Error Concealment Unit implementations with libosmocore,
including but not limited to such published by ETSI.
Change-Id: I4d33c9c7c2d4c7462ff38a49c178b65accae1915
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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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When reading SUT logs resulting from TTCN3 runs, it can be hard to figure out
which log section corresponds to which test code. Add a 'logp' command on VIEW
and ENABLE nodes that simply echos an arbitrary message on log output, useful
to set markers / explanations from the TTCN3 code, which then appear in all log
outputs and can make it trivial to figure out which log section is interesting.
logging_vty_test# logp lglobal notice This is the log message
DLGLOBAL NOTICE This is the log message
From TTCN3, could be used like this, e.g. in BSC_Tests.ttcn:
private function f_logp(charstring log_msg) runs on MSC_ConnHdlr
{
// log on TTCN3 log output
log(log_msg);
// log in stderr log
f_vty_transceive(BSCVTY, "logp lglobal notice " & log_msg);
}
...
f_logp("f_probe_for_handover(" & log_label & "): Ending the test: Handover Failure stops the procedure.");
Change-Id: Ife5dc8999174c74e0d133729284fe526d6eaf8d9
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Since March 15th 2017, libosmocore API logging_vty_add_cmds() had its
parameter removed (c65c5b4ea075ef6cef11fff9442ae0b15c1d6af7). However,
definition in C file doesn't contain "(void)", which means number of
parameters is undefined and thus compiler doesn't complain. Let's remove
parameters from all callers before enforcing "(void)" on it.
Related: OS#4138
Change-Id: Iaea795521361a8e5b3b45eaeb35e6eda69163af3
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After recent system upgrade, gcc 9.1.0, I started getting gsm0808_test
failing locally:
Assert failed memcmp(&enc_ct, &dec_ct, sizeof(enc_ct)) == 0 libosmocore/tests/gsm0808/gsm0808_test.c:992
During investigation with gdb, fields of both structures seem to contain
same values. However, closer lookup gives some hints on why it fails:
(gdb) print memcmp(&enc_ct, &dec_ct, sizeof(enc_ct))
$1 = 85
(gdb) print memcmp(&enc_ct, &dec_ct, 12)
$14 = 85
(gdb) print ((uint8_t*)&enc_ct)[11]
$15 = 85 'U'
(gdb) print ((uint8_t*)&dec_ct)[11]
$16 = 0 '\000'
So the 12th byte in struct gsm0808_channel_type is basically an
alignment padding byte added by the compiler (to align perm_spch_len to
4-byte alignment). Since both compared structs are initialized without
memset(0) but using compiler's designated initializers, it seems the compiler
decided it's no longer needed to zero the padding byte, making memcp fail in
this case.
In order to avoid the failure, let's properly check every field instead
of using memcp here.
Change-Id: I17fe7a0a5dc650f050bba1f47d071be749550729
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When using `OSMO_ASSERT(exp);` clang will warn about
an empty expression because the semi colon was superflous.
Use do {} while (0) to enfore the need of a semi colon.
This might break other test.
Change-Id: I2272d29a81496164bebd1696a694383a28a86434
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incomplete to vty func
For instance, take command "single0 [one]":
If user executes "single0 on", VTY func will receive argv[0]="one"
instead of argv[0]="on".
Related: OS#4045
Change-Id: I5f4e2d16c62a2d22717989c6acc77450957168cb
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vty func
For instance, take command "multi0 (one|two|three)":
If user executes "multi0 tw", VTY func will receive argv[0]="two"
instead of argv[0]="tw".
Fixes: OS#4045
Change-Id: I91b6621ac3d87fda5412a9b415e7bfb4736c8a9a
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The test shows that in the case were "single0 on" is executed, VTY
function should return complete "single0 one" but it doesn't.
Related: OS#4045
Change-Id: Ib5b9dc07e2b280dc95011b3926afb1d490cadd81
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inner block defined variable "enum match_type ret" was being masking
outter block variable "int ret = 0". The ret variable was being given
non zero values only inside the inner block, so that change was done on
the inner variable and not the outer one, which is returned.
Fixes: 5314c513f23688462d7f7937e5ae5e0d5cd4548e
Change-Id: Iec87d7db49a096d07e38ff8a060b923a52bfd6ba
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Return ENOSPC if the decoding buffer is one byte too small, instead of
returning 0 and silently truncating the string. Add a new "truncated"
variable to detect if the loop breaks in the final iteration.
The string is not truncated if there is exactly one 0xf ('\0') higher
nibble remaining. This is covered by the existing test case "long
15-digit (maximum) MSISDN, limited buffer".
Related: OS#4049
Change-Id: Ie05900aca50cc7fe8a45d17844dbfcd905fd82fe
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This patch is a result of discussion we had in [1]. The key idea
is that libosmovty should properly auto-complete the commands
containing choice, such as the following one:
multi0 (one|two|three)
[1] If9b0c0d031477ca87786aab5c269d00748e896c8
Right now, sending the following command:
(osmo-foo-bar)# multi0 th
would basically match the following vector:
multi0 three
however the resulting argv would be:
["multi0", "th"]
Moreover, sending the following command:
(osmo-foo-bar)# multi0 t
would basically match the following vectors:
multi0 two
multi0 three
because both start from 't', so the resulting argv would be:
["multi0", "t"]
which is ambiguous!
The expected output is:
(osmo-foo-bar)# multi0 th
ok argc=1 three
(osmo-foo-bar)# multi0 t
% Ambiguous command.
This is going to be fixed in the follow up patches.
Change-Id: I83c3aef813173952641035862c534ef16384780e
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Change-Id: Iafd911dd55691b3715391e3899cd6971245c8d7f
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Change-Id: Ie07b2e8bc2f9628904e88448b4ee63b359655123
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The documentation of gsm48_decode_bcd_number2() clearly states that
the output truncation is a erroneous case, so it should actually
return negative in such cases. Let's return -ENOSPC.
Change-Id: I75680f232001ba419a587fed4c24f32c70c3ad2b
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Thanks to the new unit test for BCD number encoding / decoding, it was
discovered that gsm48_decode_bcd_number2() does not properly handle
encoded LV if the output buffer size is equal to the original MSISDN
length + 1 (\0-terminator): one digit is lost.
For example, decoding of 15-digit long MSISDN to a buffer of size
16 (15 digits + 1 for \0) would give us only 14 digits.
The problem was that 'output_len' was being decremented before
checking the remaining buffer length and writing a digit to it.
As a result, the maximum length was always one byte shorter.
Change-Id: I61d49387fedbf7b238e21540a5eff22f6861e27a
Fixes: OS#4025
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So far, both gsm48_encode_bcd_number() and gsm48_decode_bcd_number2()
did not have any unit test coverage. Let's fill this gap by testing
the following scenarios:
- encoding / decoding of a regular 9-digit MSISDN;
- encoding / decoding of a MSISDN with optional LHV;
- encoding / decoding of a long 15-digit MSISDN;
- encoding / decoding of a MSISDN to a buffer:
- with exactly matching size,
- with lower size (truncation);
- decoding LV buffer with incorrect length,
- encoding / decoding an empty input buffer.
As it turns out, gsm48_decode_bcd_number2() does not properly
handle encoded LV if the output buffer size is equal to the
original MSISDN length + 1 (\0-terminator): one digit is lost.
For example, decoding of 15-digit long MSISDN to a buffer of size
16 (15 digits + 1 for \0) would give us only 14 digits. This is
reflected in the unit test output:
Decoding HEX (buffer limit=16) '0821436587092143f5'...
Expected: (rc=0) '123456789012345'
Actual: (rc=0) '12345678901234'
Moreover, if the output buffer is shorter than decoded number,
gsm48_decode_bcd_number2() silently truncates it and returns 0,
while its description states, that the rc should reflect this.
To be fixed in the follow-up patches.
Change-Id: I4b2c330cf8ffe4427c0bee7d5f3b74be56ecd85d
Related: OS#4025
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libosmo{core,gsm,vty} code is GPLv2+. The OAP code originated in
osmo-msc.git and was moved here without changing the license. That
was a mistake, it always was meant to be under GPLv2-or-later after
moving to libosmocore.git.
Copyright is with sysmocom, so I as the managing director can
approve the license change.
Change-Id: I08311fa8214c15f8df8945b9894226608cf96f15
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So far, the TLV code contained two types of functions
* tlp_parse() to parse all TLVs according to definition into tlvp_parsed
* various helper functions to encode individual TLVs during message
generation
This patch implements the inverse of tlv_parse(): tlv_encode(), which
takes a full 'struct tlv_pared' and encodes all IEs found in it. The
order of IEs is in numerically ascending order of the tag.
As many protocols have different IE/TLV ordering requirements, let's add
a tlv_encode_ordered() function where the caller can specify the TLV
ordering during the one-shot encode.
Change-Id: I761a30bf20355a9f80a4a8e0c60b0b0f78515efe
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Change-Id: Id2462c4866bd22bc2338c9c8f69b775f88ae7511
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Based on a draft created by Neels, which is the result of reading a MAP
trace of two MSCs negotiating inter-MSC handovers, and of reading the
TS 29.002, TS 29.010 and related specs:
https://lists.osmocom.org/pipermail/openbsc/2019-January/012653.html
I figured out that the "Handover Number" mentioned in the specifications
is the same as the MSISDN IE that we already have, so we can use that
instead of creating a new IE (example usage in tests/gsup/gsup_test.c).
Create a new OSMO_GSUP_MSGT_E_ROUTING_ERROR message type, which the GSUP
server uses to tell a client that its message could not be forwarded to
the destination (see [1]). MAP has no related message.
[1]: Change-Id: Ia4f345abc877baaf0a8f73b8988e6514d9589bf5 (osmo-hlr.git)
Related: OS#3774
Change-Id: Ic00b0601eacff6d72927cea51767801142ee75db
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osmo-msc and osmo-hlr have distinct subsystems handling incoming GSUP messages.
So far we decide entirely by message type which code path should handle a GSUP
message. Thus no GSUP message type may be re-used across subsystems.
If we add a GSUP message to indicate a routing error, it would have to be a
distinct message type for subscriber management, another one for SMS, another
one for USSD...
To allow introducing common message types, introduce a GSUP Message Class IE.
In the presence of this IE, GSUP handlers can trivially direct a received
message to the right code path. If it is missing, handlers can fall back to the
previous switch(message_type) method.
Change-Id: Ic397a9f2c4a7224e47cab944c72e75ca5592efef
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To be able to append an escaped or quoted string using
OSMO_STRBUF_APPEND_NOLEN(), the function signature must have the buf and len as
first args, like most other *_buf() functions.
Add osmo_escape_str_buf2() and osmo_quote_str_buf2() to match this signature.
A recent patch [1] has changed the return value of osmo_escape_str_buf() to
char*, removing the const. However, the functions may return const strings,
hence re-add the const. The new signatures always return the non-const buffer.
To avoid code duplication, implement osmo_quote_str_buf() and
osmo_escape_str_buf() by calling the new functions.
I decided to allow slight changes to the behavior for current osmo_escape_str()
and osmo_escape_str_buf(), because impact on callers is minimal:
(1) The new implementation uses OSMO_STRBUF_*, and in consequence
osmo_quote_str() no longer prints an ending double quote after truncated
strings; Before, a truncated output was, sic:
"this string is trunca"
and now this becomes, sic:
"this string is truncat
I decided to not keep the old behavior because it is questionable to begin
with. It looks like the string actually ended at the truncation boundary
instead of the reason being not enough space in the output buffer.
(2) The new osmo_escape_str_buf2() function obviously cannot pass-thru an
unchanged char* if no escaping was needed. Sacrifice this tiny optimization
feature to avoid code duplication:
- it is an unnoticeable optimization,
- the caller anyway always passes a string buffer,
- the feature caused handling strings and buffers differently depending on
their content (i.e. code that usually writes out strings in full length
"suddenly" truncates because a non-printable character is contained, etc.)
I considered adding a skip_if_unescaped flag to the osmo_quote_str_buf2()
function signature, but in the end decided that the API clutter is not worth
having for all the above reasons.
Adjust tests to accomodate above changes.
[1] 4a62eda225ab7f3c9556990c81a6fc5e19b5eec8
Ibf85f79e93244f53b2684ff6f1095c5b41203e05
Change-Id: Id748b906b0083b1f1887f2be7a53cae705a8a9ae
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In OSMO_STRBUF_APPEND, use local variable names that are less likely to shadow
other local variables: prefix with _sb_.
In OSMO_STRBUF_APPEND, add a check to add to .pos only if it is not NULL.
Add OSMO_STRBUF_APPEND_NOLEN(), which works for function signatures that don't
return a length. This is useful for any osmo_*_buf() string writing functions,
so that these write directly to the strbuf.
Change-Id: I108cadf72deb3a3bcab9a07e50572d9da1ab0359
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