libosmo{core,gsm,vty} code is GPLv2+. The tdef 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: Ie483ff6f6ea0a56c477649677b4b163c49df11d7
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
We don't really *need* it in libosmocore as such, but the lack of
having all osmocom extensions listed here lead to using overlapping
definitions: 0x18 was used for dynamic PDCH on the Abis side, but also
for CBCH on the L1SAP side. Let's list them all here to increase
visibility in case anyone wants to extend this further...
Related: OS#4027
Change-Id: I93e557358cf1c1b622f77f906959df7ca6d5cb12
The caller of lapdm_rslms_recvmsg() (e.g. osmo-bts/src/common/rsl.c)
assumes the message ownership is transferred. However, in one of the
two error paths, msgb_free() was not called and hence we had a memory
leak.
Also clarify the msgb ownership transfer in a comment.
Related: OS#3750
Change-Id: Id60cb45e50bfc89224d97df6c68fcd2949751895
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
Any non-anciant version of talloc implements talloc_steal()
as a #define using the _talloc_steal_loc() symbol. Let's be
more compatible.
This fix is relevant to using osmo_fsm inside the osmo-ccid-firmware
builds for Cortex-M4. In this situation, for some strange reason,
libosmcoore is compiled using src/pseudotalloc/talloc.h, but later then
linked against the real libtalloc.
Change-Id: I1ee7f5e9b1002cff37bb8341ad870e1da5f1f9ff
An enum is more clear than an int and #defines for passing around,
also in case you have a switch () statement, the compiler will issue
warnings for unhandled cases.
Change-Id: Icbbe8786a776081d7643193f154e6270224399e6
Add the constant, so it can be used in create-subscriber-on-demand
related patches. ITU-T Rec. E.164 6.1 states that maximum international
number length should be 15. I did not find a source for a minimum
length, but I've added the constant and set it to 1 for consistency
(based on the existing osmo_msisdn_str_valid() function).
Related: OS#2542
Change-Id: Idc74f4d94ad44b9fc1b6d43178f5f33d551ebfb1
IE GSM0808_IE_OSMO_OSMUX_SUPPORT (T, 1 byte) is sent in AoIP appended to
BSSMAP RESET in order to announce the peer that its MGW supports handling
Osmux streams upon call set up.
IE GSM0808_IE_OSMO_OSMUX_CID (TV, T 1 byte & V 1 byte) is sent in AoIP
during call set up:
* MSC->BSC Assignment Request
* BSC->MSC Assignemnt Complete
The 1 byte value contains the local Osmux CID, aka the recvCID aka CID where the
peer sending the Assign Req/Compl will look for Osmux frames on that
call. Hence, the peer receiving this CID value must use it to send Osmux
frames for that call.
As a result, a given call leg BSC<->MSC can have one different Osmux CID
per direction. For example:
* MS => MGW_BSC ==CID 0==> MGW_MSC
* MS <= MGW_BSC <=CID 1=== MGW_MSC
This allows for setups with 256 call legs per BSC on scenarios where NAT
is not a problem, where MSC can have a pool of 256 CID per MGW_BSC (or
remote peer).
Related: OS#2551
Change-Id: I28f83e2e32b9533c99e65ccc1562900ac2aec74e
osmo_sock_get_name_buf():
In case the getsockname() call is failing for some weird reason,
we shouldn't return an uninitialized, non-zero-terminated string
buffer to the caller, as most callers will be too lazy to test the
return value.
This holds even more true for users of the internal
osmo_sock_get_name2() and osmo_sock_get_name2_c() functions which indeed
very much ignore the return value of osmo_sock_get_name_buf().
Change-Id: I2d56327e96b7a6783cca38b828c5ee74aed776ae
This reverts commit 9685a48c7b which has
caused massive fall-out among (particularly) unit tests in osmo-{msc,bts,pcu}.
Change-Id: Iede72e86451d94cf678045992cb71f6b1bf16896
This function is doing the bulk work of encoding a given Cell
ID List item. gsm0808_enc_cell_id_list2() is modified to be a
wrapper / loop around the new function.
The purpose of this is to expose Cell ID List Entry encoding
so that the upcoming CBSP protocol encoder can re-use this code.
Related: OS#3537
Change-Id: I6cc567798e20365e6587e6b2988e834306d8c80c
In testing against a particular EPC, the SGsAP-SERVICE-REQUEST
can contain a MO fallback value TLV with T 0xF1
Change-Id: Ia2460af9673818d375e28c67f1631b5f7eacdaeb
This expect script can be run as:
./vty bsc
./vty msc
./vty sip ...
etc (no need to remember ports)
Change-Id: Ice4532be7cb3139da29cb9d84dd4769e8d826dfa
In Change-Id Ia71542ea37d4fd2c9fb9b40357db7aeb111ec576, the old
declaration of gsm0808_create_handover_request_ack() was accidentially
removed from the gsm0808.h header file. The actual function itself
(and the exported symbol) remained for backwards compatibility at
runtime, but removing the declaration from the header file resulted in
build failures across the board of all automatic tests.
Let's re-introduce the old declaration.
Change-Id: I9e96fa675fccca9ee9631caad7559dea3794d490
osmo-bsc so far omits the AoIP Transport Layer Address from its Handover
Request Acknowledge message, which breaks inter-BSC Handover for AoIP.
Allow fixing that.
One quirk I really don't like about this: I would prefer to directly use struct
sockaddr_storage as a member of the struct gsm0808_handover_request_ack. Even
though struct sockaddr_storage appears in various function signatures, the
gsm0808.c actually also gets built on embedded systems that lack arpa/inet.h
(for me indicated by the ARM build job on jenkins). Compiling gsm0808.c works
only because the actual coding of struct sockaddr_storage is implemented in
gsm0808_util.c, which (apparently) does not get built on embedded and hence,
even though there are undefined references to e.g.
gsm0808_enc_aoip_trasp_addr() it works.
Related: I4a5acdb2d4a0b947cc0c62067a67be88a3d467ff (osmo-bsc)
Change-Id: Ia71542ea37d4fd2c9fb9b40357db7aeb111ec576
In osmo_gsup_decode(), call gsm48_decode_bcd_number2() to avoid deprecation
warning, and also actually check the return value to detect invalid IMSI IEs.
Change-Id: Iaded84d91baad5386c8f353c283b6b9e40a43b05
gsm48_decode_bcd_number() is marked as deprecated, so
gsm48_decode_bcd_number2() will cause deprecation warnings as long as it calls
gsm48_decode_bcd_number(). Hence move the code to gsm48_decode_bcd_number2().
Change-Id: I81925e9afb3451de9b8a268d482f79ee20ca14d6
The input_len argument for gsm48_decode_bcd_number2() includes the BCD length
*and* the length byte itself, so add the missing +1.
Also clarify the API doc for the input_len argument.
Change-Id: I87599641325c04aae2be224ec350b1a145039528
For async callbacks it is useful to determine whether a given VTY pointer is still valid.
For example, in osmo-msc, a silent call can be triggered by VTY, which causes a
Paging. The paging_cb then writes to the VTY console that the silent call has
succeeded. Unless the telnet vty session has already ended, in which case
osmo-msc crashes; e.g. from an osmo_interact_vty.py command invocation. With
this function, osmo-msc can ask whether the vty pointer passed to the paging
callback is still active, and skip vty_out() if not.
Change-Id: I42cf2af47283dd42c101faae0fac293c3a68d599
In BSSMAP messages, at least the Cell Identifier IE can appear more than once.
We have tlv_parse2() which allows decoding into an array of tlv_parsed to
cleanly handle multiple occurences. Hence add osmo_bssap_tlv_parse2() which
supports multiple occurences.
An alternative would be to directly call tlv_parse2() with gsm0808_att_tlvdef()
when multiple T occurences are needed, and I'm not really sure why
osmo_bssap_tlv_parse() exists in the first place. But because it does, add a
similar definition that is capable of handling multiple IEs with identical Tag
discriminator.
Change-Id: Ib9a2095f7498dc2cda2a57154b2dbe4621df72f8
gsm48_decode_bcd_number() is unable to provide proper bounds validation of
input and output data, hence osmo-msc's vlr.c introduced a static
decode_bcd_number_safe() a long time ago. Move to libosmocore.
I need to use the same function to decode an MSISDN during inter-MSC Handover,
instead of making it public in osmo-msc, rather deprecate the unsafe function
and provide a safer version for all callers. Mark the old one deprecated.
Change-Id: Idb6ae6e2f3bea11ad420dae14d021ac36d99e921
The actual value-string array 'gsm_chan_t_names' describes
the enum values of 'gsm_chan_t', not 'gsm48_chan_mode'.
Change-Id: Ifc2121b23fb8d07589cc5b7aa8fbf4e27eb6b72b
Fixes: CID#188831, CID#188825
Change two instances of Speech Version values to enum gsm0808_permitted_speech.
It is often not trivial to find the right values for a uint8_t member, giving
the enum name makes it a lot easier/safer to use.
In gsm0808_create_handover_required(), use msgb_tv_put() so that the enum's
storage size doesn't matter. (Already used for handover_performed)
Fix typo in doc of gsm0808_create_handover_required().
Change-Id: I6387836bab76e1fa42daa0f42ab94fc14b70b112
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
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
Various places in our code base figure out how many chars they need to safely
store an IMSI. An IMSI can have a checksum digit, which is not reflected by
GSM23003_IMSI_MAX_DIGITS. And we usually need a terminating \0.
Instead of having a magic +2 repeated every so often, rather define
OSMO_IMSI_BUF_SIZE to contain both checksum digit and nul char, and have the
explanatory comment with it here in libosmocore.
Change-Id: Id11ada4c96b79f7f0ad58185ab7dbf24622fb770
Calling sizeof() on a pointer would result in getting size of the
pointer (usually 4 or 8 bytes) itself, but not the size of the
memory it points to.
Change-Id: I83f55a9638b75d9097d37992f7c84707791f10f6
Fixes: CID#194266
Calling sizeof() on a pointer to dynamically allocated memory would
result in getting size of the pointer (usually 4 or 8 bytes) itself,
but not the size of allocated memory.
Change-Id: I8ffda4dea2b7f9b4b76dfeecad1fab6384c5a62c
Fixes: CID#197629, CID#197628, CID#197627
Fixes: CID#197626, CID#197625, CID#197624
We often compose FSM instance IDs from context information, for example placing
an MSISDN string or IP:port information in the FSM instance id, using
osmo_fsm_inst_update_id_f(). This fails if any characters are contained that
don't pass osmo_identifier_valid(). Hence it is the task of the caller to make
sure only characters allowed in an FSM id are applied.
Provide API to trivially allow this by replacing illegal chars:
- osmo_identifier_sanitize_buf(), with access to the same set of illegal
characters defined in utils.c,
- osmo_fsm_inst_update_id_f_sanitize() implicitly replaces non-identifier
chars.
This makes it easy to add strings like '192.168.0.1:2342' or '+4987654321' to
an FSM instance id, without adding string mangling to each place that sets an
id; e.g. replacing with '-' to yield '192-168-0-1:2342' or '-4987654321'.
Change-Id: Ia40a6f3b2243c95fe428a080b938e11d8ab771a7
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] 4a62eda225
Ibf85f79e93244f53b2684ff6f1095c5b41203e05
Change-Id: Id748b906b0083b1f1887f2be7a53cae705a8a9ae
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