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158 Commits
v0.0.0 ... cisco

Author SHA1 Message Date
7u83
5423709dda Removed libwifi dependencies 2022-09-20 10:35:23 +02:00
7u83
e974b3ae2d Work on wifi implemntation 2022-09-20 08:31:04 +02:00
7u83
07257f51fe Removed 2022-09-18 23:36:34 +02:00
7u83
dec1cf2003 Fixed missing hexdum for elems with "elem_dmp" 2022-09-18 23:14:22 +02:00
7u83
40427b3816 Use correct len for last fragmented packet 2022-09-18 18:06:53 +02:00
7u83
435b3f823e Correct fragment handling when sendig fragmented packets 2022-09-18 08:53:49 +02:00
7u83
ae686f4634 new funtion to send CAPWAP packets 2022-09-18 08:04:49 +02:00
7u83
b292b88d49 More dot11 stuff added 2022-09-15 07:47:41 +02:00
7u83
97533f67cc some stuff for dot11 handling added 2022-09-13 08:18:05 +02:00
7u83
259c6c5e66 Work on data channel 2022-09-12 00:28:58 +02:00
7u83
bc5dea6016 script to download and extract hostapd 2022-09-07 16:40:24 +02:00
7u83
ec6809b552 Work on data channel 2022-09-06 09:16:10 +02:00
7u83
1297c46a15 Removed netcon 2022-09-04 21:41:23 +02:00
7u83
cc257ed27f Fragman preserves packet header 2022-09-04 21:40:08 +02:00
7u83
059c0e542e Added verbosity for ap-mode 2022-09-04 21:38:22 +02:00
7u83
9d3fa452aa Fix: Add brackets around defined value 2022-09-04 18:43:17 +02:00
7u83
300b737efd Better formatting 2022-09-04 14:00:43 +02:00
7u83
085e657c76 Updated what you can do so far 2022-09-04 13:47:51 +02:00
7u83
f62b1c56e1 Added some (test) macros to git 2022-09-04 13:29:15 +02:00
7u83
acc7b692ee Deleted out-commented and unused code 2022-09-04 13:23:27 +02:00
7u83
8a8381731f fixed typo 2022-09-04 12:31:19 +02:00
7u83
6f4ba62080 actube -h shows some help about debug levels 2022-09-04 12:30:08 +02:00
7u83
0eb3e16932 Moved debug options into a mavl object 
So there is an unlimited number of debug options, instead of 32 as
before.
 2022-09-04 11:13:12 +02:00
7u83
ca4a6b9996 Ununsed stuff 2022-09-04 08:29:37 +02:00
7u83
66db979fdb New type cw_type_bits 2022-09-03 17:27:19 +02:00
7u83
0078c07e58 'CFG atcher' in wtpman 2022-09-02 12:03:38 +02:00
7u83
20bd835f63 Fixed size of led state config >= v7.3 2022-09-02 02:15:32 +02:00
7u83
1e8b52fd03 Moved Cisco ssl cfg stuff to mod/cisco 2022-09-02 02:00:43 +02:00
7u83
2f1985b821 Example WLAN definition 2022-09-02 01:51:38 +02:00
7u83
27506fa788 We can join an 1131 AP, and bring up a WLAN 
data channel is currently missing
 2022-09-01 23:09:33 +02:00
7u83
5ed35979cd Moved Callbacks to mods 2022-09-01 10:24:40 +02:00
7u83
2064f7dba1 put out a correct WTP Descriptor, even if no data is available 2022-08-30 22:13:22 +02:00
7u83
190c94ded4 Work on wtp descriptor CAPWAP 2022-08-30 20:25:55 +02:00
7u83
4fe2bae7f7 Deleted unused .ktv 2022-08-30 14:56:26 +02:00
7u83
89e7e61e1d Fixed some bugs, added more Cisco elements 
Almost able to create a WLAN
 2022-08-30 08:52:18 +02:00
7u83
2b055175c7 Uses DTLS_timer_cb to work with old APs 2022-08-29 21:29:11 +02:00
7u83
0ebac6c98e Cisco ht-caps can be parsed 2022-08-28 21:21:21 +02:00
7u83
15e363f34e Read SIG Payload and more cisco elements 2022-08-28 16:19:49 +02:00
7u83
2b6dc68ee5 Some macros added 2022-08-28 13:14:35 +02:00
7u83
e39f4eb097 load and save cmds are added 2022-08-28 13:10:36 +02:00
7u83
4ef1b69f83 Fixes in RPC 2022-08-28 11:42:11 +02:00
7u83
a77023165b Added lots of RPC cmds added. send is possible. 2022-08-28 09:06:15 +02:00
7u83
62616b5e7b New array type 2022-08-27 21:05:34 +02:00
7u83
79b688c38e Fixed seg fault when mods for some reason fail fail to load. 2022-08-27 10:40:13 +02:00
7u83
4995cac9b8 WTP reads two configs no 
It read 1st the file startup.ckv, wich will
never be overwritten.
And then config.ckv, wich will saved when
ever config cahnges ar made.
 2022-08-27 10:16:49 +02:00
7u83
d7c826fac6 Removed 2022-08-27 10:16:35 +02:00
7u83
d668e0e5a7 Initial commit 2022-08-27 10:15:36 +02:00
7u83
63cb0b928f Added comments 2022-08-27 10:05:02 +02:00
7u83
361e9dd1aa Removed radioinfo.h 2022-08-27 01:03:33 +02:00
7u83
3f69dbf67e More clean-up 2022-08-27 00:50:59 +02:00
7u83
43b75502f7 Fix: removed cw_in_generic_struct from Makefile 2022-08-27 00:45:08 +02:00
7u83
4a565efff1 Removed a lot of old stuff, compiles almost w/o warnings 2022-08-27 00:41:47 +02:00
7u83
54955daff4 More Cisco Elements decoded 2022-08-27 00:24:20 +02:00
7u83
4047707fa8 Unused files 2022-08-26 21:22:18 +02:00
7u83
5b1690bfbf Cisco RRM element implemented 2022-08-26 21:12:39 +02:00
7u83
34f5589a17 WTP bind addr and discovery addr ist configurable 2022-08-26 19:50:59 +02:00
7u83
e3ccf2a93c Fixed memroy leak 2022-08-26 19:33:57 +02:00
7u83
276a282369 Moved a lot cfg entries from / to /capwap etc 2022-08-26 17:38:28 +02:00
7u83
d127263d80 ac compiles w/o warnings 2022-08-26 08:05:41 +02:00
7u83
c3b921292b Do some mgic to send Cisco's AC radio info element 2022-08-26 06:46:18 +02:00
7u83
744e1b55c2 cfg_list in conn 2022-08-25 21:02:02 +02:00
7u83
2098cabad1 more capwap80211 moving 2022-08-25 21:10:48 +02:00
7u83
49905b2aa0 Fix in Antenna Payload, some moving to capwap80211 2022-08-25 20:59:12 +02:00
7u83
e571a27c75 Better formatting in list command 2022-08-25 11:22:32 +02:00
7u83
a59a25baa5 Changed queue size to 100 2022-08-25 11:22:13 +02:00
7u83
57890907ae Som kind of shell - act 2022-08-24 16:24:57 +02:00
7u83
86956ff1ce Fixes for Ubuntu 2022-08-24 00:54:54 +02:00
7u83
50d11c0c62 Some kind of shell is now there in act 2022-08-24 00:29:26 +02:00
7u83
2316a1125f Work on shell 2022-08-23 19:55:36 +02:00
7u83
3ee1d725a5 exit command works 2022-08-23 04:08:37 +02:00
7u83
d94239679d Work on ansi shell 2022-08-23 02:35:54 +02:00
7u83
23360febfa Improved CAPWAP AC Descriptr handling 2022-08-22 20:11:33 +02:00
7u83
05963edc98 Work on icapwap_out_ac_status 2022-08-22 20:09:02 +02:00
7u83
815c627e14 Updated 2022-08-22 19:00:50 +02:00
7u83
06822df49a Added /usr/local/lib to get linked under FreeBSD 2022-08-22 18:49:45 +02:00
7u83
19e38b332f Removed ol stuff 2022-08-22 16:44:34 +02:00
7u83
65153617b7 A lot of bug fixes and improvments 2022-08-22 01:59:23 +02:00
7u83
226c4b832a Compiles w/o warning 2022-08-21 20:41:39 +02:00
7u83
196f56b988 More improved dumps 2022-08-21 00:53:41 +02:00
7u83
aa3d83d8a4 cw_Cfg_t is now a structure instead of typedef's mavl 2022-08-20 22:03:06 +02:00
7u83
ee16f3794f Improved debugging 2022-08-20 21:00:46 +02:00
7u83
6405a937d2 CAPWAP Image identifier included and lwapp 55 2022-08-20 14:34:08 +02:00
7u83
c7a934c64b Added some defaults 2022-08-20 02:17:18 +02:00
7u83
e26f9dbfd8 Settings of 1142 after clear capwap private-config 2022-08-20 01:59:54 +02:00
7u83
c422200a9a Alle join and status req messages elems are catched 2022-08-20 01:59:27 +02:00
7u83
301298dcdc updated 2022-08-19 23:55:30 +02:00
7u83
d4c80b5ebb Some reverse engenering of elemen 15 2022-08-19 23:51:46 +02:00
7u83
6dc8d80102 Almost all ktv stuff deleted 2022-08-19 22:23:55 +02:00
7u83
14354039e1 updated install instruction 2022-08-18 18:50:40 +02:00
7u83
e6a064c328 Options for libmavl and include directory added 2022-08-18 10:54:14 +02:00
7u83
6c7ce7727a Example for Localdefs.mak 2022-08-18 08:54:00 +02:00
7u83
44bb37cbb8 Example ckv for cisco 2022-08-18 08:52:44 +02:00
7u83
5dcfaba7ee Added missing message.c 2022-08-18 08:50:34 +02:00
7u83
b574aac31f missing val.c added 2022-08-18 08:49:55 +02:00
7u83
b54f4fb9fa updatedd libmavl to 1.2.0 2022-08-18 08:45:10 +02:00
7u83
7420a5d2fc WTP can join and goes into REG status on WLC 2022-08-18 08:17:31 +02:00
7u83
c2cb96e5dc WTP can join and send cfg request 2022-08-17 18:41:17 +02:00
7u83
9307b05b46 Deleted 2022-08-15 22:08:48 +02:00
7u83
be210692c6 Moved message encoding/decoding to message.c 2022-08-15 21:14:01 +02:00
7u83
a051ba41de WTP can join w/o any memory leaks 2022-08-15 16:31:26 +02:00
7u83
df5e2bcbb7 WTP can run discoveryw/o memory leaks 2022-08-15 00:51:38 +02:00
7u83
daa808f9a2 Fixed some memory leaks 2022-08-14 16:03:31 +02:00
7u83
5f16ed5455 moved conn_destroy to conn.c 2022-08-14 14:15:18 +02:00
7u83
85f79eac6a Eliminated types_tree from msgset 2022-08-14 14:04:58 +02:00
7u83
e2e6d29069 Stuff moved to cw.c 2022-08-14 13:37:28 +02:00
7u83
fc9ee8dfc2 commented out 2022-08-14 13:31:58 +02:00
7u83
143ffb1e08 base_exists and del_sub deleted 2022-08-14 13:31:35 +02:00
7u83
f17496592f cw_ktv_del_sub removed 2022-08-14 13:31:05 +02:00
7u83
e53b7f1142 Delete cw_ktv_del_sub 2022-08-14 12:43:34 +02:00
7u83
459e2e2aeb Lots done in move to typeless 2022-08-14 12:26:34 +02:00
7u83
b158544f1a uses cfg_list 2022-08-14 11:26:37 +02:00
7u83
46a932dc4b KTV -> CFG 2022-08-14 11:22:30 +02:00
7u83
ff8d520972 New msg_callbacks implemented and tested 2022-08-13 11:48:49 +02:00
7u83
a3f7a4fc1a Added msg_callbacks 2022-08-13 10:49:15 +02:00
7u83
c2e323c941 Formatting 2022-08-13 10:36:05 +02:00
7u83
3a8159320f Deleted cwmsg.h 2022-08-13 10:19:06 +02:00
7u83
6a64e28982 Removed conn->write_header 2022-08-13 10:18:29 +02:00
7u83
6dbf0bc706 Deleted 2022-08-13 09:52:05 +02:00
7u83
370942ef7e More work on typeless 2022-08-13 09:47:12 +02:00
7u83
add6ffa314 Completely removed cache 2022-08-13 02:02:52 +02:00
7u83
ce4a1dd2df Stae MAchine 2022-08-11 00:21:29 +02:00
7u83
e5f5687b2b Work on state machine 2022-08-11 00:21:01 +02:00
7u83
bf8a8c6d53 Deleted files 2022-08-10 21:36:58 +02:00
7u83
10b88b8f86 Renamed capwap_actions_ac 2022-08-10 21:32:16 +02:00
7u83
e6e8c8ed32 renamed cisco_actions_ac to cisco_actions 2022-08-10 13:37:46 +02:00
7u83
c5e1abb842 Renamed cw_put_msg to cw_assemble_message 2022-08-10 13:16:09 +02:00
7u83
9e54e46e45 More move to cw_Conn and conn-stuff within on file 2022-08-10 02:10:10 +02:00
7u83
f8654a0408 Removed conn_q_wait_packet 2022-08-10 01:02:45 +02:00
7u83
1703be9294 Deleted capwap_mode 2022-08-09 23:45:37 +02:00
7u83
d8f18f1a6a deleted capwap_mode 2022-08-09 23:44:35 +02:00
7u83
4b5b00009c Renamed struct conn to struct cw_Conn 2022-08-09 22:35:47 +02:00
7u83
3da4805c06 cw_in_check_cfg_update_req.c deleted 2022-08-09 21:54:26 +02:00
7u83
5b25d49b2b Removed unused code 2022-08-09 21:51:49 +02:00
7u83
484be39f78 Fixed: free interface name 2022-08-09 21:48:48 +02:00
7u83
0739d57aa6 param attribute added 2022-08-09 21:48:15 +02:00
7u83
fe16e62ef2 Deleted unused code 2022-08-09 21:47:39 +02:00
7u83
8a1a713c12 new type CW_TYPE_STRUCT 2022-08-09 21:45:46 +02:00
7u83
14e69d168b Discovery types and Mac types added 2022-08-09 18:17:10 +02:00
7u83
bc5e312ec4 Deleted some unused comments 2022-08-09 17:23:23 +02:00
7u83
d2240646f9 Removed cw_ElemHandlerParams.elem 2022-08-09 09:52:30 +02:00
7u83
8aa11dccba Moved from ktv to cfg 2022-08-08 23:14:11 +02:00
7u83
7d28858a70 New cmp funtion to get sorted integer arrays 2022-08-08 23:11:27 +02:00
7u83
8db182a303 Removed ktv stuff and switched to cfg 2022-08-08 23:10:31 +02:00
7u83
9452589625 ipv4 and ipv6 configurable 2022-08-08 23:09:28 +02:00
7u83
be3adf279d ipv4 and ipv6 are configurable 2022-08-08 23:09:10 +02:00
7u83
1544c6aa1b More example cfg 2022-08-08 23:08:38 +02:00
7u83
a3bc9dd09c Removed libconfuse-stuff, change to config.ckv 2022-08-08 23:07:58 +02:00
7u83
fb280d1c1c Removed libconfuse dependency 2022-08-08 23:06:56 +02:00
7u83
5240553144 Creates man pages 2022-08-08 08:40:14 +02:00
7u83
1598abee34 New config file 2022-08-01 10:08:01 +02:00
7u83
156466eab9 listen addrs are stored in cfg obj now 2022-08-01 10:06:18 +02:00
7u83
04d469b970 new function to traverse config 
(Work in progress)
 2022-08-01 10:05:14 +02:00
7u83
0e07e42167 No compiler warnings 2022-08-01 10:04:25 +02:00
7u83
4c37d89f03 Changed config.atv to ckv 2022-08-01 10:01:25 +02:00
7u83
6d9da94863 Better error handling. 2022-07-31 23:58:43 +02:00
7u83
1616d77a0f Much clean-up 2022-07-31 23:00:20 +02:00
7u83
a389003199 Fix: memory leak 2022-07-31 22:46:39 +02:00
7u83
eac5e73528 Fixed: memory leak 2022-07-31 22:44:58 +02:00
291 changed files with 12213 additions and 14394 deletions
Expand all files Collapse all files

40
INSTALL
View File

@ -1,40 +1,34 @@
pre-requisites to build actube pre-requisites to build actube
============================== ==============================
Compile
=======
FreeBSD
On FreeBSD 10.2
---------------- ----------------
pkg install libconfuse
pkg install wget pkg install wget
pkg install libnettle pkg install nettle
cd src/contrib
sh install_libmavl
cd ..
make
Ubuntu 14.04 Ubuntu
------------ ------
apt-get install build-essential clang apt-get install build-essential clang
apt-get install nettle-dev apt-get install nettle-dev
apt-get install libgnutls28-dev
apt-get install libssl-dev apt-get install libssl-dev
apt-get install libconfuse-dev apt install libedit-dev
apt-get install libsqlite3-dev apt install bmake
pre-requisites to build wtp
===========================
Ubuntu 14.04
------------
apt-get install cmake
apt-get install libnl-genl-3-dev
cd src/contrib cd src/contrib
sudo ./install_libuci.sh sh install_libmavl
cd ..
bmake

18
Makefile
View File

@ -1,13 +1,23 @@
.OBJDIR: ./
all: all: ac wtp
$(MAKE) -C src/cw
$(MAKE) -C src/mod
$(MAKE) -C src/ac
clean: clean:
$(MAKE) -C src/cw clean $(MAKE) -C src/cw clean
$(MAKE) -C src/mod clean $(MAKE) -C src/mod clean
$(MAKE) -C src/ac clean $(MAKE) -C src/ac clean
$(MAKE) -C src/wtp clean
cw:
$(MAKE) -C src/cw
ac: cw mod
$(MAKE) -C src/ac
wtp: cw mod
$(MAKE) -C src/wtp
mod: cw
$(MAKE) -C src/mod

58
README.md
View File

@ -2,6 +2,62 @@ AC-Tube
======= =======
Open Source CAPWAP WLC + WTP Open Source CAPWAP WLC + WTP
Current status: early development. Current status: development.
See also http://7u83.cauwersin.com/?cat=28 See also http://7u83.cauwersin.com/?cat=28
What you can do so far ...
Read INSTALL and compile actube.
Then ...
Create certificates:
cd ssl
sh all.sh
cd ..
Edit src/actube/config.ckv and set your IP in
capwap/control-ip-address/address.0
Start actube with some debug options:
cd src/ac
./actube -d std -d mod -d elem\_detail -d elem\_dmp
If you have an AP with IOS 7.3x it should connect. Others
might connect, too.
Make sure on the AP you heve made
clear capwap private-config.
In another terminal window connect to the RPC interface:
cd src/ac
./act -s 127.0.0.1:5000
Send some commands to bring up a WLAN:
list # list all connected APs
select <apname> # set <apname> to the name of AP you want to select
status # show status of selected AP
# the following sequence activates a WLAN called actube on AP
load wlan1
send
clear
load activate
send
status # This should display now oper status for
# interface 0 enabled
CWAPWAP data layer is still not finished, so you can't use the WLAN

35
actube.workspace
View File

@ -1,35 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<CodeLite_Workspace Name="actube" Database="">
<Project Name="ac" Path="ac.project" Active="No"/>
<Project Name="wtp" Path="wtp.project" Active="No"/>
<Project Name="mod_cipwap" Path="mod_cipwap.project" Active="No"/>
<Project Name="mod_capwap" Path="mod_capwap.project" Active="No"/>
<Project Name="mod_cisco" Path="mod_cisco.project" Active="Yes"/>
<Project Name="libcw" Path="libcw.project" Active="No"/>
<Project Name="mod_capwap80211" Path="mod_capwap80211.project" Active="No"/>
<Project Name="mod_fortinet" Path="mod_fortinet.project" Active="No"/>
<BuildMatrix>
<WorkspaceConfiguration Name="Debug" Selected="yes">
<Environment/>
<Project Name="ac" ConfigName="Debug"/>
<Project Name="wtp" ConfigName="Debug"/>
<Project Name="mod_cipwap" ConfigName="Debug"/>
<Project Name="mod_capwap" ConfigName="Debug"/>
<Project Name="mod_cisco" ConfigName="Debug"/>
<Project Name="libcw" ConfigName="Debug"/>
<Project Name="mod_capwap80211" ConfigName="Debug"/>
<Project Name="mod_fortinet" ConfigName="Debug"/>
</WorkspaceConfiguration>
<WorkspaceConfiguration Name="Release" Selected="yes">
<Environment/>
<Project Name="ac" ConfigName="Release"/>
<Project Name="wtp" ConfigName="Release"/>
<Project Name="mod_cipwap" ConfigName="Release"/>
<Project Name="mod_capwap" ConfigName="Release"/>
<Project Name="mod_cisco" ConfigName="Release"/>
<Project Name="libcw" ConfigName="Release"/>
<Project Name="mod_capwap80211" ConfigName="Release"/>
<Project Name="mod_fortinet" ConfigName="Release"/>
</WorkspaceConfiguration>
</BuildMatrix>
</CodeLite_Workspace>

1
include/README Normal file
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@ -0,0 +1 @@
this is an include directroy

6
src/LocalDefs-example.mak Normal file
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@ -0,0 +1,6 @@
CFLAGS+=-Wall -g -O0 -fsanitize=address -fPIC
LIBS=-lasan
CC=clang

33
src/ac/Makefile
View File

@ -5,11 +5,16 @@ include ../Defs.mak
OBJS = \ OBJS = \
wtplist.o wtpman.o conf.o ac_main.o \ wtplist.o wtpman.o conf.o ac_main.o \
dataman.o \ dataman.o \
ac_interface.o \
socklist.o \ socklist.o \
discovery_cache.o\ discovery_cache.o\
shell.o\ rpc.o\
statemachine.o\
#hapd.o
ACTOBJS = \
act.o
ACTPRG=act
PRG=actube PRG=actube
LIBPATH=-L../../lib/$(KERNEL)/$(ARCH)/ -L/usr/local/lib -L/usr/lib LIBPATH=-L../../lib/$(KERNEL)/$(ARCH)/ -L/usr/local/lib -L/usr/lib
@ -17,27 +22,43 @@ LIBS+=-lmavl
LIBS+=-lcw LIBS+=-lcw
LIBS+=-lrt LIBS+=-lrt
LIBS+=-lpthread LIBS+=-lpthread
LIBS+=-lconfuse
LIBS+=-lc LIBS+=-lc
LIBS+=-lnettle LIBS+=-lnettle
LIBS+=-lssl LIBS+=-lssl
LIBS+=-lcrypto LIBS+=-lcrypto
LIBS+=-ledit
#LIBS+=-l:libhapd.a
INCL_DIRS=-I../ -I/usr/local/include -I./ -I../../include INCL_DIRS=-I../ -I/usr/local/include -I./ -I../../include -I../../include/hostapd -I../../include/hostapd/utils
#FLAGS=-DWITH_IPV6 -DWITH_OPENSSL -DSYS_ARCH="$(ARCH)" -DSYS_ARCH="XXX" #FLAGS=-DWITH_IPV6 -DWITH_OPENSSL -DSYS_ARCH="$(ARCH)" -DSYS_ARCH="XXX"
FLAGS=-DWITH_IPV6 -DUSE_OPENSSL -DSYS_ARCH='"$(ARCH)"' FLAGS=-DWITH_IPV6 -DUSE_OPENSSL -DSYS_ARCH='"$(KERNEL)/$(ARCH)"'
all: act actube
act: act.c
$(CC) act.c $(INCL_DIRS) $(LIBPATH) -DSYS_ARCH='"$(KERNEL)/$(ARCH)"' -o act -l:libcw.a -lasan -lcrypto -ledit
.c.o: .c.o:
@echo " $(CC) "$< @echo " $(CC) "$<
$(CC) $(FLAGS) $(INCL_DIRS) -c $(CFLAGS) $< -o $@ $(CC) $(FLAGS) $(INCL_DIRS) -c $(CFLAGS) $< -o $@
all: $(PRG) $(ACTPRG)
$(PRG): $(OBJS) $(PRG): $(OBJS)
# $(CC) $(AC_OBJS) ../mod/modload_ac.o -o $(AC_NAME) $(LDFLAGS) $(LIBS)
$(CC) $(OBJS) -o $(PRG) $(LIBPATH) $(LDFLAGS) $(LIBS) $(CC) $(OBJS) -o $(PRG) $(LIBPATH) $(LDFLAGS) $(LIBS)
#$(ACTPRG): $(ACTOBJS)
# $(CC) $(ACTOBJS) -o $(ACTPRG) $(LIBPATH) $(LIBS) -ledit
#$(CC) $(ACTOBJS) $(ACTPRG) $(LIBPATH) $(LDFLAGS) $(LIBS) -ledit
clean: clean:
rm -f $(PRG) $(OBJS) rm -f $(PRG) $(OBJS)
rm -f $(ACTPRG) $(ACTOBJS)

9
src/ac/ac.h
View File

@ -1,11 +1,7 @@
#ifndef __ACTUBE_AC_H #ifndef __ACTUBE_AC_H
#define __ACTUBE_AC_H #define __ACTUBE_AC_H
#include "mavl.h" #include "cw/cfg.h"
#include "cw/mavltypes.h"
extern mavl_t actube_global_cfg;
extern struct ac_status ac_global_status; extern struct ac_status ac_global_status;
@ -21,7 +17,10 @@ enum {
AC_PROTO_UNKNOWN AC_PROTO_UNKNOWN
}; };
int start_rpc(cw_Cfg_t *global_cfg);
int test_shell();
void hapd_run();
#endif #endif

103
src/ac/ac_interface.c
View File

@ -1,103 +0,0 @@
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/socket.h>
#include "cw/sock.h"
#include "socklist.h"
#include "conf.h"
#include "cw/capwap.h"
/*//#include "cw/capwap_80211.h"*/
/*#include "cw/aciplist.h"*/
/*
int pr(void *x,void *y){
}
*/
/*
struct radioinfo * get_radioinfo()
{
}
*/
/*
struct ac_info * get_acinfo()
{
struct ac_info * acinfo;
acinfo = malloc(sizeof(struct ac_info));
if(!acinfo)
return 0;
memset(acinfo,0,sizeof(struct ac_info));
acinfo->ac_name=conf_acname;
acinfo->stations=10;
acinfo->limit=10000;
acinfo->active_wtps=10;
acinfo->max_wtps=conf_max_wtps;
acinfo->rmac=1;
acinfo->vendor_id=conf_vendor_id;
acinfo->hardware_version=(uint8_t*)conf_hardware_version;
acinfo->software_version=(uint8_t*)conf_software_version;
acinfo->cisco_hardware_version=(uint8_t*)conf_cisco_hardware_version;
acinfo->cisco_software_version=(uint8_t*)conf_cisco_software_version;
if (conf_dtls_psk)
acinfo->security|=AC_SECURITY_S;
if (conf_sslkeyfilename && conf_sslcertfilename)
acinfo->security|=AC_SECURITY_X;
// acinfo->dtls_policy = AC_DTLS_POLICY_C | AC_DTLS_POLICY_D ;
// acinfo->ac_ips = conf_ac_ips;
// acinfo->ac_ips_len=conf_ac_ips_len;
// acinfo->salist=conf_salist;
// acinfo->salist_len=conf_salist_len;
// acinfo->salist = conf_ac_ips;
// acinfo->salist_len = conf_ac_ips_len;
//acinfo->aciplist=get_aciplist();
aciplist_foreach(acinfo->aciplist,pr,NULL);
*/
/*
int i;
for (i=1; i<=4; i++){
acinfo->radioinfos[i].type=
CW_80211_RADIO_TYPE_B |
CW_80211_RADIO_TYPE_A |
CW_80211_RADIO_TYPE_G |
CW_80211_RADIO_TYPE_N;
// acinfo->radioinfos[i].type=0xffffffff;
acinfo->radioinfos[i].rid=i;
}
return acinfo;
}
*/
/*
get_join_result()
{
return 0;
}
*/

298
src/ac/ac_main.c
View File

@ -33,7 +33,6 @@
#include "socklist.h" #include "socklist.h"
#include "db.h"
#include "cw/capwap_crypto.h" #include "cw/capwap_crypto.h"
@ -48,12 +47,39 @@
#include "cw/cfg.h" #include "cw/cfg.h"
int ac_run(); int ac_run(cw_Cfg_t * cfg);
#include "statemachine.h"
#include <getopt.h> #include <getopt.h>
#include <sys/socket.h>
#include <sys/un.h>
/*
void tshell_run(int fd)
{
int rc;
printf("listening\n");
rc = listen(fd,5);
printf("listen returned %d\n",rc);
clientsock = accept (sockfd, (struct sockaddr*) &client, &client_size);
}
void tshell()
{
printf("tshell start\n");
struct sockaddr_un addr;
int fd = socket(AF_UNIX, SOCK_STREAM, 0);
memset(&addr, 0, sizeof(addr));
addr.sun_family = AF_UNIX;
strncpy(addr.sun_path, "./tsocket", sizeof(addr.sun_path)-1);
bind(fd, (struct sockaddr*)&addr, sizeof(addr));
while(1);
}
*/
struct bootcfg { struct bootcfg {
const char * cfgfilename; const char * cfgfilename;
@ -64,9 +90,9 @@ static int parse_args (int argc, char *argv[], struct bootcfg * bootcfg)
int c; int c;
opterr = 1; opterr = 1;
bootcfg->cfgfilename = "config.atv"; bootcfg->cfgfilename = "config.ckv";
while ( (c = getopt (argc, argv, "vc:d:p:")) != -1) { while ( (c = getopt (argc, argv, "hvc:d:p:")) != -1) {
switch (c) { switch (c) {
case 'c': case 'c':
@ -77,12 +103,18 @@ static int parse_args (int argc, char *argv[], struct bootcfg * bootcfg)
exit(EXIT_SUCCESS); exit(EXIT_SUCCESS);
break; break;
case 'd':{ case 'd':{
int b = cw_strlist_get_id(cw_dbg_strings, optarg); if (!cw_dbg_set_level_from_str(optarg)){
fprintf(stderr,"Invalid debug option: %s\n",optarg);
exit(EXIT_FAILURE);
}
/* int b = cw_strlist_get_id(cw_dbg_strings, optarg);
if (b==-1){ if (b==-1){
fprintf(stderr,"Invalid debug option: %s\n",optarg); fprintf(stderr,"Invalid debug option: %s\n",optarg);
exit(EXIT_FAILURE); exit(EXIT_FAILURE);
} }
cw_dbg_set_level(b, 1); cw_dbg_set_level(b, 1);*/
break; break;
} }
@ -93,18 +125,28 @@ static int parse_args (int argc, char *argv[], struct bootcfg * bootcfg)
exit(EXIT_FAILURE); exit(EXIT_FAILURE);
default: default:
case 'h': case 'h':
printf("%s: -vcmh\n",argv[0]); {
FILE *out = stdout;
fprintf(out, "Usage:");
fprintf(out, "%s [ options ] ",argv[0]);
fprintf(out, "\nOptions are:\n");
fprintf(out, " -c <file>: specify a config file\n");
fprintf(out, " -p <path>: specify a path where to search for modules\n");
fprintf(out, " -v: print version information\n");
fprintf(out, " -d <level>: set debug level, multiple -d's are possible\n");
fprintf(out, " <level> can be one of these:\n");
cw_dbg_print_help(out," ");
exit(EXIT_SUCCESS); exit(EXIT_SUCCESS);
break; break;
} }
} }
}
return 0; return 0;
} }
struct cw_DiscoveryCache * discovery_cache; struct cw_DiscoveryCache * discovery_cache;
mavl_t actube_global_cfg;
int ac_global_init() int ac_global_init()
{ {
@ -141,52 +183,6 @@ extern void test_sets();
#include "discovery_cache.h" #include "discovery_cache.h"
void tester1()
{
struct cw_DiscoveryCache * cache;
struct sockaddr_storage addr;
int rc;
const char *c,*b;
cache = discovery_cache_create(1);
sock_strtoaddr("192.168.0.12:1234",(struct sockaddr*)&addr);
discovery_cache_add(cache,(struct sockaddr*)&addr,"Nase","Loeffel");
sock_strtoaddr("192.168.0.13:1234",(struct sockaddr*)&addr);
discovery_cache_add(cache,(struct sockaddr*)&addr,"Nase","Loeffel");
rc = discovery_cache_get(cache,(struct sockaddr*)&addr,&c,&b);
if (rc) {
printf("RC: %d, %s %s\n",rc,c,b);
}
}
static void show_cfg (FILE *out, mavl_t ktv)
{
char value[500];
struct cw_Val * data;
mavliter_t it;
const struct cw_Type * type;
mavliter_init(&it,ktv);
mavliter_foreach(&it){
data = mavliter_get(&it);
type = data->type;
type->to_str(data,value,0);
fprintf(out,"%s :%s: %s\n",data->key,type->get_type_name(data), value);
}
}
/* /*
{ {
cw_Cfg_t * cfg; cw_Cfg_t * cfg;
@ -214,22 +210,19 @@ static void show_cfg (FILE *out, mavl_t ktv)
return 0; return 0;
*/ */
static cw_Cfg_t * global_cfg = NULL;
void process_wtp_packet (int index, struct sockaddr *addr, uint8_t * buffer, int len, int dta);
int main (int argc, char *argv[]) int main (int argc, char *argv[])
{ {
int rc = 0; int rc = 0;
struct bootcfg bootcfg; struct bootcfg bootcfg;
FILE * file;
mavl_t types_tree, acglobal_cfg;
const cw_Type_t **ti;
cw_Cfg_t * global_cfg = NULL;
/* parse arguments */ /* parse arguments */
parse_args (argc, argv, &bootcfg); parse_args (argc, argv, &bootcfg);
global_cfg=cw_cfg_create(); global_cfg=cw_cfg_create();
if (!global_cfg){ if (!global_cfg){
fprintf(stderr,"Can't create global_cfg: %s\n",strerror(errno)); fprintf(stderr,"Can't create global_cfg: %s\n",strerror(errno));
@ -239,75 +232,51 @@ int main (int argc, char *argv[])
rc = cw_cfg_load(bootcfg.cfgfilename,global_cfg); rc = cw_cfg_load(bootcfg.cfgfilename,global_cfg);
if (rc) if (rc)
{ {
if (rc<0) if (rc)
fprintf(stderr,"Can't load cfg '%s': %s\n",bootcfg.cfgfilename,strerror(errno)); fprintf(stderr,"Can't load cfg '%s': %s\n",bootcfg.cfgfilename,strerror(errno));
goto errX; goto errX;
}; };
//hapd_run(); // init
//stop();
/* open config file */ //const char *ttt = cw_cfg_get(global_cfg,"cisco/ssl-cipher",NULL);
file = fopen("config.ktv","r"); //printf("CFG: %s\n",ttt);
if (file == NULL){ //stop();
cw_log(LOG_ERR,"Cant open config file '%s': %s",
bootcfg.cfgfilename, strerror(errno));
exit(EXIT_FAILURE);
}
/* create types tree with default types */
types_tree = cw_ktv_create_types_tree();
for (ti=CW_KTV_STD_TYPES;*ti;ti++){
mavl_insert_ptr(types_tree,*ti);
}
acglobal_cfg = cw_ktv_create();
if (acglobal_cfg == NULL){
cw_log(LOG_ERR,"Can't create local_cfg: %s",strerror(errno));
exit(EXIT_FAILURE);
}
cw_ktv_read_file(file,acglobal_cfg,types_tree);
fclose(file);
actube_global_cfg = acglobal_cfg;
cw_dbg_ktv_dump(acglobal_cfg,DBG_INFO,NULL,"CFG:",NULL);
cw_log_name = "AC-Tube"; cw_log_name = "AC-Tube";
if (!read_config ("ac.conf"))
return 1;
start_shell();
/* Show debug options if there are any set */
if (cw_dbg_opt_level)
cw_log (LOG_INFO, "Debug Options: %08X", cw_dbg_opt_level);
/* XXX Hard coded debug settigns, set it by config in the future */
// cw_dbg_opt_display = DBG_DISP_ASC_DMP | DBG_DISP_COLORS;
/* Warn, if the "secret" debugging feature for
developers is turned on ;) */
/* /*
// DBGX("Attention! %s", "DBG X is ON!");
// cw_mod_set_mod_path("../../lib/actube"); {
//cw_mod_load("capwap"); int rc;
cw_Cfg_t * cfg = global_cfg;
struct cw_Cfg_entry e, *result;
e.key="hi";
rc = cw_cfg_base_exists(cfg,"ac-descriptor");
if (!rc ){
printf("No!\n");
return 0;
}
printf("RESULT: %d\n",rc);
cw_cfg_set(tcfg,"tube.0","hallo");
cw_cfg_set(tcfg,"tube.1","welt");
cw_cfg_set(tcfg,"tube.2","der guten laune");
cw_cfg_dump(tcfg);
printf("Next Index: %d\n",cw_cfg_get_next_index(tcfg,"kinder"));
exit(0);
}
*/ */
/* Init DTLS library */ /* Init DTLS library */
dtls_init(); dtls_init();
@ -323,14 +292,25 @@ int main (int argc, char *argv[])
goto errX; goto errX;
cw_log (LOG_INFO, "Starting AC-Tube, Name=%s, ID=%s", conf_acname, conf_acid);
rc = ac_run(); ac_conf_init(global_cfg);
if (!start_rpc(global_cfg))
goto errX;
// cw_cfg_dump(global_cfg);
cw_log (LOG_INFO, "Starting AC-Tube, Name=%s, ID=%s", cw_cfg_get(global_cfg,"capwap/ac-name",NULL), conf_acid);
rc = ac_run(global_cfg);
errX: errX:
if (global_cfg) if (global_cfg)
mavl_destroy(global_cfg); cw_cfg_destroy(global_cfg);
if (discovery_cache)
discovery_cache_destroy(discovery_cache);
/* XXX There is more cleanup to do */
wtplist_destroy(); wtplist_destroy();
socklist_destroy(); socklist_destroy();
return rc; return rc;
@ -339,21 +319,18 @@ errX:
void process_ctrl_packet (int index, struct sockaddr *addr, uint8_t * buffer, int len); void process_ctrl_packet (int index, struct sockaddr *addr, uint8_t * buffer, int len);
void process_cw_data_packet (int index, struct sockaddr *addr, uint8_t * buffer, int len); void process_cw_data_packet (int index, struct sockaddr *addr, uint8_t * buffer, int len);
int ac_run()
{
if (!conf_listen_addrs_len) { int ac_run(cw_Cfg_t * cfg)
cw_log (LOG_ERR, "Fatal error: No listen addresses found."); {
return 1; struct cw_Cfg_iter cfi;
} const char *s;
struct cw_Cfg_entry *e;
int i;
@ -362,16 +339,23 @@ int ac_run()
* we will look for already created sockets to find a * we will look for already created sockets to find a
* good unicast reply socket */ * good unicast reply socket */
int i; cw_cfg_iter_init(cfg, &cfi, "actube/listen");
for (i=0; (e = cw_cfg_iter_next(&cfi, NULL)) != NULL; i++) {
for (i = 0; i < conf_listen_addrs_len; i++) {
char addr[100]; char addr[100];
char port[50]; char port[50];
int proto; int proto;
s=e->val;
conf_parse_listen_addr (conf_listen_addrs[i], addr, port, &proto); conf_parse_listen_addr (s, addr, port, &proto);
socklist_add_unicast (addr, port, proto,
socklist_add_unicast (addr, port, proto); cw_cfg_get_bool(cfg,"actube/ipv4",1),
cw_cfg_get_bool(cfg,"actube/ipv6",1)
);
}
if (!i) {
cw_log (LOG_ERR, "Fatal error: No listen addresses found.");
return 1;
} }
if (socklist_len == 0) { if (socklist_len == 0) {
@ -379,6 +363,9 @@ int ac_run()
return 1; return 1;
} }
/* create multicast sockets */ /* create multicast sockets */
for (i = 0; i < conf_mcast_groups_len; i++) { for (i = 0; i < conf_mcast_groups_len; i++) {
@ -395,13 +382,21 @@ int ac_run()
} }
/* broadcast socket ipv4 only */ /* broadcast socket ipv4 only */
for (i = 0; i < conf_bcast_addrs_len; i++) {
//mavl_print(cfg,pcb,180);
cw_cfg_iter_init(cfg, &cfi, "actube/bcast");
for (i=0; (e = cw_cfg_iter_next(&cfi, NULL)) != NULL; i++) {
// for (i = 0; i < conf_bcast_addrs_len; i++) {
char addr[50], port[50]; char addr[50], port[50];
int proto; int proto;
conf_parse_listen_addr (conf_bcast_addrs[i], addr, port, &proto); s=e->val;
conf_parse_listen_addr (s, addr, port, &proto);
socklist_add_broadcast (addr, port, proto); socklist_add_broadcast (addr, port, proto);
#ifdef WITH_LWAPP #ifdef WITH_LWAPP
// printf("Adding %d\n",socklist_len); // printf("Adding %d\n",socklist_len);
@ -463,7 +458,7 @@ int ac_run()
(struct sockaddr *) &srcaddr, (struct sockaddr *) &srcaddr,
&srcaddrlen); &srcaddrlen);
process_cw_data_packet (i, (struct sockaddr *) &srcaddr, buffer, len); process_wtp_packet (i, (struct sockaddr *) &srcaddr, buffer, len,1);
} }
@ -476,7 +471,7 @@ int ac_run()
(struct sockaddr *) &srcaddr, (struct sockaddr *) &srcaddr,
&srcaddrlen); &srcaddrlen);
process_ctrl_packet (i, (struct sockaddr *) &srcaddr, buffer, len); process_wtp_packet (i, (struct sockaddr *) &srcaddr, buffer, len,0);
} }
} }
@ -490,14 +485,14 @@ int ac_run()
void process_cw_data_packet (int index, struct sockaddr *addr, uint8_t * buffer, int len) void process_cw_data_packet (int index, struct sockaddr *addr, uint8_t * buffer, int len)
{ {
char sock_buf[SOCK_ADDR_BUFSIZE]; char sock_buf[SOCK_ADDR_BUFSIZE];
cw_dbg (DBG_X, "There is a data packet now"); // cw_dbg (DBG_X, "There is a data packet now");
dataman_list_lock(); dataman_list_lock();
cw_dbg (DBG_X, "Dataman list locked, now getting"); // cw_dbg (DBG_X, "Dataman list locked, now getting");
struct dataman * dm = dataman_list_get (socklist[index].data_sockfd, addr); struct dataman * dm = dataman_list_get (socklist[index].data_sockfd, addr);
cw_dbg (DBG_X, "Dataman list locked, now gotted"); // cw_dbg (DBG_X, "Dataman list locked, now gotted");
cw_dbg (DBG_INFO, "Packet for dataman %s,%d", sock_addr2str_p (addr, sock_buf), socklist[index].data_sockfd); // cw_dbg (DBG_INFO, "Packet for dataman %s,%d", sock_addr2str_p (addr, sock_buf), socklist[index].data_sockfd);
if (!dm) { if (!dm) {
cw_dbg (DBG_INFO, "No dataman %s,%d", sock_addr2str_p (addr, sock_buf), socklist[index].data_sockfd); cw_dbg (DBG_INFO, "No dataman %s,%d", sock_addr2str_p (addr, sock_buf), socklist[index].data_sockfd);
@ -509,10 +504,7 @@ void process_cw_data_packet (int index, struct sockaddr *addr, uint8_t * buffer,
} }
dataman_list_add (dm); dataman_list_add (dm);
dataman_start (dm); dataman_start (dm);
} }
dataman_list_unlock(); dataman_list_unlock();
@ -540,7 +532,7 @@ void process_cw_data_packet (int index, struct sockaddr *addr, uint8_t * buffer,
} }
void process_cw_ctrl_packet (int index, struct sockaddr *addr, uint8_t * buffer, int len) void process_wtp_packet (int index, struct sockaddr *addr, uint8_t * buffer, int len, int dta)
{ {
char sock_buf[SOCK_ADDR_BUFSIZE]; char sock_buf[SOCK_ADDR_BUFSIZE];
@ -560,8 +552,12 @@ void process_cw_ctrl_packet (int index, struct sockaddr *addr, uint8_t * buffer,
if (!wtpman) { if (!wtpman) {
if (dta){
cw_dbg(DBG_PKT_ERR,"Data packet w/o wtpman received, ignoring");
return;
}
wtpman = wtpman_create (index, addr, preamble & 0xf); wtpman = wtpman_create (index, addr, preamble & 0xf, global_cfg);
if (!wtpman) { if (!wtpman) {
@ -581,8 +577,12 @@ void process_cw_ctrl_packet (int index, struct sockaddr *addr, uint8_t * buffer,
wtpman_start (wtpman, preamble & 0xf); wtpman_start (wtpman, preamble & 0xf);
} }
if(!dta)
wtpman_addpacket (wtpman, buffer, len); wtpman_addpacket (wtpman, buffer, len);
else{
// cw_dbg(DBG_X,"Data packet received");
wtpman_datapacket (wtpman, buffer, len);
}
wtplist_unlock(); wtplist_unlock();
} }
@ -653,7 +653,7 @@ void process_ctrl_packet (int index, struct sockaddr *addr, uint8_t * buffer, in
{ {
switch (socklist[index].ac_proto) { switch (socklist[index].ac_proto) {
case AC_PROTO_CAPWAP: case AC_PROTO_CAPWAP:
process_cw_ctrl_packet (index, addr, buffer, len); // process_cw_ctrl_packet (index, addr, buffer, len);
return; return;
/*case AC_PROTO_LWAPP: /*case AC_PROTO_LWAPP:

401
src/ac/act.c Normal file
View File

@ -0,0 +1,401 @@
/* $NetBSD: tc1.c,v 1.7 2016/02/17 19:47:49 christos Exp $ */
/*-
* Copyright (c) 1992, 1993
* The Regents of the University of California. All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Christos Zoulas of Cornell University.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
/*
* test.c: A little test program
*/
#include <sys/wait.h>
#include <ctype.h>
#include <dirent.h>
#include <locale.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <errno.h>
#include "histedit.h"
#include "cw/cfg.h"
#include "cw/sock.h"
static int continuation = 0;
volatile sig_atomic_t gotsig = 0;
static unsigned char complete(EditLine *, int);
static char *prompt(EditLine *);
static void sig(int);
FILE * act_f;
static int
get_result(FILE *f, char *str,int len)
{
int n = len;
char *rc;
rc = fgets (str, len, f);
if (rc==NULL)
return 0;
n = strlen(str);
if (n==1 && str[0]=='\n')
return 0;
return 1;
}
static char *
prompt(EditLine *el )
{
static char str[64];
char str2[64];
int rc;
fprintf(act_f,"@prompt\n");
rc = get_result(act_f,str,64);
while(rc){
rc=get_result(act_f,str2,64);
}
return (continuation ? "> " : str);
}
static void
sig(int i)
{
gotsig = i;
}
static unsigned char
complete(EditLine *el, int ch __attribute__((__unused__)))
{
DIR *dd = opendir(".");
struct dirent *dp;
const char* ptr;
const LineInfo *lf = el_line(el);
size_t len;
int res = CC_ERROR;
/*
* Find the last word
*/
for (ptr = lf->cursor - 1;
!isspace((unsigned char)*ptr) && ptr > lf->buffer; ptr--)
continue;
len = lf->cursor - ++ptr;
for (dp = readdir(dd); dp != NULL; dp = readdir(dd)) {
if (len > strlen(dp->d_name))
continue;
if (strncmp(dp->d_name, ptr, len) == 0) {
if (el_insertstr(el, &dp->d_name[len]) == -1)
res = CC_ERROR;
else
res = CC_REFRESH;
break;
}
}
closedir(dd);
return res;
}
const char *cfgfilename = "config.ckv";
const char *srvaddr;
const char *prgname;
static int
parse_args (int argc, char *argv[])
{
int c;
opterr = 1;
while ( (c = getopt (argc, argv, "hvc:s:")) != -1) {
switch (c) {
case 'c':
cfgfilename = optarg;
break;
case 'v':
printf("ACT shell for ACTube version 0.0.1, %s\n", SYS_ARCH);
exit(EXIT_SUCCESS);
break;
case 's':
srvaddr = optarg;
break;
/* case 'd':{
if (!cw_dbg_set_level_from_str(optarg)){
fprintf(stderr,"Invalid debug option: %s\n",optarg);
exit(EXIT_FAILURE);
}
break;
} */
case '?':
exit(EXIT_FAILURE);
default:
case 'h':
printf("Usage:\n");
printf("%s [-v | -h | -s <dst> | -c <cfg> ]\n",argv[0]);
printf(" -c: specify config file\n");
printf(" -s: specify adress to connect to \n");
printf(" -v: print version info\n");
exit(EXIT_SUCCESS);
break;
}
}
return 0;
}
int create_tcp_fd(const char *addr)
{
struct sockaddr server;
int rc;
int sockfd;
memset(&server,0,sizeof(server));
rc = sock_strtoaddr (addr, (struct sockaddr*) &server);
if (! rc) {
fprintf(stderr, "Can't parse address '%s', %s\n", addr, strerror (errno));
return -1;
}
sockfd = socket ( ( (struct sockaddr*) &server)->sa_family, SOCK_STREAM, 0);
rc = connect(sockfd, (struct sockaddr*)&server, sizeof(server));
if (rc ) {
fprintf(stderr,"%s: Error, can't connt to %s %s\n",prgname,addr,strerror(errno));
return -1;
}
return sockfd;
}
static FILE *act_connect(const char *srvaddr)
{
int fd;
if (srvaddr==NULL){
fprintf(stderr,"%s: Error, no address given.\n",prgname);
return NULL;
}
fd=create_tcp_fd(srvaddr);
if (fd==-1)
return NULL;
return fdopen(fd,"a+");
// return NULL;
}
int
main(int argc , char *argv[])
{
prgname = argv[0];
parse_args(argc,argv);
act_f = act_connect(srvaddr);
if (act_f==NULL){
return (EXIT_FAILURE);
}
EditLine *el = NULL;
int num;
const char *buf;
Tokenizer *tok;
#if 0
int lastevent = 0;
#endif
int ncontinuation;
History *hist;
HistEvent ev;
(void) setlocale(LC_CTYPE, "");
(void) signal(SIGINT, sig);
(void) signal(SIGQUIT, sig);
(void) signal(SIGHUP, sig);
(void) signal(SIGTERM, sig);
hist = history_init(); /* Init the builtin history */
/* Remember 100 events */
history(hist, &ev, H_SETSIZE, 100);
tok = tok_init(NULL); /* Initialize the tokenizer */
/* Initialize editline */
el = el_init(*argv, stdin, stdout, stderr);
el_set(el, EL_EDITOR, "emacs"); /* Default editor is vi */
el_set(el, EL_SIGNAL, 0); /* Handle signals gracefully */
el_set(el, EL_PROMPT_ESC, prompt, '\1');/* Set the prompt function */
/* Tell editline to use this history interface */
el_set(el, EL_HIST, history, hist);
/* Add a user-defined function */
el_set(el, EL_ADDFN, "ed-complete", "Complete argument", complete);
/* Bind tab to it */
el_set(el, EL_BIND, "^I", "ed-complete", NULL);
/*
* Bind j, k in vi command mode to previous and next line, instead
* of previous and next history.
*/
el_set(el, EL_BIND, "-a", "k", "ed-prev-line", NULL);
el_set(el, EL_BIND, "-a", "j", "ed-next-line", NULL);
/*
* Source the user's defaults file.
*/
el_source(el, NULL);
while ((buf = el_gets(el, &num)) != NULL && num != 0) {
int ac, cc, co;
const char **av;
const LineInfo *li;
li = el_line(el);
if (gotsig) {
(void) fprintf(stderr, "Got signal %d.\n", (int)gotsig);
gotsig = 0;
el_reset(el);
}
if (!continuation && num == 1)
continue;
ac = cc = co = 0;
ncontinuation = tok_line(tok, li, &ac, &av, &cc, &co);
if (ncontinuation < 0) {
(void) fprintf(stderr, "Internal error\n");
continuation = 0;
continue;
}
/* Simpler */
history(hist, &ev, continuation ? H_APPEND : H_ENTER, buf);
continuation = ncontinuation;
ncontinuation = 0;
if (continuation)
continue;
if (strcmp(av[0], "history") == 0) {
int rv;
switch (ac) {
case 1:
for (rv = history(hist, &ev, H_LAST); rv != -1;
rv = history(hist, &ev, H_PREV))
(void) fprintf(stdout, "%4d %s",
ev.num, ev.str);
break;
case 2:
if (strcmp(av[1], "clear") == 0)
history(hist, &ev, H_CLEAR);
else
goto badhist;
break;
case 3:
if (strcmp(av[1], "load") == 0)
history(hist, &ev, H_LOAD, av[2]);
else if (strcmp(av[1], "save") == 0)
history(hist, &ev, H_SAVE, av[2]);
break;
badhist:
default:
(void) fprintf(stderr,
"Bad history arguments\n");
break;
}
} else if (el_parse(el, ac, av) == -1) {
char str[2000];
int i;
char * sp ="";
str[0]=0;
for (i=0; i<ac; i++){
fprintf(act_f,"%s%s",sp,av[i]);
sp=" ";
}
fprintf(act_f,"\n");
fflush(act_f);
do {
int n;
fgets (str, 2000, act_f);
n = strlen(str);
// printf("LEN: %d\n",n);
if (n==1 && str[0]=='\n')
break;
fprintf(stdout,"%s",str);
}while(!feof(act_f));
fflush(stdout);
}
tok_reset(tok);
}
el_end(el);
tok_end(tok);
history_end(hist);
return (0);
}

447
src/ac/conf.c
View File

@ -15,29 +15,13 @@
along with Foobar. If not, see <http://www.gnu.org/licenses/>. along with Foobar. If not, see <http://www.gnu.org/licenses/>.
*/ */
#include <stdlib.h>
#include <string.h>
#include <sys/utsname.h>
#include <confuse.h>
#include "cw/capwap.h"
#include "cw/sock.h"
#include "cw/log.h"
#include "cw/dbg.h"
#include "cw/cw_util.h" #include "cw/cw_util.h"
#include "cw/dtls.h" #include "cw/dbg.h"
#include "cw/cw.h"
#include <sys/param.h> #include "cw/cfg.h"
#include <sys/time.h>
#include <sys/socket.h>
#include <net/if.h>
#include "conf.h" #include "conf.h"
#include "ac.h" #include "ac.h"
#include "cw/mavltypes.h"
uint8_t conf_macaddress[12]; uint8_t conf_macaddress[12];
uint8_t conf_macaddress_len = 0; uint8_t conf_macaddress_len = 0;
@ -45,44 +29,30 @@ uint8_t conf_macaddress_len = 0;
long conf_strict_capwap = 1; long conf_strict_capwap = 1;
long conf_strict_headers = 0; long conf_strict_headers = 0;
/*int conf_capwap_mode = CW_MODE_CAPWAP;*/
const char *conf_acname = NULL;
int conf_acname_len = 0;
char *conf_acid = NULL; char *conf_acid = NULL;
char *conf_primary_if = NULL; char *conf_primary_if = NULL;
long conf_max_wtps = CONF_DEFAULT_MAXWTPS;
char *conf_logfilename = CONF_DEFAULT_LOGFILENAME;
struct sockaddr_storage *conf_salist = NULL;
char **conf_listen_addrs;
int conf_listen_addrs_len = 0;
char **conf_mcast_groups = 0; char **conf_mcast_groups = 0;
int conf_mcast_groups_len = 0; int conf_mcast_groups_len = 0;
char **conf_bcast_addrs = 0;
int conf_bcast_addrs_len;
//struct sockaddr_storage *conf_bsalist = NULL;
struct sockaddr_storage *conf_bsalist = NULL; //int conf_salist_len = 0;
//int conf_bsalist_len = 0;
int conf_salist_len = 0; //struct sockaddr *conf_ac_ips;
int conf_bsalist_len = 0; //int conf_ac_ips_len;
struct sockaddr *conf_ac_ips; //char *conf_sslcertfilename = NULL;
int conf_ac_ips_len; //char *conf_sslkeyfilename = NULL;
//char *conf_sslkeypass = NULL;
char *conf_sslcertfilename = NULL; //char *conf_dtls_psk = NULL;
char *conf_sslkeyfilename = NULL;
char *conf_sslkeypass = NULL;
char *conf_dtls_psk = NULL;
int conf_security = 0; int conf_security = 0;
long conf_vendor_id = CONF_DEFAULT_VENDOR_ID; long conf_vendor_id = CONF_DEFAULT_VENDOR_ID;
@ -120,14 +90,44 @@ char *conf_control_port = 0;
int conf_dtls_verify_peer = 1; int conf_dtls_verify_peer = 1;
static int init_acname() static int init_ac_name(cw_Cfg_t * cfg)
{ {
if (conf_acname == NULL) { char *s;
char *s = malloc(strlen(CONF_DEFAULT_ACNAME) + strlen(conf_acid) + 1); char *primary_if=NULL;
sprintf(s, "%s%s", CONF_DEFAULT_ACNAME, conf_acid); char ac_name[CAPWAP_MAX_AC_NAME_LEN+1];
conf_acname = s; uint8_t macaddress[128];
uint8_t macaddress_len;
char acid[128];
int i;
s= (char*)cw_cfg_get(cfg,"capwap/ac-name",NULL);
if (s!=NULL)
return 1;
if (!primary_if)
primary_if = sock_get_primary_if(AF_INET);
acid[0]=0;
if (primary_if) {
macaddress_len=8;
if (!sock_getifhwaddr(primary_if, macaddress, &macaddress_len)) {
cw_dbg(DBG_INFO, "Fatal: Unable to detect link layer address for %s\n",
primary_if);
} }
conf_acname_len = strlen(conf_acname); else{
s=acid;
for (i = 0; i < macaddress_len; i++) {
s += sprintf(s, "%02X", macaddress[i]);
}
}
free(primary_if);
}
sprintf(ac_name,"actube%s",acid);
cw_cfg_set(cfg,"capwap/ac-name",ac_name);
return 1; return 1;
} }
@ -135,121 +135,27 @@ static int init_acname()
static int init_acid()
{
int i;
char *s;
if (conf_acid != NULL)
return 1;
#ifdef WITH_IPV6
conf_primary_if = sock_get_primary_if(AF_INET6);
if (!conf_primary_if)
conf_primary_if = sock_get_primary_if(AF_INET);
#else
conf_primary_if = get_primary_if(AF_INET);
#endif
if (!conf_primary_if) {
cw_log(LOG_ERR,
"Fatal: Unable to detect primary interface, needed to set ac_id. Pleas use confiPleas u to set ac_id");
return 0;
}
if (!sock_getifhwaddr(conf_primary_if, conf_macaddress, &conf_macaddress_len)) {
cw_log(LOG_ERR, "Fatal: Unable to detect link layer address for %s\n",
conf_primary_if);
return 0;
};
conf_acid = malloc(2 * conf_macaddress_len + 1);
s = conf_acid;
for (i = 0; i < conf_macaddress_len; i++) {
s += sprintf(s, "%02X", conf_macaddress[i]);
}
return 1;
}
static int init_dtls()
{
if (conf_dtls_psk != NULL) {
/*
// conf_security=CW_SECURITY_FLAGS_S;
*/
}
return 1;
}
static int init_vendor_id()
{
return 1;
}
static int init_control_port()
{
char str[30];
sprintf(str, "%d", CONF_DEFAULT_CONTROL_PORT);
conf_control_port =
(char *) cw_setstr((uint8_t **) & conf_control_port, (uint8_t *) str,
strlen(str));
#ifdef WITH_LWAPP
sprintf(str, "%d", CONF_DEFAULT_LW_CONTROL_PORT);
conf_lw_control_port = strdup(str);
#endif
return 1;
}
#include <ifaddrs.h> #include <ifaddrs.h>
static int init_listen_addrs() static int init_listen_addrs(cw_Cfg_t * cfg)
{ {
char key[CW_CFG_MAX_KEY_LEN];
struct ifaddrs *ifap, *ifa; struct ifaddrs *ifap, *ifa;
int rc; int rc;
int ctr; int ctr;
struct cw_Cfg_iter cfi;
if (conf_listen_addrs != 0)
return 1;
cw_cfg_iter_init(cfg, &cfi, "actube/listen");
if (cw_cfg_iter_next(&cfi,NULL) != NULL)
return 0;
rc = getifaddrs(&ifap); rc = getifaddrs(&ifap);
if (rc == -1) if (rc == -1)
return 0; return 0;
/* count the addresses */
ctr = 0;
for (ifa = ifap; ifa != 0; ifa = ifa->ifa_next) {
if (!ifa->ifa_addr)
continue;
if (ifa->ifa_addr->sa_family == AF_INET && conf_ipv4)
ctr++;
if (ifa->ifa_addr->sa_family == AF_INET6 && conf_ipv6)
ctr++;
}
conf_listen_addrs = malloc(sizeof(char *) * ctr);
if (!conf_listen_addrs) {
rc = 0;
goto errX;
}
memset(conf_listen_addrs, 0, sizeof(char *) * ctr);
ctr = 0; ctr = 0;
/* get the addresses */ /* get the addresses */
for (ifa = ifap; ifa != 0; ifa = ifa->ifa_next) { for (ifa = ifap; ifa != 0; ifa = ifa->ifa_next) {
@ -267,12 +173,9 @@ static int init_listen_addrs()
if (ifa->ifa_addr->sa_family == AF_INET && conf_ipv4) { if (ifa->ifa_addr->sa_family == AF_INET && conf_ipv4) {
sock_addrtostr(ifa->ifa_addr, str, 100,0); sock_addrtostr(ifa->ifa_addr, str, 100,0);
conf_listen_addrs[ctr] =
(char *) cw_setstr((uint8_t **) & conf_listen_addrs[ctr],
(uint8_t *) str, strlen(str));
if (conf_listen_addrs[ctr])
ctr++;
sprintf(key,"actube/listen.%d",ctr++);
cw_cfg_set(cfg,key,str);
} }
if (ifa->ifa_addr->sa_family == AF_INET6 && conf_ipv6) { if (ifa->ifa_addr->sa_family == AF_INET6 && conf_ipv6) {
sock_addrtostr(ifa->ifa_addr, str, 100,0); sock_addrtostr(ifa->ifa_addr, str, 100,0);
@ -281,16 +184,12 @@ static int init_listen_addrs()
strcat(str, "%"); strcat(str, "%");
strcat(str, ifa->ifa_name); strcat(str, ifa->ifa_name);
} }
conf_listen_addrs[ctr] = sprintf(key,"actube/listen.%d",ctr++);
(char *) cw_setstr((uint8_t **) & conf_listen_addrs[ctr], cw_cfg_set(cfg,key,str);
(uint8_t *) str, strlen(str));
if (conf_listen_addrs[ctr])
ctr++;
} }
} }
conf_listen_addrs_len = ctr;
rc = 1; rc = 1;
errX: /*errX:*/
freeifaddrs(ifap); freeifaddrs(ifap);
return rc; return rc;
} }
@ -336,18 +235,23 @@ static int add_bcast_addr(void *priv, void *addr)
/* /*
* Initialize broadcast addresses (ipv4 only) * Initialize broadcast addresses (ipv4 only)
*/ */
int init_bcast_addrs() int init_bcast_addrs(cw_Cfg_t *cfg)
{ {
int rc; int rc;
char str[100]; char str[100];
char key[100];
struct ifaddrs *ifa0, *ifa; struct ifaddrs *ifa0, *ifa;
mavl_t t; mavl_t t;
mavliter_t it; mavliter_t it;
struct cw_Cfg_iter cfi;
int i;
if (conf_bcast_addrs) cw_cfg_iter_init(cfg, &cfi, "actube/bcast");
return 1; if (cw_cfg_iter_next(&cfi,NULL) != NULL)
return 0;
if (!conf_ipv4)
if (!cw_cfg_get_bool(cfg,"actube/ipv4", 1))
return 1; return 1;
/*t = mavl_create_ptr(); */ /*t = mavl_create_ptr(); */
@ -385,22 +289,34 @@ int init_bcast_addrs()
if (ifa->ifa_broadaddr) { if (ifa->ifa_broadaddr) {
char *s; //,*sr;
sock_addrtostr(ifa->ifa_broadaddr, str, 100,1); sock_addrtostr(ifa->ifa_broadaddr, str, 100,1);
*strchr(str, ':') = 0; *strchr(str, ':') = 0;
mavl_add_str(t, cw_strdup(str));
s = cw_strdup(str);
mavl_add_str(t, s);
// printf("BCAST = %p --- %p: %s\n",str,s,str);
} }
} }
conf_bcast_addrs = malloc(t->count * sizeof(char *)); // conf_bcast_addrs = malloc(t->count * sizeof(char *));
i=0;
mavliter_init(&it,t); mavliter_init(&it,t);
mavliter_foreach(&it){ mavliter_foreach(&it){
char * d; char * d;
d = mavliter_get_str(&it); d = mavliter_get_str(&it);
conf_bcast_addrs[conf_bcast_addrs_len] = cw_strdup(d); // conf_bcast_addrs[conf_bcast_addrs_len] = cw_strdup(d);
if (conf_bcast_addrs[conf_bcast_addrs_len] != 0) // if (conf_bcast_addrs[conf_bcast_addrs_len] != 0)
conf_bcast_addrs_len++; // conf_bcast_addrs_len++;
sprintf(key,"actube/bcast.%d",i++);
cw_cfg_set(cfg,key,d);
} }
@ -412,7 +328,7 @@ int init_bcast_addrs()
return 1; return 1;
} }
int init_mcast_groups() int init_mcast_groups(cw_Cfg_t * cfg)
{ {
int ctr; int ctr;
int i; int i;
@ -466,6 +382,7 @@ int init_mcast_groups()
} }
/*
static int conf_read_strings(cfg_t * cfg, char *name, char ***dst, int *len) static int conf_read_strings(cfg_t * cfg, char *name, char ***dst, int *len)
{ {
@ -491,8 +408,9 @@ static int conf_read_strings(cfg_t * cfg, char *name, char ***dst, int *len)
return 1; return 1;
} }
*/
/*
static int conf_read_dbg_level(cfg_t * cfg) static int conf_read_dbg_level(cfg_t * cfg)
{ {
const char *name = "dbg"; const char *name = "dbg";
@ -510,6 +428,7 @@ static int conf_read_dbg_level(cfg_t * cfg)
} }
return 1; return 1;
} }
*/
struct cw_Mod ** conf_mods; struct cw_Mod ** conf_mods;
char *conf_mods_dir = NULL; char *conf_mods_dir = NULL;
@ -517,19 +436,26 @@ char *conf_mods_dir = NULL;
/* /*
* Read the module names from config file * Read the module names from config file
*/ */
static int conf_read_mods(cfg_t *cfg){ static int init_mods(cw_Cfg_t *cfg){
int n, i; int i;
n = cfg_size(cfg,CFG_ENTRY_MODS); struct cw_Cfg_entry *e;
const char * modname;
conf_mods = malloc(sizeof(struct cw_Mod *)*(n+1)); struct cw_Cfg_iter cfi;
cw_cfg_iter_init(cfg, &cfi, "actube/mod");
if (cw_cfg_iter_next(&cfi,NULL) == NULL){
cw_cfg_set(cfg,"actube/mod.0","capwap");
cw_cfg_set(cfg,"actube/mod.1","capwap80211");
}
cw_dbg(DBG_INFO,"Mods directory: %s",conf_mods_dir); // cw_dbg(DBG_INFO,"Mods directory: %s",conf_mods_dir);
cw_mod_set_path(conf_mods_dir); // cw_mod_set_path(conf_mods_dir);
for (i=0; i < n; i++){ cw_cfg_iter_init(cfg, &cfi, "actube/mod");
char *modname = cfg_getnstr(cfg, CFG_ENTRY_MODS, i); for (i=0; (e = cw_cfg_iter_next(&cfi, NULL)) != NULL; i++) {
struct cw_Mod * mod = cw_mod_load(modname, actube_global_cfg, CW_ROLE_AC); modname = e->val;
struct cw_Mod * mod = cw_mod_load(modname, cfg, CW_ROLE_AC);
if (!mod) if (!mod)
return 0; return 0;
@ -619,159 +545,12 @@ int conf_parse_listen_addr(const char *addrstr, char *saddr, char *port, int *pr
return 0; return 0;
} }
static void errfunc(cfg_t *cfg, const char *fmt, va_list ap){
if (cfg && cfg->filename && cfg->line)
fprintf(stderr, "ERROR in %s:%d: ",
cfg->filename, cfg->line);
else if (cfg && cfg->filename)
fprintf(stderr, "ERROR in %s:", cfg->filename);
vfprintf(stderr, fmt, ap);
fprintf(stderr,"\n");
}
int read_config(const char *filename) void ac_conf_init(cw_Cfg_t *cfg)
{ {
int i, n; init_listen_addrs(cfg);
init_bcast_addrs(cfg);
cfg_opt_t opts[] = { init_ac_name(cfg);
CFG_STR_LIST("mods", "{}", CFGF_NONE), init_mods(cfg);
CFG_SIMPLE_STR("mods_dir", &conf_mods_dir),
CFG_STR_LIST("dbg", "{}", CFGF_NONE),
CFG_STR_LIST("listen", "{}", CFGF_NONE),
CFG_STR_LIST("mcast_groups", "{}", CFGF_NONE),
CFG_STR_LIST("broadcast_listen", "{}", CFGF_NONE),
CFG_STR_LIST("ac_ips", "{}", CFGF_NONE),
CFG_SIMPLE_STR("control_port", &conf_control_port),
CFG_SIMPLE_BOOL("strict_capwap", &conf_strict_capwap),
CFG_SIMPLE_BOOL("strict_headers", &conf_strict_headers),
CFG_SIMPLE_BOOL("use_loopback", &conf_use_loopback),
/*// CFG_SIMPLE_STR("capwap_mode", &conf_capwap_mode_str),*/
#ifdef WITH_LWAPP
CFG_SIMPLE_STR("lw_control_port", &conf_lw_control_port),
CFG_SIMPLE_BOOL("lwapp", &conf_lwapp),
#endif
CFG_SIMPLE_INT("max_wtps", &conf_max_wtps),
CFG_SIMPLE_INT("debug_level", &conf_debug_level),
CFG_SIMPLE_INT("vendor_id", &conf_vendor_id),
CFG_SIMPLE_STR("ac_id", &conf_acid),
CFG_SIMPLE_STR("ac_name", &conf_acname),
CFG_SIMPLE_STR("hardware_version", &conf_hardware_version),
CFG_SIMPLE_STR("software_version", &conf_software_version),
CFG_SIMPLE_STR("cisco_hardware_version", &conf_cisco_hardware_version),
CFG_SIMPLE_STR("cisco_software_version", &conf_cisco_software_version),
CFG_SIMPLE_STR("ssl_cert", &conf_sslcertfilename),
CFG_SIMPLE_STR("ssl_key", &conf_sslkeyfilename),
CFG_SIMPLE_STR("ssl_key_pass", &conf_sslkeypass),
CFG_SIMPLE_STR("dtls_psk", &conf_dtls_psk),
CFG_SIMPLE_BOOL("dtls_verify_peer", &conf_dtls_verify_peer),
CFG_SIMPLE_BOOL("ipv4", &conf_ipv4),
CFG_SIMPLE_BOOL("ipv6", &conf_ipv6),
CFG_SIMPLE_STR("db_file", &conf_db_file),
CFG_SIMPLE_STR("image_dir", &conf_image_dir),
CFG_END()
};
cfg_t *cfg;
conf_mods_dir=cw_strdup("");
if (!init_control_port())
return 0;
cfg = cfg_init(opts, CFGF_NONE);
cfg_set_error_function(cfg, errfunc);
if (cfg_parse(cfg, filename))
return 0;
/* read debug options */
conf_read_dbg_level(cfg);
/* read the listen addresses */
conf_read_strings(cfg, "listen", &conf_listen_addrs, &conf_listen_addrs_len);
/* read multi cast groups */
conf_read_strings(cfg, "mcast_groups", &conf_mcast_groups,
&conf_mcast_groups_len);
/* read ipv4 broadcast addresses */
conf_read_strings(cfg, "broadcast_listen", &conf_bcast_addrs, &conf_bcast_addrs_len);
/* read ac_ips */
n = cfg_size(cfg, "ac_ips");
if (!(conf_ac_ips = malloc(sizeof(struct sockaddr) * n)))
return 0;
conf_ac_ips_len = n;
for (i = 0; i < n; i++) {
struct sockaddr sa;
char *str = cfg_getnstr(cfg, "ac_ips", i);
if (sock_strtoaddr(cfg_getnstr(cfg, "ac_ips", i), &sa))
conf_ac_ips[i] = sa;
else {
perror(str);
}
}
if (!conf_read_mods(cfg)){
cfg_free(cfg);
return 0;
}
cfg_free(cfg);
if (!init_acid())
return 0;
if (!init_acname())
return 0;
/* if (!init_version())
return 0;
*/
if (!init_vendor_id())
return 0;
if (!init_dtls())
return 0;
/* if (!conf_sslcipher)
conf_sslcipher = CAPWAP_CIPHER;
*/ if (!conf_image_dir)
conf_image_dir = CONF_DEFAULT_IMAGE_DIR;
init_listen_addrs();
init_mcast_groups();
init_bcast_addrs();
return 1;
}
void free_config()
{
} }

8
src/ac/conf.h
View File

@ -21,7 +21,6 @@
#include <stdio.h> #include <stdio.h>
#include <sys/types.h> #include <sys/types.h>
#include <sys/socket.h> #include <sys/socket.h>
#include <confuse.h>
#include <sys/ioctl.h> #include <sys/ioctl.h>
#include <net/if.h> #include <net/if.h>
@ -31,7 +30,7 @@
#include "cw/bstr.h" #include "cw/bstr.h"
#include "cw/mod.h" #include "cw/mod.h"
#include "cw/vendors.h" #include "cw/vendors.h"
#include "cw/cfg.h"
extern struct cw_Mod ** conf_mods; extern struct cw_Mod ** conf_mods;
@ -94,8 +93,6 @@ extern bstr_t conf_cisco_software_version;
extern char **conf_listen_addrs;
extern int conf_listen_addrs_len;
extern struct sockaddr *conf_ac_ips; extern struct sockaddr *conf_ac_ips;
extern int conf_ac_ips_len; extern int conf_ac_ips_len;
@ -141,5 +138,8 @@ extern int conf_parse_listen_addr(const char *addr, char *saddr, char *port, int
#define CFG_ENTRY_MODS "mods" #define CFG_ENTRY_MODS "mods"
#define CONF_PREFIX "actube"
void ac_conf_init(cw_Cfg_t *cfg);
#endif #endif

174
src/ac/config.ckv Normal file
View File

@ -0,0 +1,174 @@
#Cfg
#
# AC Name
# Deafults to actube + mac address of primary interface
#
#capwap/ac-name
#
capwap/ac-name: actube_X
capwap/ssl-cipher: DHE-RSA:RSA:AES-256-CBC:AES-128-CBC:SHA1:PSK
capwap/ssl-psk-enable: false
capwap/ssl-psk: 123456
capwap/ssl-dhbits: 1024
capwap/ssl-keyfile: "../../ssl/intermediate-ca/int-ca.key"
capwap/ssl-certfile: "../../ssl/intermediate-ca/int-ca.crt"
#mod/cisco/ssl-keyfile: "../../ssl/intermediate-ca/int-ca.key"
#mod/cisco/ssl-certfile: "../../ssl/intermediate-ca/int-ca.crt"
#
mod/cisco/ssl-keyfile: "../../ssl/certs/ac-cisco.key"
mod/cisco/ssl-certfile: "../../ssl/certs/ac-cisco.pem"
#cisco/ssl-cipher: DEFAULT
mod/cisco/ssl-cipher: RSA
mod/cisco/ssl-dhbits: 2048
#
# Whether or not to use IPv4/IPv6
#
#actube/ipv4: true
#actube/ipv6: true
#
actube/ipv6: false
#
# List of Mods
#
#actube/mod.1: capwap
#actube/mod.2: capwap80211
#
actube/mod.0: cisco
actube/mod.1: capwap
actube/mod.2: capwap80211
#actube/rpc/listen: unix:/tmp/actube
actube/rpc/listen: tcp:127.0.0.1:5000
actube/rpc/enable: true
actube/rpc/macros-dir: ./rpc-macros
#
# This catches the initial config af a connecting WTP
# From Discovery to CFG Update
# The config is saved to a file named
# wtp-<wtpname-or-ip>.cfg
#
actube/save-initial-wtp-config: true
capwap/ac-descriptor/dtls-policy: 1
capwap/ac-descriptor/hardware/vendor: 4232704
capwap/ac-descriptor/hardware/version: .x01000001
capwap/ac-descriptor/max-wtps : 200
capwap/ac-descriptor/active-wtps: 2
capwap/ac-descriptor/r-mac-field: 1
cawpap/ac-descriptor/reserved1 : 0
capwap/ac-descriptor/security : 2
capwap/ac-descriptor/software/vendor : 0
capwap/ac-descriptor/software/version: v0.0.1
capwap/ac-descriptor/station-limit: 1000
capwap/ac-descriptor/stations: 0
capwap/control-ip-address/address.0: 192.168.0.14
wlan.0/capwap80211/capability: 0
wlan.0/capwap80211/key-index: 0
wlan.0/capwap80211/key-status: 0
wlan.0/capwap80211/key: 1234
wlan.0/capwap80211/group-tcs: 123
wlan.0/capwap80211/qos: 0
wlan.0/capwap80211/auth-type: 1
wlan.0/capwap80211/mac-mode: 1
wlan.0/capwap80211/tunnel-mode: 1
wlan.0/capwap80211/suppress-ssid: false
wlan.0/capwap80211/ssid: ssid
#
# CAPWAP Timers
#
capwap/timers/change-state-pending-timer: 3
capwap/timers/data-check-timer: 10
capwap/timers/echo-interval: 30
capwap/timers/max-discovery-interval: 10
capwap/decryption-error-report-period: 120
capwap/idle-timeout: 300
radio-cfg-a/capwap80211/wtp-radio-config/beacon-period: 100
radio-cfg-a/capwap80211/wtp-radio-config/bssid: .x003a9902fac0
radio-cfg-a/capwap80211/wtp-radio-config/cfg-period: 4
radio-cfg-a/capwap80211/wtp-radio-config/beacon-period: 100
radio-cfg-a/capwap80211/wtp-radio-config/bssid: .x003a9902fac0
radio-cfg-a/capwap80211/wtp-radio-config/cfg-period: 4
radio-cfg-a/capwap80211/wtp-radio-config/cfg-type: 1
radio-cfg-a/capwap80211/wtp-radio-config/cfp-maximum-duration: 60
radio-cfg-a/capwap80211/wtp-radio-config/country-str1: "DE "
radio-cfg-a/capwap80211/wtp-radio-config/country-str2: "DE "
radio-cfg-a/capwap80211/wtp-radio-config/occupancy-limit: 100
radio-cfg-a/capwap80211/wtp-radio-config/reg: 167772416
radio-cfg-a/cisco/direct-sequence-control/cfg-type: 1 - global
radio-cfg-a/cisco/direct-sequence-control/current-cca-mode: 0
radio-cfg-a/cisco/direct-sequence-control/current-channel: 1
radio-cfg-a/cisco/direct-sequence-control/energy-detect-threshold: -50
#mode-802.11g support
#radio-cfg-a/cisco/direct-sequence-control/unknown: 1
radio-cfg-a/cisco/mac-operation/fragmentation-threshold: 2346
radio-cfg-a/cisco/mac-operation/long-retry: 4
radio-cfg-a/cisco/mac-operation/reserved: 1
radio-cfg-a/cisco/mac-operation/rts-threshold: 2347
radio-cfg-a/cisco/mac-operation/rx-msdu-lifetime: 512
radio-cfg-a/cisco/mac-operation/short-retry: 7
radio-cfg-a/cisco/mac-operation/tx-msdu-lifetime: 512
radio-cfg-a/cisco/multi-domain-capability/first-channel: 1
radio-cfg-a/cisco/multi-domain-capability/max-tx-power-level: 65535
radio-cfg-a/cisco/multi-domain-capability/number-of-channels: 13
radio-cfg-a/cisco/multi-domain-capability/reserved: 1
radio-cfg-a/capwap80211/rate-set: .x82848b960c1218243048606c
radio-cfg-a/cisco/antenna-payload/802-11n-rx-antennas: 3
radio-cfg-a/cisco/antenna-payload/802-11n-tx-antennas: 7
radio-cfg-a/cisco/antenna-payload/antenna-cnt: 2
radio-cfg-a/cisco/antenna-payload/antenna-mode: 3
radio-cfg-a/cisco/antenna-payload/antenna.0: 1 - Internal Antenna
radio-cfg-a/cisco/antenna-payload/antenna.1: 1 - Internal Antenna
radio-cfg-a/cisco/antenna-payload/diversity-selection: 255
radio-cfg-a/cisco/antenna-payload/unknown: 0
radio-cfg-b/capwap80211/wtp-radio-config/beacon-period: 100
radio-cfg-b/capwap80211/wtp-radio-config/bssid: .x003a9902fac0
radio-cfg-b/capwap80211/wtp-radio-config/cfg-period: 4
radio-cfg-b/capwap80211/wtp-radio-config/beacon-period: 100
radio-cfg-b/capwap80211/wtp-radio-config/bssid: .x003a9902fac0
radio-cfg-b/capwap80211/wtp-radio-config/cfg-period: 4
radio-cfg-b/capwap80211/wtp-radio-config/cfg-type: 1
radio-cfg-b/capwap80211/wtp-radio-config/cfp-maximum-duration: 60
radio-cfg-b/capwap80211/wtp-radio-config/country-str1: "DE "
radio-cfg-b/capwap80211/wtp-radio-config/country-str2: "DE "
radio-cfg-b/capwap80211/wtp-radio-config/occupancy-limit: 100
radio-cfg-b/capwap80211/wtp-radio-config/reg: 167772416

107
src/ac/dataman.c
View File

@ -5,10 +5,12 @@
#include "cw/timer.h" #include "cw/timer.h"
#include "cw/cw.h" #include "cw/cw.h"
#include "cw/format.h" #include "cw/format.h"
#include "cw/netconn.h" #include "cw/conn.h"
#include "cw/log.h" #include "cw/log.h"
#include "cw/dbg.h" #include "cw/dbg.h"
#include "cw/file.h"
#include "cw/dot11.h"
#include "wtplist.h" #include "wtplist.h"
#include "dataman.h" #include "dataman.h"
@ -19,8 +21,8 @@ pthread_mutex_t dataman_list_mutex;
static int cmp(const void *d1, const void *d2) static int cmp(const void *d1, const void *d2)
{ {
struct netconn *nc1 = ((struct dataman *) d1)->nc; struct cw_Conn *nc1 = ((struct dataman *) d1)->nc;
struct netconn *nc2 = ((struct dataman *) d1)->nc; struct cw_Conn *nc2 = ((struct dataman *) d1)->nc;
int r = nc1->sock - nc2->sock; int r = nc1->sock - nc2->sock;
if (r != 0) if (r != 0)
@ -52,7 +54,7 @@ void dataman_destroy(struct dataman *dm)
{ {
if (!dm) if (!dm)
return; return;
netconn_destroy(dm->nc); conn_destroy(dm->nc);
} }
struct dataman *dataman_create(int sock, struct sockaddr *addr) struct dataman *dataman_create(int sock, struct sockaddr *addr)
@ -60,15 +62,15 @@ struct dataman *dataman_create(int sock, struct sockaddr *addr)
struct dataman *dm = malloc(sizeof(struct dataman)); struct dataman *dm = malloc(sizeof(struct dataman));
if (!dm) if (!dm)
return NULL; return NULL;
memset(dm,0,sizeof(struct dataman));
dm->nc = netconn_create(sock, addr, 100); dm->nc = cw_conn_create(sock, addr, 100);
return dm; return dm;
} }
struct dataman *dataman_list_get(int sock, struct sockaddr *addr) struct dataman *dataman_list_get(int sock, struct sockaddr *addr)
{ {
struct netconn search_nc; struct cw_Conn search_nc;
struct dataman search_dm; struct dataman search_dm;
search_nc.sock = sock; search_nc.sock = sock;
@ -78,7 +80,7 @@ struct dataman *dataman_list_get(int sock, struct sockaddr *addr)
struct dataman *dm = mavl_get(dataman_list, &search_dm); struct dataman *dm = mavl_get(dataman_list, &search_dm);
cw_dbg(DBG_X,"Getting dataman %p",dm); // cw_dbg(DBG_X,"Getting dataman %p",dm);
return dm; return dm;
} }
@ -91,7 +93,7 @@ struct dataman *dataman_list_add(struct dataman *dm)
int dataman_process_keep_alive(struct netconn *nc, uint8_t *rawmsg, int len) int dataman_process_keep_alive(struct cw_Conn *nc, uint8_t *rawmsg, int len)
{ {
struct dataman * dm = (struct dataman *)(nc->data); struct dataman * dm = (struct dataman *)(nc->data);
@ -115,7 +117,9 @@ int dataman_process_keep_alive(struct netconn *nc, uint8_t *rawmsg, int len)
((uint16_t*)sessid)[0]=sessid_len; ((uint16_t*)sessid)[0]=sessid_len;
memcpy(bstr16_data(sessid),cw_get_elem_data(elem),sessid_len); memcpy(bstr16_data(sessid),cw_get_elem_data(elem),sessid_len);
struct wtpman * wtpman = wtplist_get_by_session_id(sessid); stop();
struct wtpman * wtpman =NULL;
// struct wtpman * wtpman = wtplist_get_by_session_id(sessid);
if (wtpman){ if (wtpman){
if (!dm->wtpman) if (!dm->wtpman)
dm->wtpman=wtpman; dm->wtpman=wtpman;
@ -131,7 +135,7 @@ int dataman_process_keep_alive(struct netconn *nc, uint8_t *rawmsg, int len)
printf("len len %d\n",l); printf("len len %d\n",l);
printf("Total len = %d\n",total_len); printf("Total len = %d\n",total_len);
netconn_send_capwap_msg(nc,buffer,total_len); cw_send_msg(nc,buffer,total_len);
return len; return len;
@ -165,26 +169,87 @@ int dataman_process_keep_alive(struct netconn *nc, uint8_t *rawmsg, int len)
return -1; return -1;
} }
int dataman_process_message0(struct netconn *nc, uint8_t * rawmsg, int len,
int dataman_process_message0(struct cw_Conn *nc, uint8_t * rawmsg, int len,
struct sockaddr *from) struct sockaddr *from)
{ {
static int c=0;
char fn[100];
sprintf(fn,"wificap-%03d",c++);
/// cw_save_file(fn,(char*)rawmsg,len);
/// cw_dbg(DBG_X,"saving %d bytes",len);
int offs = cw_get_hdr_msg_offset(rawmsg);
int rc;
uint8_t * dot11frame = rawmsg + offs;
int dot11len = len-offs;
// cw_dbg(DBG_X,"802.11 - %s",dot11_get_frame_name(dot11frame));
// extern void ppacket(uint8_t * p, int len);
// ppacket (dot11frame,len-cw_get_hdr_msg_offset(rawmsg));
// cw_dbg(DBG_X,"802.11 - %s",dot11_get_frame_name(dot11frame));
// cw_dbg(DBG_X,"802.11 - T&S: %d %d",dot11_get_type(dot11frame),dot11_get_subtype(dot11frame));
// cw_dbg(DBG_X,"Frame CTL:%d,%d",frame.frame_control.type, frame.frame_control.subtype);
// cw_dbg(DBG_X,"CMP???CTL:%d,%d (%d,%d)",frame.frame_control.type, frame.frame_control.subtype,
// TYPE_MANAGEMENT,SUBTYPE_ASSOC_REQ);
// char ffr[1024];
// cw_format_dot11_hdr(ffr,dot11frame,dot11len);
// cw_dbg(DBG_X,ffr);
//
//
/* The very first data message MUST be a keep-alive message */ /* The very first data message MUST be a keep-alive message */
if (!cw_get_hdr_flag_k(rawmsg)){ if (!cw_get_hdr_flag_k(rawmsg)){
// cw_dbg(DBG_X,"No K Flag founde");
errno = EAGAIN; errno = EAGAIN;
return -1; return -1;
} }
// cw_dbg(DBG_X, "Goto Keep Alive Pack");
return dataman_process_keep_alive(nc,rawmsg,len); return dataman_process_keep_alive(nc,rawmsg,len);
} }
int dataman_process_message(struct netconn *nc, uint8_t * rawmsg, int len, int dataman_process_message(struct cw_Conn *nc, uint8_t * rawmsg, int len,
struct sockaddr *from) struct sockaddr *from)
{ {
if (cw_get_hdr_flag_k(rawmsg)){ if (cw_get_hdr_flag_k(rawmsg)){
return dataman_process_keep_alive(nc,rawmsg,len); return dataman_process_keep_alive(nc,rawmsg,len);
} }
static int c=0;
char fn[100];
sprintf(fn,"wificap-%03d",c++);
cw_save_file(fn,(char*)rawmsg,len);
extern void ppacket(uint8_t * p, int len);
// ppacket (rawmsg,len);
cw_dbg(DBG_X,"There was someting else than dataman"); cw_dbg(DBG_X,"There was someting else than dataman");
return 1; return 1;
} }
@ -193,12 +258,22 @@ void dataman_run(struct dataman *dm)
{ {
time_t timer = cw_timer_start(2); time_t timer = cw_timer_start(2);
dm->nc->process_packet=netconn_process_packet; dm->nc->process_packet=conn_process_packet;
dm->nc->process_message=dataman_process_message0; dm->nc->process_message=dataman_process_message0;
dm->nc->data = dm; dm->nc->data = dm;
while (1){
time_t timer = cw_timer_start(2);
while (!cw_timer_timeout(timer)){ while (!cw_timer_timeout(timer)){
netconn_read_messages(dm->nc); cw_read_messages(dm->nc);
}
}
while (!cw_timer_timeout(timer)){
cw_read_messages(dm->nc);
} }
if (!dm->wtpman){ if (!dm->wtpman){
@ -213,7 +288,7 @@ void dataman_run(struct dataman *dm)
while (1){ while (1){
time_t timer = cw_timer_start(2); time_t timer = cw_timer_start(2);
while (!cw_timer_timeout(timer)){ while (!cw_timer_timeout(timer)){
netconn_read_messages(dm->nc); cw_read_messages(dm->nc);
} }
} }

5
src/ac/dataman.h
View File

@ -3,12 +3,11 @@
#include <pthread.h> #include <pthread.h>
/*#include "cw/netconn.h"*/
#include "wtpman.h" #include "wtpman.h"
struct dataman { struct dataman {
struct netconn *nc; struct cw_Conn *nc;
pthread_t thread; pthread_t thread;
struct wtpman * wtpman; struct wtpman * wtpman;
@ -28,6 +27,6 @@ extern pthread_mutex_t dataman_list_mutex;
#define dataman_list_lock() pthread_mutex_lock(&dataman_list_mutex) #define dataman_list_lock() pthread_mutex_lock(&dataman_list_mutex)
#define dataman_list_unlock() pthread_mutex_unlock(&dataman_list_mutex) #define dataman_list_unlock() pthread_mutex_unlock(&dataman_list_mutex)
#define dataman_add_packet(dm,data,len) (netconn_q_add_packet(dm->nc,data,len)) #define dataman_add_packet(dm,data,len) (conn_q_add_packet(dm->nc,data,len))
#endif #endif

487
src/ac/db.c
View File

@ -1,487 +0,0 @@
#include <sqlite3.h>
#include "cw/log.h"
#include "cw/dbg.h"
#include "cw/conn.h"
#include "conf.h"
static sqlite3 *handle;
static const char * init_tables = "\
CREATE TABLE IF NOT EXISTS acs (acid TEXT PRIMARY KEY, acname TEXT, lastseen TIMESTAMP); \
CREATE TABLE IF NOT EXISTS radios (\
wtpid TEXT,\
rid TEXT,\
key TEXT,\
sub_key,\
val TEXT, \
upd INTEGER, \
PRIMARY KEY (wtpid,rid,key,sub_key)\
);\
CREATE TABLE IF NOT EXISTS acips (acid TEXT,ip TEXT); \
CREATE TABLE IF NOT EXISTS wtps (wtpid TEXT PRIMARY KEY, acid TEXT,lastseen TIMESTAMP); \
CREATE TABLE IF NOT EXISTS wtpprops (\
wtpid TEXT NOT NULL,\
id TEXT NOT NULL,\
sub_id TEXT NOT NULL,\
val TEXT,\
upd INTEGER,\
PRIMARY KEY(wtpid,id,sub_id)\
);\
CREATE TABLE IF NOT EXISTS wlans (wlanid INTEGER PRIMARY KEY);\
CREATE TABLE IF NOT EXISTS wlanprops (wlanid INTEGER, id TEXT NOT NULL, val TEXT, PRIMARY KEY(wlanid,id));\
";
int db_init()
{
int rc;
const char * filename="ac.sqlite3";
cw_dbg(DBG_INFO,"Initializing Sqlite3 DB: %s, SQLite3 Version %s",filename,SQLITE_VERSION);
rc = sqlite3_config(SQLITE_CONFIG_SERIALIZED);
if (rc!=SQLITE_OK){
cw_log(LOG_ERR,"Error configuring SQLite3: %s",sqlite3_errmsg(handle));
return 0;
}
rc = sqlite3_initialize();
if (rc!=SQLITE_OK){
cw_log(LOG_ERR,"Error initializing SQLite3 DB : %s",sqlite3_errmsg(handle));
return 0;
}
rc = sqlite3_open(filename,&handle);
if (rc != SQLITE_OK)
{
cw_log(LOG_ERR,"Error opening SQLite3 DB %s: %s",filename,sqlite3_errmsg(handle));
return 0;
}
const char * cmd = init_tables;
rc = sqlite3_exec(handle,cmd,0,0,0);
if (rc)
{
const char *em = sqlite3_errmsg(handle);
cw_log(LOG_ERR,"Error executing SQL \"%s\"\nSQL Error Message: %s",cmd, em);
return 0;
}
return 1;
}
static sqlite3_stmt * ping_stmt;
static sqlite3_stmt * put_wtp_prop_stmt;
static sqlite3_stmt * get_tasks_stmt;
static sqlite3_stmt * stmt_get_radio_tasks;
static sqlite3_stmt * stmt_ping_wtp;
static sqlite3_stmt * stmt_put_radio_prop;
int db_start()
{
cw_dbg(DBG_INFO,"Starting Sqlite3 DB");
const char *sql="";
sqlite3_stmt *stmt;
int rc = sqlite3_prepare_v2(handle, "INSERT OR REPLACE INTO acs (acid,acname) VALUES (?,?);",-1,&stmt,0);
if (rc)
goto errX;
rc = sqlite3_bind_text(stmt,1,conf_acid,-1,SQLITE_STATIC);
rc = sqlite3_bind_text(stmt,2,conf_acname,-1,SQLITE_STATIC);
sqlite3_step(stmt);
rc = sqlite3_prepare_v2(handle, "UPDATE acs SET lastseen=datetime('now') WHERE acid=?;",-1,&ping_stmt,0);
rc = sqlite3_bind_text(ping_stmt,1,conf_acid,-1,SQLITE_STATIC);
/* Prepare statement to update a WTP property */
sql = "INSERT OR REPLACE INTO wtpprops\
(wtpid,id,sub_id,val,upd)\
VALUES (?,?,?,?,?)";
rc = sqlite3_prepare_v2(handle, sql,-1, &put_wtp_prop_stmt,0);
if (rc)
goto errX;
sql = "INSERT OR REPLACE INTO radios\
(wtpid,rid,key,sub_key,val,upd)\
VALUES (?,?,?,?,?,0)";
rc = sqlite3_prepare_v2(handle, sql,-1, &stmt_put_radio_prop,0);
if (rc)
goto errX;
/* Prepare WTP ping statement */
sql = "INSERT OR REPLACE INTO wtps (wtpid,acid,lastseen) VALUES(?,?,datetime('now'))";
rc = sqlite3_prepare_v2(handle, sql,-1, &stmt_ping_wtp,0);
if (rc)
goto errX;
sql = "SELECT wtpid,id,sub_id,val FROM wtpprops WHERE upd>0 AND wtpid=?";
rc = sqlite3_prepare_v2(handle, sql,-1, &get_tasks_stmt,0);
if (rc)
goto errX;
sql = "SELECT wtpid,rid,key,sub_key,val FROM radios WHERE upd>0 AND wtpid=?";
rc = sqlite3_prepare_v2(handle, sql,-1, &stmt_get_radio_tasks,0);
if (rc)
goto errX;
return 1;
errX:
cw_log(LOG_ERR,"Fatal: Can't start Sqlite3 DB, Error while executing '%s' - %d - %s",sql,rc,sqlite3_errmsg(handle));
return 0;
}
void db_put_radio_prop(const char *wtp_id,const char *rid, const char * key,const char *sub_key,const char * val)
{
int rc=0;
/*// DBGX("Putting %s/%s:%s",id,sub_id,val);
// (wtpid,rid,key,sub_key,val,upd)
*/
sqlite3_reset(stmt_put_radio_prop);
sqlite3_clear_bindings(stmt_put_radio_prop);
if(sqlite3_bind_text(stmt_put_radio_prop,1,wtp_id,-1,SQLITE_STATIC))
goto errX;
if(sqlite3_bind_text(stmt_put_radio_prop,2,rid,-1,SQLITE_STATIC))
goto errX;
if (sqlite3_bind_text(stmt_put_radio_prop,3,key,-1,SQLITE_STATIC))
goto errX;
/* if (!sub_key)
sub_key=CW_ITEM_NONE;
*/
if (sqlite3_bind_text(stmt_put_radio_prop,4,sub_key,-1,SQLITE_STATIC))
goto errX;
if (sqlite3_bind_text(stmt_put_radio_prop,5,val,-1,SQLITE_STATIC))
goto errX;
/*
// if (sqlite3_bind_int(put_wtp_prop_stmt,5,0))
// goto errX;
// cw_dbg(DBG_X,"Her I am already, next is step");
*/
rc = sqlite3_step(stmt_put_radio_prop);
if (rc != SQLITE_DONE)
goto errX;
/*
// cw_dbg(DBG_X,"SQL schould be fine");
*/
return;
errX:
/*// cw_dbg (DBG_X, "Iam on err %d\n",rc);*/
if (rc) {
cw_log(LOG_ERR,"Can't update database with WTP props: %d - %s",
rc,sqlite3_errmsg(handle));
}
}
void db_ping()
{
int rc = sqlite3_step(ping_stmt);
if (rc!=SQLITE_DONE){
cw_log(LOG_ERR,"Error: Can't ping database, error code %d - %s",rc,sqlite3_errmsg(handle));
}
}
void db_ping_wtp(const char *wtpid,const char *acid)
{
int rc=0;
sqlite3_reset(stmt_ping_wtp);
sqlite3_clear_bindings(stmt_ping_wtp);
if(sqlite3_bind_text(stmt_ping_wtp,1,wtpid,-1,SQLITE_STATIC))
goto errX;
if(sqlite3_bind_text(stmt_ping_wtp,2,acid,-1,SQLITE_STATIC))
goto errX;
rc = sqlite3_step(stmt_ping_wtp);
errX:
if (rc!=SQLITE_DONE) {
cw_log(LOG_ERR,"Can't ping database for WTP: %d - %s",
rc,sqlite3_errmsg(handle));
}
}
void db_put_wtp_prop(const char *wtp_id,const char * id,const char *sub_id,const char * val)
{
int rc=0;
/*// DBGX("Putting %s/%s:%s",id,sub_id,val);
*/
sqlite3_reset(put_wtp_prop_stmt);
sqlite3_clear_bindings(put_wtp_prop_stmt);
if(sqlite3_bind_text(put_wtp_prop_stmt,1,wtp_id,-1,SQLITE_STATIC))
goto errX;
if(sqlite3_bind_text(put_wtp_prop_stmt,2,id,-1,SQLITE_STATIC))
goto errX;
/* if (!sub_id)
sub_id=CW_ITEM_NONE;
*/
if (sqlite3_bind_text(put_wtp_prop_stmt,3,sub_id,-1,SQLITE_STATIC))
goto errX;
if (sqlite3_bind_text(put_wtp_prop_stmt,4,val,-1,SQLITE_STATIC))
goto errX;
if (sqlite3_bind_int(put_wtp_prop_stmt,5,0))
goto errX;
/*// cw_dbg(DBG_X,"Her I am already, next is step");
*/
rc = sqlite3_step(put_wtp_prop_stmt);
if (rc != SQLITE_DONE)
goto errX;
/*
// cw_dbg(DBG_X,"SQL schould be fine");
*/
return;
errX:
/*// cw_dbg (DBG_X, "Iam on err %d\n",rc);*/
if (rc) {
cw_log(LOG_ERR,"Can't update database with WTP props: %d - %s",
rc,sqlite3_errmsg(handle));
}
}
/*// TODO XXXX*/
mavl_t db_get_update_tasks(struct conn * conn,const char * wtpid)
{
/*
sqlite3_reset(get_tasks_stmt);
sqlite3_clear_bindings(get_tasks_stmt);
mavl_conststr_t r = mavl_create_conststr();
if (!r)
return NULL;
int rc=0;
if(sqlite3_bind_text(get_tasks_stmt,1,wtpid,-1,SQLITE_STATIC))
goto errX;
while (SQLITE_ROW == sqlite3_step(get_tasks_stmt)) {
int ii;
//DBGX("-----------------------------------------------------","");
for (ii=0; ii<5; ii++){
//DBGX("CVALL: %s",(const char*)sqlite3_column_text(get_tasks_stmt,ii));
}
const char *id = (const char*)sqlite3_column_text(get_tasks_stmt,1);
if (!id) {
continue;
}
const char *sub_id = (const char*)sqlite3_column_text(get_tasks_stmt,2);
const char *val = (const char*)sqlite3_column_text(get_tasks_stmt,3);
//DBGX("ID: (%s), SubID (%s), Val (%s)",id,sub_id,val);
const struct cw_itemdef * cwi = cw_itemdef_get(conn->actions->items,id,sub_id);
if (!cwi) {
//DBGX("Not item definition found for: %s/%s",id,sub_id);
continue;
}
//uint8_t data[2048];
if (!cwi->type->from_str) {
cw_log(LOG_ERR,"Can't convert from string %s/%s - No method defined.",id,sub_id);
continue;
}
mbag_item_t * i = cwi->type->from_str(val);
i->id=cwi->id;
mbag_set(conn->outgoing,i);
mavl_add(r,(void*)cwi->id);
}
if (r->count)
return r;
mavl_destroy(r);
return NULL;
errX:
if (rc) {
cw_log(LOG_ERR,"Can't get tasks: %d - %s",
rc,sqlite3_errmsg(handle));
}
if (r)
mavl_destroy(r);
return NULL;
*/
}
mavl_t db_get_radio_tasks(struct conn * conn,const char * wtpid)
{
/*
//cw_dbg(DBG_X,"Get Radio Tasks for %s",wtpid);
sqlite3_reset(stmt_get_radio_tasks);
sqlite3_clear_bindings(stmt_get_radio_tasks);
mavl_conststr_t r = mavl_create_conststr();
if (!r)
return NULL;
int rc=0;
if(sqlite3_bind_text(stmt_get_radio_tasks,1,wtpid,-1,SQLITE_STATIC))
goto errX;
while (SQLITE_ROW == sqlite3_step(stmt_get_radio_tasks)) {
int ii;
//DBGX("-----------------------------------------------------","");
for (ii=0; ii<6; ii++){
DBGX("CVALL: %s",(const char*)sqlite3_column_text(stmt_get_radio_tasks,ii));
}
const char *strrid= (const char*)sqlite3_column_text(stmt_get_radio_tasks,1);
const char *id = (const char*)sqlite3_column_text(stmt_get_radio_tasks,2);
if (!id) {
continue;
}
const char *sub_id = (const char*)sqlite3_column_text(stmt_get_radio_tasks,3);
const char *val = (const char*)sqlite3_column_text(stmt_get_radio_tasks,4);
//DBGX("ID: (%s), SubID (%s), Val (%s)",id,sub_id,val);
const struct cw_itemdef * cwi = cw_itemdef_get(conn->actions->radioitems,id,sub_id);
if (!cwi) {
DBGX("No item definition found for: %s/%s",id,sub_id);
continue;
}
if (!cwi->type->from_str) {
cw_log(LOG_ERR,"Can't convert from string %s/%s - No method defined.",id,sub_id);
continue;
}
mbag_item_t * i = cwi->type->from_str(val);
i->id=cwi->id;
int rid = atoi(strrid);
cw_dbg(DBG_X,"RID: %d",rid);
mbag_t radio = mbag_i_get_mbag_c(conn->radios_upd,rid,mbag_create);
mbag_set(radio,i);
//mbag_set(conn->outgoing,i);
mavl_add(r,(void*)cwi->id);
}
if (r->count)
return r;
mavl_destroy(r);
return NULL;
errX:
if (rc) {
cw_log(LOG_ERR,"Can't get tasks: %d - %s",
rc,sqlite3_errmsg(handle));
}
if (r)
mavl_destroy(r);
return NULL;
*/
}

21
src/ac/db.h
View File

@ -1,21 +0,0 @@
#ifndef CW_MAVL_H
#define CW_MAVL_H
#include "mavl.h"
extern void db_ping();
extern void db_ping_wtp(const char *wtpid,const char *acid);
extern int db_init();
int db_start();
int db_get_tasks(struct conn * conn,const char * wtpid);
void db_put_wtp_prop(const char *wtp_id,const char * id,const char *sub_id,const char * val);
mavl_t db_get_update_tasks(struct conn * conn,const char * wtpid);
void db_put_radio_prop(const char *wtp_id,const char *rid, const char * key,const char *sub_key,const char * val);
extern mavl_t db_get_radio_tasks(struct conn * conn,const char * wtpid);
#endif

56
src/ac/discovery_cache.c
View File

@ -4,6 +4,7 @@
#include "cw/mlist.h" #include "cw/mlist.h"
#include "mavl.h" #include "mavl.h"
#include "cw/mod.h" #include "cw/mod.h"
#include "cw/dbg.h"
#include "discovery_cache.h" #include "discovery_cache.h"
struct cw_DiscoveryCacheElem{ struct cw_DiscoveryCacheElem{
@ -32,6 +33,9 @@ void discovery_cache_destroy(struct cw_DiscoveryCache * c)
if (c->byaddrp) if (c->byaddrp)
mavl_destroy(c->byaddrp); mavl_destroy(c->byaddrp);
if (c->queue)
free(c->queue);
free(c); free(c);
} }
@ -105,13 +109,22 @@ errX:
void discovery_cache_add(struct cw_DiscoveryCache *cache, void discovery_cache_add(struct cw_DiscoveryCache *cache,
struct sockaddr * addr, struct cw_Mod * mod_capwap, struct cw_Mod * mod_bindings) struct sockaddr * addr, struct cw_Mod * mod_capwap, struct cw_Mod * mod_bindings)
{ {
{
cw_dbg(DBG_X,"////////////////////////// ADDD CAHCE ///////////////////////");
char str[128];
sock_addrtostr(addr,str,128,1);
}
struct cw_DiscoveryCacheElem * cur = cache->queue+cache->qpos; struct cw_DiscoveryCacheElem * cur = cache->queue+cache->qpos;
if (cur->cmod!=NULL){ if (cur->cmod!=NULL){
/* delete here */ /* delete here */
cw_dbg(DBG_X,"DOIN MAVL DEL ----- ///////////");
void * ptr = &cur; void * ptr = &cur;
mavl_del(cache->byaddr,ptr); mavl_del(cache->byaddr,ptr);
mavl_del(cache->byaddr,ptr); mavl_del(cache->byaddrp,ptr);
} }
cur->cmod=mod_capwap; cur->cmod=mod_capwap;
@ -141,9 +154,22 @@ int discovery_cache_get(struct cw_DiscoveryCache * cache,struct sockaddr *addr,
sock_copyaddr(&search.addr,addr); sock_copyaddr(&search.addr,addr);
search.ctrhi=search.ctrlo=0; search.ctrhi=search.ctrlo=0;
{
cw_dbg(DBG_X,"DISCOVERY CACHE ---------------------------- GET ENTER");
char str[128];
sock_addrtostr(addr,str,128,1);
}
search_ptr = &search; search_ptr = &search;
result = mavl_get(cache->byaddrp ,&search_ptr); result = mavl_get(cache->byaddrp ,&search_ptr);
if (result != NULL){ if (result != NULL){
{
cw_dbg(DBG_X,"DISCOVERY CACHE ---------------------------- FOUND 1 with Port");
char str[128];
sock_addrtostr(addr,str,128,1);
}
elem = *result; elem = *result;
if (elem != NULL){ if (elem != NULL){
mavl_del(cache->byaddr,result); mavl_del(cache->byaddr,result);
@ -163,14 +189,36 @@ int discovery_cache_get(struct cw_DiscoveryCache * cache,struct sockaddr *addr,
result = mavl_get_first(cache->byaddr, &search_ptr); result = mavl_get_first(cache->byaddr, &search_ptr);
if (result == NULL) if (result == NULL)
return 0; return 0;
{
cw_dbg(DBG_X,"DISCOVERY CACHE ---------------------------- DOUND BY ADDR");
char str[128];
sock_addrtostr(addr,str,128,1);
}
elem = *result; elem = *result;
if (elem != NULL){ if (elem != NULL){
cw_dbg(DBG_X,"elem != NULL");
{
cw_dbg(DBG_X,"DISCOVERY CACHE ---------------------------- DOUND BY ADDR");
char str[128];
sock_addrtostr((struct sockaddr*)&elem->addr,str,128,1);
printf("ELEM addr: %s\n",str);
}
if (sock_cmpaddr((struct sockaddr*)&elem->addr,addr,0)!=0) if (sock_cmpaddr((struct sockaddr*)&elem->addr,addr,0)!=0)
return 0; return 0;
mavl_del(cache->byaddr,result); cw_dbg(DBG_X,"DOIN MAVL DEL HERO ----- ///////////");
mavl_del(cache->byaddrp,result); mavl_del(cache->byaddr,&elem);
cw_dbg(DBG_X,"DOIN MAVL DEL HERXXXXXXO ----- ///////////");
mavl_del(cache->byaddrp,&elem);
cw_dbg(DBG_X,"DOIN MAVL DEL HERO 0000 ----- ///////////");
*modcapwap=elem->cmod; *modcapwap=elem->cmod;
*modbindings=elem->bmod; *modbindings=elem->bmod;

3
src/ac/discovery_cache.h
View File

@ -3,7 +3,7 @@
#include "cw/mod.h"
struct cw_DiscoveryCache * discovery_cache_create(int len); struct cw_DiscoveryCache * discovery_cache_create(int len);
@ -14,4 +14,5 @@ void discovery_cache_add(struct cw_DiscoveryCache *cache,
int discovery_cache_get(struct cw_DiscoveryCache * cache,struct sockaddr *addr, int discovery_cache_get(struct cw_DiscoveryCache * cache,struct sockaddr *addr,
struct cw_Mod ** modcapwap, struct cw_Mod **modbindings); struct cw_Mod ** modcapwap, struct cw_Mod **modbindings);
void discovery_cache_destroy(struct cw_DiscoveryCache * c);
#endif #endif

29
src/ac/mod_cipwap.c
View File

@ -1,29 +0,0 @@
#include "module.h"
static int init()
{
// regn = cw_register_actions_cipwap_ac(&capwap_actions);
return 1;
}
static struct ac_module module = {
.name="Cipwap",
.init= init,
.detect_by_discovery = 0
};
struct ac_module * mod_cipwap()
{
return &module;
}

13
src/ac/module.h
View File

@ -1,13 +0,0 @@
#ifndef __MODULE_H
#define __MODULE_H
struct ac_module
{
const char *name;
int (*init)();
int (*detect_by_raw)(const char *msg, int len);
int (*detect_by_discovery)(const char*);
};
#endif

5
src/ac/rpc-macros/activate.ckv Normal file
View File

@ -0,0 +1,5 @@
radio.255/capwap/operational-state/state: enabled
radio.255/capwap/admin-state: 1
radio.0/capwap/operational-state/state: enabled
radio.0/capwap/admin-state: 1

5
src/ac/rpc-macros/admin-on.ckv Normal file
View File

@ -0,0 +1,5 @@
#
# Managed by acTube
#
radio.0/capwap/admin-state: 1

60
src/ac/rpc-macros/all.ckv Normal file
View File

@ -0,0 +1,60 @@
radio.0/cisco/air-space-capability: 0
radio.0/cisco/antenna-payload/802-11n-rx-antennas: 3
radio.0/cisco/antenna-payload/802-11n-tx-antennas: 7
radio.0/cisco/antenna-payload/antenna-cnt: 2
radio.0/cisco/antenna-payload/antenna-mode: 3
radio.0/cisco/antenna-payload/antenna.0: 1 - Internal Antenna
radio.0/cisco/antenna-payload/antenna.1: 1 - Internal Antenna
radio.0/cisco/antenna-payload/diversity-selection: 255
radio.0/cisco/antenna-payload/unknown: 0
radio.0/cisco/channel-power: .x08080d0108221c16100a04fefe0208221c16100a04fefe0308221c16100a04fefe0408221c16100a04fefe0508221c16100a04fefe0608221c16100a04fefe0708221c16100a04fefe0808221c16100a04fefe0908221c16100a04fefe0a08221c16100a04fefe0b08221c16100a04fefe0c08221c16100a04fefe0d08221c16100a04fefe
radio.0/capwap80211/rate-set: .x82848b960c1218243048606c
radio.0/capwap80211/tx-power/@cisco/cfg-type: 1 - global
radio.0/capwap80211/tx-power/current-tx-power: 1
radio.0/capwap80211/wtp-radio-config/beacon-period: 100
radio.0/capwap80211/wtp-radio-config/bssid: .x04fe7f499b90
radio.0/capwap80211/wtp-radio-config/cfg-period: 4
radio.0/capwap80211/wtp-radio-config/cfg-type: 1
radio.0/capwap80211/wtp-radio-config/cfp-maximum-duration: 60
radio.0/capwap80211/wtp-radio-config/country-str1: "DE "
radio.0/capwap80211/wtp-radio-config/country-str2: "DE "
radio.0/capwap80211/wtp-radio-config/occupancy-limit: 100
radio.0/capwap80211/wtp-radio-config/reg: 167772416
radio.0/capwap80211/wtp-radio-information: 1
radio.0/cisco/mac-operation/long-retry: 4
radio.0/cisco/mac-operation/reserved: 1
radio.0/cisco/mac-operation/rts-threshold: 2347
radio.0/cisco/mac-operation/rx-msdu-lifetime: 512
radio.0/cisco/mac-operation/short-retry: 7
radio.0/cisco/mac-operation/tx-msdu-lifetime: 512
radio.0/cisco/multi-domain-capability/first-channel: 1
radio.0/cisco/multi-domain-capability/max-tx-power-level: 65535
radio.0/cisco/multi-domain-capability/number-of-channels: 13
radio.0/cisco/multi-domain-capability/reserved: 1
radio.0/cisco/phy-ht-cap/asel-cap: 0
radio.0/cisco/phy-ht-cap/extended-ht-cap-info: .x0000
radio.0/cisco/phy-ht-cap/ht-cap-info: 6
radio.0/cisco/phy-ht-cap/mcsrates-1: .x00000000
radio.0/cisco/phy-ht-cap/mcsrates-2: .x00000000
radio.0/cisco/phy-ht-cap/mcsrates-3: .x00000000
radio.0/cisco/phy-ht-cap/mcsrates-4: .x0000ffff
radio.0/cisco/phy-ht-cap/tx-bf-cap: .x00000000
radio.0/cisco/phy-ht-control/cfg-type: 1 - global
radio.0/cisco/phy-ht-control/channel-width: 20
radio.0/cisco/phy-ht-control/cur-freq-is-dfs-channel: 0
radio.0/cisco/phy-ht-control/current-freq: 1
radio.0/cisco/phy-ht-control/enable-ht: 3
radio.0/cisco/phy-ht-control/ext-channel: 0
radio.0/cisco/phy-ht-control/flash-commit: 0
radio.0/cisco/phy-ht-control/frequency-bands-support: 206
radio.0/cisco/phy-ht-control/rest: .x00ffffff
radio.0/cisco/phy-ht-control/ti-threshold: 0

10
src/ac/rpc-macros/antenna.ckv Normal file
View File

@ -0,0 +1,10 @@
radio.0/cisco/air-space-capability: 0
radio.0/cisco/antenna-payload/802-11n-rx-antennas: 3
radio.0/cisco/antenna-payload/802-11n-tx-antennas: 7
radio.0/cisco/antenna-payload/antenna-cnt: 2
radio.0/cisco/antenna-payload/antenna-mode: 3
radio.0/cisco/antenna-payload/antenna.0: 1 - Internal Antenna
radio.0/cisco/antenna-payload/antenna.1: 1 - Internal Antenna
radio.0/cisco/antenna-payload/diversity-selection: 255
radio.0/cisco/antenna-payload/unknown: 0

5
src/ac/rpc-macros/led-off.ckv Normal file
View File

@ -0,0 +1,5 @@
#
# Managed by acTube
#
cisco/ap-led-state-config/led-state: 0

5
src/ac/rpc-macros/led-on.ckv Normal file
View File

@ -0,0 +1,5 @@
#
# Managed by acTube
#
cisco/ap-led-state-config/led-state: 1

8
src/ac/rpc-macros/macopts.ckv Normal file
View File

@ -0,0 +1,8 @@
radio.0/cisco/mac-operation/fragmentation-threshold: 2346
radio.0/cisco/mac-operation/long-retry: 4
radio.0/cisco/mac-operation/reserved: 1
radio.0/cisco/mac-operation/rts-threshold: 2347
radio.0/cisco/mac-operation/rx-msdu-lifetime: 512
radio.0/cisco/mac-operation/short-retry: 7
radio.0/cisco/mac-operation/tx-msdu-lifetime: 512

5
src/ac/rpc-macros/oper-off.ckv Normal file
View File

@ -0,0 +1,5 @@
#
# Managed by acTube
#
radio.0/capwap/operational-state/state: disabled

5
src/ac/rpc-macros/oper-on.ckv Normal file
View File

@ -0,0 +1,5 @@
#
# Managed by acTube
#
radio.0/capwap/operational-state/state: enabled

13
src/ac/rpc-macros/radio.ckv Normal file
View File

@ -0,0 +1,13 @@
radio.0/capwap80211/tx-power/@cisco/cfg-type: 1 - global
radio.0/capwap80211/tx-power/current-tx-power: 1
radio.0/capwap80211/wtp-radio-config/beacon-period: 100
radio.0/capwap80211/wtp-radio-config/bssid: .x04fe7f499b90
radio.0/capwap80211/wtp-radio-config/cfg-period: 4
radio.0/capwap80211/wtp-radio-config/cfg-type: 1
radio.0/capwap80211/wtp-radio-config/cfp-maximum-duration: 60
radio.0/capwap80211/wtp-radio-config/country-str1: "DE "
radio.0/capwap80211/wtp-radio-config/country-str2: "DE "
radio.0/capwap80211/wtp-radio-config/occupancy-limit: 100
radio.0/capwap80211/wtp-radio-config/reg: 167772416
radio.0/capwap80211/wtp-radio-information: 1

89
src/ac/rpc-macros/sr.ckv Normal file
View File

@ -0,0 +1,89 @@
capwap/timers/echo-interval: 30
capwap/timers/max-discovery-interval: 10
radio.255/capwap/admin-state: 1 - enabled
radio.0/capwap/admin-state: 1 - enabled
radio.1/capwap/admin-state: 1 - enabled
radio.0/capwap/decryption-error-report-period: 120
radio.1/capwap/decryption-error-report-period: 120
capwap/idle-timeout: 300
capwap/wtp-fallback: 1
cisco/spam-domain-secret: .xe1ffd18a8f15b3b59c0a47a7f17a96e7cb36174f00
radio.0/capwap80211/wtp-radio-config/beacon-period: 100
radio.0/capwap80211/wtp-radio-config/bssid: .x003a9902fac0
radio.0/capwap80211/wtp-radio-config/cfg-period: 4
radio.0/capwap80211/wtp-radio-config/cfg-type: 1
radio.0/capwap80211/wtp-radio-config/cfp-maximum-duration: 60
radio.0/capwap80211/wtp-radio-config/country-str1: "DE "
radio.0/capwap80211/wtp-radio-config/country-str2: "DE "
radio.0/capwap80211/wtp-radio-config/occupancy-limit: 100
radio.0/capwap80211/wtp-radio-config/reg: 167772416
radio.0/capwap80211/wtp-radio-information: 1
radio.0/capwap80211/rate-set: .x82848b960c1218243048606c
radio.0/cisco/multi-domain-capability/first-channel: 1
radio.0/cisco/multi-domain-capability/max-tx-power-level: 65535
radio.0/cisco/multi-domain-capability/number-of-channels: 13
radio.0/cisco/multi-domain-capability/reserved: 1
radio.0/cisco/mac-operation/fragmentation-threshold: 2346
radio.0/cisco/mac-operation/long-retry: 4
radio.0/cisco/mac-operation/reserved: 1
radio.0/cisco/mac-operation/rts-threshold: 2347
radio.0/cisco/mac-operation/rx-msdu-lifetime: 512
radio.0/cisco/mac-operation/short-retry: 7
radio.0/cisco/mac-operation/tx-msdu-lifetime: 512
radio.1/capwap80211/tx-power/@cisco/cfg-type: 1 - global
radio.1/capwap80211/tx-power/current-tx-power: 1
radio.0/cisco/direct-sequence-control/cfg-type: 1 - global
radio.0/cisco/direct-sequence-control/current-cca-mode: 0
radio.0/cisco/direct-sequence-control/current-channel: 1
radio.0/cisco/direct-sequence-control/energy-detect-threshold: -50
radio.0/cisco/direct-sequence-control/unknown: 1
radio.0/cisco/antenna-payload/802-11n-rx-antennas: 3
radio.0/cisco/antenna-payload/802-11n-tx-antennas: 7
radio.0/cisco/antenna-payload/antenna-cnt: 2
radio.0/cisco/antenna-payload/antenna-mode: 3
radio.0/cisco/antenna-payload/antenna.0: 1 - Internal Antenna
radio.0/cisco/antenna-payload/antenna.1: 1 - Internal Antenna
radio.0/cisco/antenna-payload/diversity-selection: 255
radio.0/cisco/antenna-payload/unknown: 0
radio.0/cisco/air-space-capability: 0
radio.0/capwap/operational-state/cause: Normal
radio.0/capwap/operational-state/state: enabled
radio.0/cisco/80211h/count: 0
radio.0/cisco/80211h/enable: 0
radio.0/cisco/80211h/mode: 0
radio.0/cisco/80211h/power: 0
radio.0/cisco/elem153: .x00
radio.0/cisco/elem156: .x020100
radio.0/cisco/lwelem48: .x01055a0101a6c405b06432b03232
radio.1/cisco/lwelem33: .x00
radio.0/cisco/elem146: .x690f
radio.255/capwap/operational-state/cause: Normal
radio.255/capwap/operational-state/state: enabled
cisco/bcast-ssid-mode: 1
capwap/timers/max-discovery-interval: 10
capwap/timers/echo-interval: 30
cisco/client-auto-handoff: 0
cisco/lwelem14: .x000001000000000000000000000000000000

5
src/ac/rpc-macros/telnet-off.ckv Normal file
View File

@ -0,0 +1,5 @@
#
# Managed by acTube
#
cisco/ap-telnet-ssh/telnet: false

5
src/ac/rpc-macros/telnet-on.ckv Normal file
View File

@ -0,0 +1,5 @@
#
# Managed by acTube
#
cisco/ap-telnet-ssh/telnet: true

3
src/ac/rpc-macros/txp.ckv Normal file
View File

@ -0,0 +1,3 @@
radio.0/capwap80211/tx-power/@cisco/cfg-type: 1 - global
radio.0/capwap80211/tx-power/current-tx-power: 1

17
src/ac/rpc-macros/wlan.ckv Normal file
View File

@ -0,0 +1,17 @@
radio.0/wlan.1/capwap80211/capability: 1073
radio.0/wlan.1/capwap80211/qos: 0
radio.0/wlan.1/capwap80211/ssid: tubeC
radio.0/wlan.1/cisco/aironet-ie: true
radio.0/wlan.1/cisco/broadcast-ssid: true
radio.0/wlan.1/cisco/dtim-period: 1
radio.0/wlan.1/cisco/encryption-policy: 4
radio.0/wlan.1/cisco/hreap-local-switch: 0
radio.0/wlan.1/cisco/profile-name: tubeC
radio.0/wlan.1/cisco/scan-defer-period: 28784
radio.0/wlan.1/cisco/scan-defer-time: 100
radio.0/wlan.1/cisco/session-timout: 1800
radio.0/wlan.1/cisco/wep-encryption: false
radio.0/wlan.1/cisco/wep-key: .xc3e9d4b1360d7cf5bcfc759753
radio.0/wlan.1/cisco/wep-key-index: 1
radio.0/wlan.1/radio-id: 0
radio.0/wlan.1/wlan-id: 1

14
src/ac/rpc-macros/wlan1.ckv Normal file
View File

@ -0,0 +1,14 @@
radio.0/wlan.1/capwap80211/capability: 1057
radio.0/wlan.1/capwap80211/ssid: actube
radio.0/wlan.1/cisco/allow-aaa-override: 0
radio.0/wlan.1/cisco/broadcast-ssid: true
radio.0/wlan.1/cisco/dtim-period: 1
radio.0/wlan.1/cisco/encryption-policy: 16777216
radio.0/wlan.1/cisco/max-stations: 200
radio.0/wlan.1/cisco/profile-name: ACTUBE
radio.0/wlan.1/cisco/session-timout: 1800
radio.0/wlan.1/cisco/wep-encryption: 0
radio.0/wlan.1/cisco/wep-key: .x00000000000000000000000000
radio.0/wlan.1/radio-id: 0
radio.0/wlan.1/wlan-id: 1

18
src/ac/rpc-macros/wlan13.ckv Normal file
View File

@ -0,0 +1,18 @@
radio.0/wlan.13/capwap80211/capability: 1057
radio.0/wlan.13/capwap80211/qos: 0
radio.0/wlan.13/capwap80211/ssid: SuperSSID
radio.0/wlan.13/cisco/aironet-ie: true
radio.0/wlan.13/cisco/broadcast-ssid: true
radio.0/wlan.13/cisco/dtim-period: 19
radio.0/wlan.13/cisco/encryption-policy: 1
radio.0/wlan.13/cisco/hreap-local-switch: 16
radio.0/wlan.13/cisco/profile-name: SuerWLAN
radio.0/wlan.13/cisco/scan-defer-period: 15420
radio.0/wlan.13/cisco/scan-defer-time: 100
radio.0/wlan.13/cisco/session-timout: 1800
radio.0/wlan.13/cisco/wep-encryption: false
radio.0/wlan.13/cisco/wep-key: .x55d80f0e2bf5223dd10f82407b
radio.0/wlan.13/cisco/wep-key-index: 1
radio.0/wlan.13/radio-id: 0
radio.0/wlan.13/wlan-id: 13

722
src/ac/rpc.c Normal file
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@ -0,0 +1,722 @@
#include <stdio.h>
#include <errno.h>
#include <string.h>
#include <ctype.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <sys/wait.h>
#include <arpa/telnet.h>
#include <histedit.h>
#include "cw/sock.h"
#include "cw/log.h"
#include "cw/dbg.h"
#include "wtpman.h"
#include "cw/connlist.h"
#include "wtplist.h"
#include "ac.h"
struct rpcdata{
FILE *in;
FILE *out;
char prompt[1024];
cw_Cfg_t * update_cfg;
cw_Cfg_t * global_cfg;
char *history[2000];
char line[4096];
int pos;
char esc[8];
int escpos;
int quit;
History *hist;
HistEvent ev;
Tokenizer *tok;
EditLine *el;
};
struct sockdata{
const char *name;
int fd;
cw_Cfg_t * global_cfg;
};
int select_cmd(struct rpcdata *sd, const char *cmd);
int list_cmd(struct rpcdata *sd, const char * cmd);
int cfg_cmd(struct rpcdata *sd, const char * cmd);
int ucfg_cmd(struct rpcdata *sd, const char * cmd);
int set_cmd(struct rpcdata *sd, const char * cmd);
int del_cmd(struct rpcdata *sd, const char * cmd);
int send_cmd(struct rpcdata *sd, const char * cmd);
int wlan0_cmd(struct rpcdata *sd, const char * cmd);
int exit_cmd(struct rpcdata *sd, const char * cmd);
int prompt_cmd(struct rpcdata *sd, const char * cmd);
int global_cfg_cmd(struct rpcdata *sd, const char * cmd);
int status_cmd(struct rpcdata *sd, const char * cmd);
void print_mw(FILE *f, int w, const char * str);
int clear_cmd(struct rpcdata *sd, const char *cmd);
int load_cmd(struct rpcdata *sd, const char *cmd);
int save_cmd(struct rpcdata *sd, const char *cmd);
//void show_cfg (FILE *out, mavl_t ktv);
int show_aps (FILE *out);
struct cw_Conn * find_ap(const char *name);
struct command{
char * cmd;
int (*fun)(struct rpcdata *sd, const char *cmd);
};
static struct command cmdlist[]={
{"exit",exit_cmd},
{"bumm",exit_cmd},
{"cfg", cfg_cmd },
{"del", del_cmd },
{"ucfg", ucfg_cmd},
{"list", list_cmd },
{"select", select_cmd },
{"send", send_cmd},
{"set", set_cmd },
{"wlan0",wlan0_cmd},
{"global_cfg", global_cfg_cmd},
{"status",status_cmd},
{"clear",clear_cmd},
{"load",load_cmd},
{"save",save_cmd},
{"@prompt",prompt_cmd},
{NULL,NULL}
};
static void finish_cmd(FILE *f)
{
fprintf(f,"\n");
fflush(f);
}
int prompt_cmd(struct rpcdata *sd, const char *cmd)
{
const char *acname = cw_cfg_get(sd->global_cfg,"capwap/ac-name","actube");
fprintf(sd->out,"%s[%s]:>\n",acname,sd->prompt);
finish_cmd(sd->out);
return 0;
}
int global_cfg_cmd(struct rpcdata *sd, const char *str)
{
char *s;
while( isspace( *str ) )
str++;
s=(char*)str;
while (!isspace(*s) && *s!=0)
s++;
*s=0;
cw_cfg_fdump(sd->out,sd->global_cfg,str);
finish_cmd(sd->out);
return 0;
}
int select_cmd(struct rpcdata *sd, const char *cmd)
{
char ap [CAPWAP_MAX_WTP_NAME_LEN];
sscanf(cmd,"%s",ap);
strcpy(sd->prompt,ap);
finish_cmd(sd->out);
return 0;
}
int list_cmd(struct rpcdata *sd, const char *cmd)
{
show_aps(sd->out);
finish_cmd(sd->out);
return 0;
}
int exit_cmd(struct rpcdata *sd, const char *cmd)
{
finish_cmd(sd->out);
fflush(sd->out);
return 1;
}
int cfg_cmd(struct rpcdata *sd, const char *str)
{
char *s;
while( isspace( *str ) )
str++;
s=(char*)str;
while (!isspace(*s) && *s!=0)
s++;
*s=0;
struct cw_Conn * conn;
wtplist_lock();
conn = find_ap(sd->prompt);
if (conn==NULL){
fprintf(sd->out,"WTP '%s' not found\n",sd->prompt);
}
else {
cw_cfg_fdump(sd->out,conn->remote_cfg,str);
}
finish_cmd(sd->out);
wtplist_unlock();
return 0;
}
int status_cmd(struct rpcdata *sd, const char *cmd)
{
struct cw_Conn * conn;
int i;
char key[CW_CFG_MAX_KEY_LEN];
wtplist_lock();
print_mw(sd->out,8,"Radio");
print_mw(sd->out,15,"Admin State");
print_mw(sd->out,15,"Oper State");
print_mw(sd->out,13,"Cause");
fprintf(sd->out,"\n");
conn = find_ap(sd->prompt);
if (conn==NULL){
fprintf(sd->out,"WTP '%s' not found\n",sd->prompt);
goto errX;
}
i=0;
do {
char tmp[128];
sprintf(key,"radio.%d",i);
if (!cw_cfg_base_exists(conn->remote_cfg,key))
break;
sprintf(tmp,"%d",i);
print_mw(sd->out,8,tmp);
sprintf(key,"radio.%d/capwap/admin-state",i);
print_mw(sd->out,15, cw_cfg_get(conn->remote_cfg,key,"?"));
sprintf(key,"radio.%d/capwap/operational-state/state",i);
print_mw(sd->out,15, cw_cfg_get(conn->remote_cfg,key,"?"));
sprintf(key,"radio.%d/capwap/operational-state/cause",i);
print_mw(sd->out,13, cw_cfg_get(conn->remote_cfg,key,"?"));
fprintf(sd->out,"\n");
i++;
}while(1);
errX:
finish_cmd(sd->out);
wtplist_unlock();
return 0;
}
int ucfg_cmd(struct rpcdata *sd, const char *str)
{
char *s;
while( isspace( *str ) )
str++;
s=(char*)str;
while (!isspace(*s) && *s!=0)
s++;
*s=0;
cw_cfg_fdump(sd->out,sd->update_cfg,str);
finish_cmd(sd->out);
return 0;
}
int clear_cmd(struct rpcdata *sd, const char *cmd)
{
cw_cfg_clear(sd->update_cfg);
fprintf(sd->out,"ucfg cleard\n");
finish_cmd(sd->out);
return 0;
}
int
send_cmd(struct rpcdata * sd, const char *cmd)
{
struct wtpman * wtpman;
struct cw_Conn * conn;
wtplist_lock();
conn = find_ap(sd->prompt);
if (conn==NULL){
fprintf(sd->out,"WTP '%s' not found\n",sd->prompt);
goto errX;
}
else {
wtpman=conn->data;
cw_cfg_copy(sd->update_cfg,conn->update_cfg,0,NULL);
wtpman->update=1;
fprintf(sd->out, "Sending update cmd\n");
}
errX:
wtplist_unlock();
finish_cmd(sd->out);
return 0;
}
int
wlan0_cmd(struct rpcdata * sd, const char *cmd)
{
stop();
struct cw_Conn * conn;
wtplist_lock();
conn = find_ap(sd->prompt);
if (conn==NULL){
fprintf(sd->out,"WTP '%s' not found\n",sd->prompt);
}
else {
FILE *f=fopen("wlan0.ktv","r");
fclose(f);
}
wtplist_unlock();
return 0;
}
int set_cmd(struct rpcdata *sd, const char *str)
{
cw_Cfg_t *cfg;
cfg = cw_cfg_create();
cw_cfg_read_from_string(str,cfg);
cw_cfg_fdump(sd->out,cfg,NULL);
cw_cfg_copy(cfg,sd->update_cfg,DBG_CFG_UPDATES,"rpc ucfg");
cw_cfg_destroy(cfg);
finish_cmd(sd->out);
return 0;
}
int load_cmd(struct rpcdata *sd, const char *str)
{
char fn[CW_CFG_MAX_KEY_LEN];
int rc;
const char * dir=cw_cfg_get(sd->global_cfg,"actube/rpc/macros-dir","./rpc-macros");
sprintf(fn,"%s/%s.ckv",dir,str);
rc= cw_cfg_load(fn,sd->update_cfg);
if (rc){
fprintf(sd->out,"Error loading %s: %s\n",fn,strerror(rc));
}
finish_cmd(sd->out);
return 0;
}
int save_cmd(struct rpcdata *sd, const char *str)
{
char fn[CW_CFG_MAX_KEY_LEN];
int rc;
const char * dir=cw_cfg_get(sd->global_cfg,"actube/rpc/macros-dir","./rpc-macros");
sprintf(fn,"%s/%s.ckv",dir,str);
rc= cw_cfg_save(fn,sd->update_cfg,"#\n# Managed by acTube\n#\n\n");
if (rc){
fprintf(sd->out,"Error saving %s: %s\n",fn,strerror(rc));
}
finish_cmd(sd->out);
return 0;
}
int del_cmd(struct rpcdata *sd, const char *str)
{
char *s;
while( isspace( *str ) )
str++;
s=(char*)str;
while (!isspace(*s) && *s!=0)
s++;
*s=0;
fprintf(sd->out,"DEL: '%s'\n",str);
cw_cfg_del(sd->update_cfg,str);
finish_cmd(sd->out);
return 0;
}
void print_mw(FILE *f, int w, const char * str)
{
int n,i;
fprintf(f, "%.*s",w,str);
n=strlen(str);
if ( n>w ){
fprintf(f,"> ");
return;
}
n = w-n;
for(i=0;i<(n+2);i++){
fprintf(f,"%c",' ');
}
}
int show_aps (FILE *out)
{
struct connlist * cl;
mavliter_t it;
wtplist_lock();
cl = wtplist_get_connlist();
mavliter_init (&it, cl->by_addr);
print_mw (out, 16, "AP Name");
print_mw (out, 16, "AP Model");
print_mw (out, 14, "Vendor");
print_mw (out, 16, "IP ");
fprintf(out,"\n");
mavliter_foreach (&it) {
char addr[SOCK_ADDR_BUFSIZE];
const char *vendor;
struct cw_Conn * conn;
conn = mavliter_get_ptr (&it);
print_mw(out,16,cw_cfg_get(conn->remote_cfg, "capwap/wtp-name", "Unknown"));
print_mw(out,16,cw_cfg_get(conn->remote_cfg, "capwap/wtp-board-data/model-no", "Unknown"));
vendor = cw_cfg_get(conn->remote_cfg, "capwap/wtp-board-data/vendor", "0");
print_mw(out,14,vendor);
sock_addr2str_p (&conn->addr, addr);
print_mw(out,16,addr);
fprintf(out,"\n");
}
wtplist_unlock();
return 0;
}
struct cw_Conn * find_ap(const char *name)
{
struct connlist * cl;
mavliter_t it;
cl = wtplist_get_connlist();
mavliter_init (&it, cl->by_addr);
mavliter_foreach (&it) {
const char *wtpname;
struct cw_Conn * conn;
conn = mavliter_get_ptr (&it);
wtpname = cw_cfg_get (conn->remote_cfg, "capwap/wtp-name", NULL);
if (wtpname == NULL)
continue;
if(strcmp(wtpname,name)==0){
return conn;
}
}
return NULL;
}
struct command * find_cmd(const char *cmd)
{
struct command * search,*result;
result=NULL;
search = cmdlist;
while (search->cmd!=NULL){
if (strncmp(cmd,search->cmd,strlen(cmd))==0){
if (result==NULL)
result = search;
else
return NULL;
}
search ++;
}
return result;
}
int execute_cmd (struct rpcdata * sd, const char *str)
{
char cmd[1024];
char args[1024];
int n;
struct command * searchcmd;
args[0]=0;
n = sscanf (str, "%s", cmd);
if (n<=0)
return 0;
searchcmd = find_cmd(cmd);
if (searchcmd!=NULL){
if (searchcmd->fun != NULL){
char *args;
int n;
args = (char*)(str+strlen(cmd));
while( isspace( *args ) )
args++;
n = strlen(args);
n--;
while (n>=0 && isspace(args[n]))
n--;
args[n+1]=0;
return searchcmd->fun(sd, args);
}
}
else{
fprintf(sd->out,"Unknown command: '%s'\n",cmd);
finish_cmd(sd->out);
}
return 0;
}
void rpc_loop (FILE *file, cw_Cfg_t *global_cfg)
{
struct rpcdata sd;
int c;
c=0;
char str[2048];
sd.in = file;
sd.out = file;
sd.global_cfg=global_cfg;
sd.update_cfg=cw_cfg_create();
sprintf(sd.prompt,"%s","*");
sd.quit=0;
do {
str[0]=0;
fgets (str, sizeof (str), file);
if (execute_cmd (&sd, str)) {
break;
}
} while (c != EOF);
}
void * run_rpc_server (void * arg)
{
char sockstr[SOCK_ADDR_BUFSIZE];
struct sockdata * sockdata;
int clientsock;
struct sockaddr_storage client;
socklen_t client_size;
sockdata = (struct sockdata *)arg;
memset(&client,0,sizeof(client));
client_size=sizeof(client);
cw_dbg(DBG_INFO,"Starting RPC Service, listening on: %s (sock fd: %d)",sockdata->name, sockdata->fd);
while(1){
clientsock = accept (sockdata->fd, (struct sockaddr*) &client, &client_size);
if (clientsock == -1){
cw_log (LOG_ERR, "Accept error '%s', %s", "addr", strerror (errno));
return NULL;
}
if (clientsock > 0) {
sock_addr2str_p (&client, sockstr);
cw_dbg (DBG_INFO, "Accepting RPC session from %s", sockstr);
rpc_loop (fdopen (clientsock, "a+"),sockdata->global_cfg);
close (clientsock);
}
}
return NULL;
}
int create_tcp_fd(const char *name)
{
struct sockaddr_storage server; //, client;
int rc;
const char * addr = name;
int sockfd;
int yes;
rc = sock_strtoaddr (addr, (struct sockaddr*) &server);
if (! rc) {
cw_log (LOG_ERR, "Can't parse address '%s', %s", addr, strerror (errno));
return -1;
}
sockfd = socket ( ( (struct sockaddr*) &server)->sa_family, SOCK_STREAM, 0);
yes = 1;
/* reuse address */
setsockopt (sockfd, SOL_SOCKET, SO_REUSEADDR, &yes, sizeof (yes));
/* bind address */
rc = bind (sockfd, (struct sockaddr*) &server, sizeof (struct sockaddr));
if (rc) {
cw_log (LOG_ERR, "Can't bind socket address '%s', %s", addr, strerror (errno));
return -1;
}
return sockfd;
}
static int create_unix_fd(const char *name)
{
struct sockaddr_un addr;
int rc,fd;
unlink(name);
fd = socket(PF_UNIX, SOCK_STREAM, 0);
sock_addrinit((struct sockaddr_storage*)&addr,AF_UNIX);
strncpy(addr.sun_path, name, sizeof(addr.sun_path)-1);
rc = bind(fd, (struct sockaddr*)&addr, sizeof(addr));
if (rc) {
cw_log (LOG_ERR, "Can't bind socket 'unix:%s', %s", name, strerror (errno));
return -1;
}
return fd;
}
int start_rpc(cw_Cfg_t *global_cfg)
{
struct sockdata * sockdata;
const char *sockname;
int rc;
int fd;
rc = cw_cfg_get_bool(global_cfg,"actube/rpc/enable",1);
if (!rc)
return 1;
sockdata = malloc(sizeof(struct sockdata));
if (sockdata==NULL)
return 0;
memset(sockdata,0,sizeof(struct sockdata));
sockdata->global_cfg = global_cfg;
sockdata->fd=-1;
sockname = cw_cfg_get(global_cfg,"actube/rpc/listen",NULL);
if (sockname==NULL) {
cw_log (LOG_ERR, "Can't get RPC listen address from global_cfg 'actube/rpc/listen");
goto errX;
}
if (strncmp("unix:",sockname,strlen("unix:"))==0){
fd = create_unix_fd(strchr(sockname,':')+1);
if (fd==-1)
goto errX;
sockdata->name=cw_strdup(sockname);
sockdata->fd=fd;
}else if (strncmp("tcp:",sockname,strlen("tcp:"))==0){
fd = create_tcp_fd(strchr(sockname,':')+1);
if (fd==-1)
goto errX;
sockdata->name=cw_strdup(sockname);
sockdata->fd=fd;
}else {
fd = create_tcp_fd(sockname);
if (fd==-1)
goto errX;
sockdata->name=cw_strdup(sockname);
sockdata->fd=fd;
}
rc = listen (sockdata->fd, 5);
if (rc) {
cw_log (LOG_ERR, "Can't listen on address '%s', %s", "addr", strerror (errno));
goto errX;
}
pthread_t thread;
pthread_create (&thread, NULL, run_rpc_server,
sockdata);
return 1;
errX:
if (sockdata->fd!=-1)
close(sockdata->fd);
if (sockdata->name)
free((void*)sockdata->name);
free(sockdata);
return 0;
}

491
src/ac/shell.c
View File

@ -1,491 +0,0 @@
#include <stdio.h>
#include <errno.h>
#include <string.h>
#include <sys/types.h>
#include <sys/socket.h>
#include "cw/sock.h"
#include "cw/log.h"
#include "cw/dbg.h"
#include "cw/connlist.h"
#include "wtplist.h"
struct shelldata{
FILE *out;
char prompt[1024];
mavl_t update_cfg;
};
void select_cmd(struct shelldata *sd, const char *cmd);
void list_cmd(struct shelldata *sd, const char * cmd);
void cfg_cmd(struct shelldata *sd, const char * cmd);
void ucfg_cmd(struct shelldata *sd, const char * cmd);
void set_cmd(struct shelldata *sd, const char * cmd);
void del_cmd(struct shelldata *sd, const char * cmd);
void send_cmd(struct shelldata *sd, const char * cmd);
void wlan0_cmd(struct shelldata *sd, const char * cmd);
void show_cfg (FILE *out, mavl_t ktv);
void show_aps (FILE *out);
struct conn * find_ap(const char *name);
struct command{
char * cmd;
void (*fun)();
};
static struct command cmdlist[]={
{"cfg", cfg_cmd },
{"del", del_cmd },
{"ucfg", ucfg_cmd},
{"list", list_cmd },
{"select", select_cmd },
{"send", send_cmd},
{"set", set_cmd },
{"wlan0",wlan0_cmd},
{NULL,NULL}
};
void select_cmd(struct shelldata *sd, const char *cmd)
{
char ap [CAPWAP_MAX_WTP_NAME_LEN];
sscanf(cmd,"%s",ap);
strcpy(sd->prompt,ap);
}
void list_cmd(struct shelldata *sd, const char *cmd)
{
show_aps(sd->out);
}
void cfg_cmd(struct shelldata *sd, const char *cmd)
{
struct conn * conn;
wtplist_lock();
conn = find_ap(sd->prompt);
if (conn==NULL){
fprintf(sd->out,"WTP '%s' not found\n",sd->prompt);
}
else {
show_cfg(sd->out,conn->remote_cfg);
}
wtplist_unlock();
}
void ucfg_cmd(struct shelldata *sd, const char *cmd)
{
struct conn * conn;
show_cfg(sd->out,sd->update_cfg);
}
#include "wtpman.h"
void
send_cmd(struct shelldata * sd, const char *cmd)
{
struct conn * conn;
wtplist_lock();
conn = find_ap(sd->prompt);
if (conn==NULL){
fprintf(sd->out,"WTP '%s' not found\n",sd->prompt);
}
else {
conn->update_cfg=sd->update_cfg;
}
wtplist_unlock();
}
void
wlan0_cmd(struct shelldata * sd, const char *cmd)
{
struct conn * conn;
wtplist_lock();
conn = find_ap(sd->prompt);
if (conn==NULL){
fprintf(sd->out,"WTP '%s' not found\n",sd->prompt);
}
else {
FILE *f=fopen("wlan0.ktv","r");
cw_ktv_read_file(f,sd->update_cfg,conn->msgset->types_tree);
//conn->update_cfg=sd->update_cfg;
fclose(f);
}
wtplist_unlock();
}
void set_cmd(struct shelldata *sd, const char *str)
{
struct conn * conn;
struct cw_Val_Reader r;
char key[CW_KTV_MAX_KEY_LEN];
char type[CW_KTV_MAX_KEY_LEN];
char val[2048];
cw_ktv_init_str_reader(&r,str,strlen(str));
cw_ktv_parse_string(&r,key,type,val);
/*cw_ktv_parse_string(key,type,val, 2048);*/
fprintf(sd->out,"%s :%s: %s\n",key,type,val);
cw_ktv_add(sd->update_cfg,key,CW_TYPE_STR,NULL,val,strlen(val));
}
void del_cmd(struct shelldata *sd, const char *str)
{
char key[CW_KTV_MAX_KEY_LEN];
sscanf(str,"%s",key);
cw_ktv_del_sub(sd->update_cfg,key);
}
void show_cfg (FILE *out, mavl_t ktv)
{
char value[500];
struct cw_Val * data;
mavliter_t it;
const struct cw_Type * type;
mavliter_init(&it,ktv);
mavliter_foreach(&it){
data = mavliter_get(&it);
type = data->type;
type->to_str(data,value,0);
fprintf(out,"%s :%s: %s\n",data->key,type->get_type_name(data), value);
}
}
void show_aps (FILE *out)
{
struct connlist * cl;
mavliter_t it;
wtplist_lock();
cl = wtplist_get_connlist();
mavliter_init (&it, cl->by_addr);
fprintf (out, "IP\t\t\twtp-name\n");
mavliter_foreach (&it) {
cw_Val_t * result;
char addr[SOCK_ADDR_BUFSIZE];
char wtp_name[CAPWAP_MAX_WTP_NAME_LEN];
struct conn * conn;
conn = mavliter_get_ptr (&it);
sock_addr2str_p (&conn->addr, addr);
result = cw_ktv_get (conn->remote_cfg, "wtp-name", NULL);
if (result == NULL) {
strcpy (wtp_name, "");
} else {
result->type->to_str (result, wtp_name, CAPWAP_MAX_WTP_NAME_LEN);
}
fprintf (out, "%s\t\t%s\n", addr, wtp_name);
}
wtplist_unlock();
}
struct conn * find_ap(const char *name)
{
struct connlist * cl;
mavliter_t it;
/*wtplist_lock();*/
cl = wtplist_get_connlist();
mavliter_init (&it, cl->by_addr);
mavliter_foreach (&it) {
cw_Val_t * result;
char wtp_name[CAPWAP_MAX_WTP_NAME_LEN];
struct conn * conn;
conn = mavliter_get_ptr (&it);
result = cw_ktv_get (conn->remote_cfg, "wtp-name", NULL);
if (result == NULL) {
strcpy (wtp_name, "");
} else {
result->type->to_str (result, wtp_name, CAPWAP_MAX_WTP_NAME_LEN);
}
printf("cmp '%s' : '%s'\n",wtp_name,name);
if(strcmp(wtp_name,name)==0){
return conn;
}
}
return NULL;
/*wtplist_unlock();*/
}
void con (FILE *out)
{
struct connlist * cl;
mavliter_t it;
wtplist_lock();
cl = wtplist_get_connlist();
mavliter_init (&it, cl->by_addr);
fprintf (out, "IP\t\t\twtp-name\n");
mavliter_foreach (&it) {
cw_Val_t * result;
char addr[SOCK_ADDR_BUFSIZE];
char wtp_name[CAPWAP_MAX_WTP_NAME_LEN];
struct conn * conn;
conn = mavliter_get_ptr (&it);
sock_addr2str_p (&conn->addr, addr);
result = cw_ktv_get (conn->remote_cfg, "wtp-name", NULL);
if (result == NULL) {
strcpy (wtp_name, "");
} else {
result->type->to_str (result, wtp_name, CAPWAP_MAX_WTP_NAME_LEN);
}
fprintf (out, "Con!! %s\t\t%s\n", addr, wtp_name);
{
mavl_t update;
update = cw_ktv_create();
cw_ktv_set_byte(update,"radio.255/admin-state",1);
conn->update_cfg=update;
}
fprintf(out,"\n");
}
wtplist_unlock();
}
struct command * find_cmd(const char *cmd)
{
struct command * search;
search = cmdlist;
while (search->cmd!=NULL){
if (strncmp(cmd,search->cmd,strlen(cmd))==0){
return search;
}
search ++;
}
return NULL;
}
void execute_cmd (struct shelldata * sd, const char *str)
{
char cmd[1024];
char args[1024];
int n;
struct cw_Val_Reader reader;
struct command * searchcmd;
args[0]=0;
n = sscanf (str, "%s", cmd);
if (n<=0)
return;
searchcmd = find_cmd(cmd);
if (searchcmd!=NULL){
if (searchcmd->fun != NULL){
fprintf(sd->out,"%s %s\n", searchcmd->cmd,str+strlen(cmd));
searchcmd->fun(sd, str+strlen(cmd));
}
}
else{
fprintf(sd->out,"Unknown command: '%s'\n",cmd);
}
return;
char key[CW_KTV_MAX_KEY_LEN];
char type[128];
char val[2048];
key[0]=0;
type[0]=0;
val[0]=0;
cw_ktv_init_str_reader(&reader,str, strlen(str));
n = cw_ktv_parse_string(&reader, key,type,val);
if (n==-1){
int i;
fprintf(sd->out,"Error on pos %d\n",reader.pos);
fprintf(sd->out,"%s",str);
for(i=0;i<reader.pos;i++){
fprintf(sd->out," ");
}
fprintf(sd->out,"^\n");
fprintf(sd->out,"%s\n",reader.error);
}
else{
fprintf(sd->out,"%s :%s: %s\n", key,type,val);
}
return;
n = sscanf (str, "%s%s", cmd, args);
if (n<=0)
return;
/*printf("CMD: %s, ARGS:\n",cmd);*/
if (strcmp (cmd, "s") == 0) {
show_aps (sd->out);
return;
}
if (strcmp (cmd, "con")==0){
con(sd->out);
return;
}
}
void shell_loop (FILE *file)
{
struct shelldata sd;
int c;
c=0;
/* setvbuf(file,NULL,_IONBF,0);
fflush(file);
*/
char str[2048];
sd.update_cfg = cw_ktv_create();
sd.out = file;
sprintf(sd.prompt,"%s","*");
do {
fprintf (file, "actube[%s]:>", sd.prompt);
fflush (file);
str[0]=0;
fgets (str, sizeof (str), file);
execute_cmd (&sd, str);
} while (c != EOF);
}
void * run_shell (void * arg)
{
struct sockaddr_storage server, client;
socklen_t client_size;
char sockstr[SOCK_ADDR_BUFSIZE];
int rc;
const char * addr = "127.0.0.1:5000";
int sockfd, clientsock;
int yes;
cw_dbg(DBG_INFO,"Staring shelli listening at: %s",addr);
rc = sock_strtoaddr (addr, (struct sockaddr*) &server);
if (! rc) {
cw_log (LOG_ERR, "Can't parse address '%s', %s", addr, strerror (errno));
}
sockfd = socket ( ( (struct sockaddr*) &server)->sa_family, SOCK_STREAM, 0);
yes = 1;
/* reuse address */
setsockopt (sockfd, SOL_SOCKET, SO_REUSEADDR, &yes, sizeof (yes));
/* bind address */
rc = bind (sockfd, (struct sockaddr*) &server, sizeof (server));
if (rc) {
cw_log (LOG_ERR, "Can't bind socket address '%s', %s", addr, strerror (errno));
}
rc = listen (sockfd, 5);
if (rc) {
cw_log (LOG_ERR, "Can't listen on address '%s', %s", addr, strerror (errno));
}
client_size = sizeof (client);
while(1){
clientsock = accept (sockfd, (struct sockaddr*) &client, &client_size);
if (clientsock > 0) {
sock_addr2str_p (&client, sockstr);
cw_dbg (DBG_INFO, "Acceptiong session from %s", sockstr);
cw_dbg (DBG_INFO, "Start shell");
shell_loop (fdopen (clientsock, "a+"));
cw_dbg (DBG_INFO, "Stop shell");
close (clientsock);
}
cw_dbg (DBG_INFO,"Accepting shell session %i, %s", rc, strerror (errno));
}
return NULL;
}
void start_shell()
{
pthread_t thread;
pthread_create (&thread, NULL, run_shell,
NULL);
}

11
src/ac/socklist.c
View File

@ -335,7 +335,7 @@ static int socklist_check_size()
} }
int socklist_add_unicast(const char *addr, const char *port, int ac_proto) int socklist_add_unicast(const char *addr, const char *port, int ac_proto, int ipv4, int ipv6)
{ {
char sock_buf[SOCK_ADDR_BUFSIZE]; char sock_buf[SOCK_ADDR_BUFSIZE];
struct addrinfo hints; struct addrinfo hints;
@ -365,6 +365,14 @@ int socklist_add_unicast(const char *addr, const char *port, int ac_proto)
struct sockaddr *sa; struct sockaddr *sa;
int sockfd; int sockfd;
if (res->ai_addr->sa_family == AF_INET && !ipv4){
continue;
}
if (res->ai_addr->sa_family == AF_INET6 && !ipv6){
continue;
}
ifname[0] = 0; ifname[0] = 0;
rc = sock_getifinfo(res->ai_addr, ifname, &broadcast, &netmask); rc = sock_getifinfo(res->ai_addr, ifname, &broadcast, &netmask);
if (!rc) { if (!rc) {
@ -372,6 +380,7 @@ int socklist_add_unicast(const char *addr, const char *port, int ac_proto)
continue; continue;
} }
/* Bind the control port */ /* Bind the control port */
sa = res->ai_addr; sa = res->ai_addr;
sockfd = socket(res->ai_addr->sa_family, SOCK_DGRAM, 0); sockfd = socket(res->ai_addr->sa_family, SOCK_DGRAM, 0);

2
src/ac/socklist.h
View File

@ -40,7 +40,7 @@ struct socklistelem{
extern int socklist_add_multicast(const char * addr, const char * port, int ac_proto); extern int socklist_add_multicast(const char * addr, const char * port, int ac_proto);
extern int socklist_add_unicast(const char *addr, const char * port, int ac_proto); extern int socklist_add_unicast(const char *addr, const char * port, int ac_proto, int ipv4, int ipv6);
extern int socklist_add_broadcast(const char *addr, const char * port,int ac_proto); extern int socklist_add_broadcast(const char *addr, const char * port,int ac_proto);
extern int socklist_init(); extern int socklist_init();
extern void socklist_destroy(); extern void socklist_destroy();

137
src/ac/statemachine.c Normal file
View File

@ -0,0 +1,137 @@
#include <stdint.h>
#include <mavl.h>
#include "cw/capwap.h"
#include "cw/dbg.h"
#include "statemachine.h"
static cw_StateMachineState_t statemachine_states[];
int cw_statemachine_run(struct cw_StateMachine * mach)
{
struct mavl * st = cw_statemachine_load_states(NULL,statemachine_states);
mavl_destroy(st);
return 0;
}
static cw_StateMachineState_t statemachine_states[]={
{ CW_STATE_NONE, CAPWAP_STATE_DISCOVERY, /* transition */
NULL,0 /* timer */
}
,
{
CAPWAP_STATE_DTLS_SETUP, CAPWAP_STATE_JOIN, /* transition */
"wait-join",CAPWAP_WAIT_JOIN, /* timer */
1 /* retval */
}
,
{
CAPWAP_STATE_JOIN,CAPWAP_STATE_TIMEOUT,
NULL,0,
0, "WTP Join timeout"
}
,
{
CAPWAP_STATE_JOIN, CAPWAP_STATE_JOIN,
NULL,0,
1, "WTP has joined"
}
,
{
CAPWAP_STATE_JOIN, CAPWAP_STATE_CONFIGURE,
"capwap-timers/change-state-pending-timer",CAPWAP_TIMER_CHANGE_STATE_PENDING_TIMER,
1, NULL
}
,
{
CAPWAP_STATE_CONFIGURE,CAPWAP_STATE_TIMEOUT,
NULL,0,
0, "WTP change state timeout"
}
,
{
CAPWAP_STATE_CONFIGURE,CAPWAP_STATE_DATA_CHECK,
"capwap-timers/data-check-timer",CAPWAP_TIMER_DATA_CHECK_TIMER,
1, NULL
}
,
{
CAPWAP_STATE_DATA_CHECK,CAPWAP_STATE_TIMEOUT,
NULL,0,
0, "WTP data check timeout"
}
,
{
CAPWAP_STATE_DATA_CHECK,CAPWAP_STATE_RUN,
"capwap-timers/echo-interval",CAPWAP_ECHO_INTERVAL,
1, NULL
}
,
{
CAPWAP_STATE_RUN,CAPWAP_STATE_RUN,
"capwap-timers/echo-interval",CAPWAP_ECHO_INTERVAL,
1, NULL
}
,
{
CAPWAP_STATE_RUN,CAPWAP_STATE_TIMEOUT,
NULL,0,
0, "WTP echo timout"
}
,
{0,0,0}
};
static int cmp_statemachine_state(const void *state1, const void *state2)
{
const struct cw_StateMachineState *s1 = state1;
const struct cw_StateMachineState *s2 = state2;
int rc;
rc = s1->state - s2->state;
if (rc!=0)
return rc;
return s1->prevstate-s2->prevstate;
}
struct mavl * cw_statemachine_load_states (struct mavl * statemachine_states, cw_StateMachineState_t * states)
{
cw_StateMachineState_t * s;
int replaced;
cw_dbg(DBG_STATE,"Loading State Machine States");
if (statemachine_states == NULL){
statemachine_states = mavl_create(cmp_statemachine_state,NULL,sizeof(cw_StateMachineState_t));
if (statemachine_states == NULL)
return NULL;
}
s=states;
while (s->state != 0){
const char * repstr;
mavl_replace(statemachine_states,s,&replaced);
if (replaced){
repstr = "Replacing";
}
else{
repstr = "Adding";
}
cw_dbg(DBG_STATE," %s: [%s->%s]",repstr,
cw_strstate(s->prevstate),
cw_strstate(s->state));
s++;
}
return NULL;
}

13
src/ac/statemachine.h Normal file
View File

@ -0,0 +1,13 @@
#ifndef STATEMACHINE_H
#define STATEMACHINE_H
struct cw_StateMachine{
uint8_t prevstate,currentstate;
};
struct mavl * cw_statemachine_load_states (struct mavl * statemachine_states, cw_StateMachineState_t * states);
int cw_statemachine_run(struct cw_StateMachine * mach);
#endif

8
src/ac/wtplist.c
View File

@ -71,17 +71,17 @@ void wtplist_destroy()
struct wtpman * wtplist_get(const struct sockaddr * addr) struct wtpman * wtplist_get(const struct sockaddr * addr)
{ {
struct conn * conn = connlist_get(connlist,addr); struct cw_Conn * conn = connlist_get(connlist,addr);
if (!conn) if (!conn)
return 0; return 0;
return conn->data; return conn->data;
} }
struct wtpman * wtplist_get_by_session_id(bstr16_t *session_id) struct wtpman * wtplist_get_by_session_id(bstr16_t session_id)
{ {
struct conn search; struct cw_Conn search;
struct conn * conn; struct cw_Conn * conn;
search.session_id = session_id; search.session_id = session_id;
/*memcpy (search.session_id, session_id,16);*/ /*memcpy (search.session_id, session_id,16);*/

2
src/ac/wtplist.h
View File

@ -13,7 +13,7 @@ extern struct wtpman * wtplist_add(struct wtpman * wtpman);
extern void wtplist_remove(struct wtpman * wtpman); extern void wtplist_remove(struct wtpman * wtpman);
extern void wtplist_lock(); extern void wtplist_lock();
extern void wtplist_unlock(); extern void wtplist_unlock();
extern struct wtpman * wtplist_get_by_session_id(bstr16_t *session_id); extern struct wtpman * wtplist_get_by_session_id(bstr16_t session_id);
struct connlist * wtplist_get_connlist(void); struct connlist * wtplist_get_connlist(void);
#endif #endif

676
src/ac/wtpman.c
View File

@ -37,7 +37,6 @@
#include "ac.h" #include "ac.h"
#include "conf.h" #include "conf.h"
#include "db.h"
#include "socklist.h" #include "socklist.h"
#include "wtpman.h" #include "wtpman.h"
#include "wtplist.h" #include "wtplist.h"
@ -45,33 +44,7 @@
#include "actube.h" #include "actube.h"
static void reset_echointerval_timer(struct wtpman *wtpman) #include "cw/dot11.h"
{
/* char sock_buf[SOCK_ADDR_BUFSIZE];*/
/* uint16_t ct = mbag_get_word(wtpman->conn->local, CW_ITEM_CAPWAP_TIMERS,
CW_MAX_DISCOVERY_INTERVAL << 8 |
CAPWAP_ECHO_INTERVAL);
*/
/* start echinterval timer and put 2 seconds for "safety" on it */
/*
// wtpman->echointerval_timer = cw_timer_start(2+ (ct & 0xff));
// db_ping_wtp(sock_addr2str_p(&wtpman->conn->addr,sock_buf), conf_acname);
// cw_dbg(DBG_X, "Starting capwap timer: %d", wtpman->echointerval_timer);
*/
}
static int msg_start_handler(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len, struct sockaddr *from)
{
struct wtpman *wtpman = conn->data;
reset_echointerval_timer(wtpman);
return 0;
}
static void wtpman_remove(struct wtpman *wtpman) static void wtpman_remove(struct wtpman *wtpman)
@ -86,6 +59,7 @@ static void wtpman_remove(struct wtpman *wtpman)
static void wtpman_run_discovery(void *arg) static void wtpman_run_discovery(void *arg)
{ {
struct wtpman *wtpman = (struct wtpman *) arg; struct wtpman *wtpman = (struct wtpman *) arg;
time_t timer = cw_timer_start(10); time_t timer = cw_timer_start(10);
@ -97,20 +71,24 @@ static void wtpman_run_discovery(void *arg)
&& wtpman->conn->capwap_state == CAPWAP_STATE_DISCOVERY) { && wtpman->conn->capwap_state == CAPWAP_STATE_DISCOVERY) {
int rc; int rc;
rc = cw_read_messages(wtpman->conn); rc = cw_read_messages(wtpman->conn);
if (cw_result_is_ok(rc)) { if (cw_result_is_ok(rc)) {
wtpman->conn->capwap_state = CAPWAP_STATE_JOIN; wtpman->conn->capwap_state = CAPWAP_STATE_JOIN;
cw_dbg(DBG_INFO, "Discovery has detected mods: %s %s", cw_dbg(DBG_INFO, "Discovery has detected mods: %s %s",
wtpman->conn->cmod->name,wtpman->conn->bmod->name); wtpman->conn->cmod->name,
wtpman->conn->bmod->name);
wtplist_lock(); wtplist_lock();
discovery_cache_add(discovery_cache,(struct sockaddr*)&wtpman->conn->addr, discovery_cache_add(discovery_cache,
wtpman->conn->cmod,wtpman->conn->bmod); (struct sockaddr *) &wtpman->conn->
addr, wtpman->conn->cmod,
wtpman->conn->bmod);
wtplist_unlock(); wtplist_unlock();
} }
} }
return; return;
} }
@ -129,28 +107,32 @@ static int wtpman_dtls_setup(void *arg)
} }
cw_dbg(DBG_DTLS, "DTLS session established with %s, %s", cw_dbg(DBG_DTLS, "DTLS session established with %s, %s",
sock_addr2str_p(&wtpman->conn->addr,sock_buf), dtls_get_cipher(wtpman->conn,cipherstr)); sock_addr2str_p(&wtpman->conn->addr, sock_buf),
dtls_get_cipher(wtpman->conn, cipherstr));
return 1; return 1;
} }
/*
static int wtpman_join(void *arg) static int wtpman_join(void *arg)
{ {
int rc; int rc;
char sock_buf[SOCK_ADDR_BUFSIZE]; char sock_buf[SOCK_ADDR_BUFSIZE];
struct wtpman *wtpman = (struct wtpman *) arg; struct wtpman *wtpman = (struct wtpman *) arg;
struct conn *conn = wtpman->conn; struct cw_Conn *conn = wtpman->conn;
time_t timer, wait_join; time_t timer, wait_join;
cw_dbg(DBG_INFO, "Join State - %s", sock_addr2str(&conn->addr,sock_buf)); cw_dbg(DBG_INFO, "Join State - %s",
sock_addr2str(&conn->addr, sock_buf));
wait_join = cw_ktv_get_word(conn->global_cfg,"wait-join",CAPWAP_WAIT_JOIN); wait_join =
cw_ktv_get_word(conn->global_cfg, "wait-join", CAPWAP_WAIT_JOIN);
timer = cw_timer_start(wait_join); timer = cw_timer_start(wait_join);
while (!cw_timer_timeout(timer) && wtpman->conn->capwap_state == CAPWAP_STATE_JOIN) { while (!cw_timer_timeout(timer)
&& wtpman->conn->capwap_state == CAPWAP_STATE_JOIN) {
rc = cw_read_messages(wtpman->conn); rc = cw_read_messages(wtpman->conn);
if (rc < 0) { if (rc < 0) {
if (errno == EAGAIN) if (errno == EAGAIN)
@ -170,7 +152,8 @@ static int wtpman_join(void *arg)
if (wtpman->conn->capwap_state != CAPWAP_STATE_JOIN_COMPLETE) { if (wtpman->conn->capwap_state != CAPWAP_STATE_JOIN_COMPLETE) {
cw_dbg(DBG_MSG_ERR, "No join request from %s after %d seconds, WTP died.", cw_dbg(DBG_MSG_ERR,
"No join request from %s after %d seconds, WTP died.",
sock_addr2str(&wtpman->conn->addr, sock_buf), wait_join); sock_addr2str(&wtpman->conn->addr, sock_buf), wait_join);
return 0; return 0;
@ -181,11 +164,14 @@ static int wtpman_join(void *arg)
} }
*/
static void wtpman_image_data(struct wtpman *wtpman)
void wtpman_image_data(struct wtpman *wtpman)
{ {
/* char sock_buf[SOCK_ADDR_BUFSIZE]; /* char sock_buf[SOCK_ADDR_BUFSIZE];
struct conn *conn = wtpman->conn; struct cw_Conn *conn = wtpman->conn;
// Image upload // Image upload
const char *filename = mbag_get_str(conn->outgoing, CW_ITEM_IMAGE_FILENAME, NULL); const char *filename = mbag_get_str(conn->outgoing, CW_ITEM_IMAGE_FILENAME, NULL);
@ -247,7 +233,7 @@ void * wtpman_run_data(void *wtpman_arg)
return NULL; return NULL;
/* /*
struct wtpman *wtpman = (struct wtpman *) wtpman_arg; struct wtpman *wtpman = (struct wtpman *) wtpman_arg;
struct conn *conn = wtpman->conn; struct cw_Conn *conn = wtpman->conn;
uint8_t data[1001]; uint8_t data[1001];
@ -263,7 +249,9 @@ void * wtpman_run_data(void *wtpman_arg)
} }
int cw_run_state_machine(struct conn * conn, time_t *timer)
int cw_run_state_machine(struct cw_Conn *conn, time_t * timer)
{ {
int timerval; int timerval;
@ -273,7 +261,7 @@ int cw_run_state_machine(struct conn * conn, time_t *timer)
while (1) { while (1) {
search.state = conn->capwap_state; search.state = conn->capwap_state;
search.prevstate = conn->capwap_prevstate; search.prevstate = conn->capwap_prevstate;
result = mavl_get(conn->msgset->state_machine,&search); result = mavl_get(conn->msgset->statemachine_states, &search);
cw_dbg(DBG_STATE, "State transition: [%s -> %s]", cw_dbg(DBG_STATE, "State transition: [%s -> %s]",
cw_strstate(conn->capwap_prevstate), cw_strstate(conn->capwap_prevstate),
@ -298,9 +286,12 @@ int cw_run_state_machine(struct conn * conn, time_t *timer)
} }
if (result->timer_key) { if (result->timer_key) {
timerval = cw_ktv_get_word(conn->local_cfg,result->timer_key,result->timer_default); timerval =
cw_cfg_get_word(conn->local_cfg, result->timer_key,
result->timer_default);
*timer = cw_timer_start(timerval); *timer = cw_timer_start(timerval);
cw_dbg(DBG_STATE,"Starting timer: [%s] - %d seconds.",result->timer_key,timerval); cw_dbg(DBG_STATE, "Starting timer: [%s] - %d seconds.",
result->timer_key, timerval);
} }
return result->retval; return result->retval;
} }
@ -309,26 +300,110 @@ int cw_run_state_machine(struct conn * conn, time_t *timer)
/*#define CW_TRANSITION(prestate,state) (prestate<<16|state)*/ /*#define CW_TRANSITION(prestate,state) (prestate<<16|state)*/
int run_update(struct wtpman *wtpman)
{
int rc;
if (!wtpman->update)
return EAGAIN;
rc = cw_send_request(wtpman->conn, CAPWAP_MSG_CONFIGURATION_UPDATE_REQUEST);
cw_cfg_clear(wtpman->conn->update_cfg);
wtpman->update=0;
return rc;
}
static int dataman_process_msg(struct cw_Conn *nc, uint8_t * rawmsg, int len,
struct sockaddr *from)
{
char rframe[1000];
int offs = cw_get_hdr_msg_offset(rawmsg);
uint8_t * frame = rawmsg + offs;
int frame_len = len-offs;
cw_dbg_dot11_frame(frame,frame_len);
/* dot11_init_assoc_resp(frame);
dot11_copy_mac(dot11_get_sa(dot11frame),dot11_get_da(frame));
dot11_copy_mac(dot11_get_bssid(dot11frame),dot11_get_bssid(frame));
dot11_copy_mac(dot11_get_da(dot11frame),dot11_get_sa(frame));
dot11_set_seq(frame,0);
*/
if ( dot11_get_type_and_subtype(frame) == DOT11_ASSOC_REQ){
int l;
uint8_t rates[] = {
12,0x82,0x84,0x8b,0x96,0x0c,0x12,0x18,0x24,0x30,0x48,0x60,0x6c
};
cw_dbg(DBG_X, "there is an assoc request!");
uint8_t rframe[1000];
nc->mtu=800;
dot11_init_assoc_resp(rframe);
dot11_set_duration(rframe,100);
dot11_copy_mac(dot11_get_sa(frame),dot11_get_da(rframe));
dot11_copy_mac(dot11_get_bssid(frame),dot11_get_bssid(rframe));
dot11_copy_mac(dot11_get_da(frame),dot11_get_sa(rframe));
dot11_set_seq(rframe,dot11_get_seq(frame));
dot11_assoc_resp_set_cap(rframe,dot11_assoc_req_get_cap(frame));
dot11_assoc_resp_set_status_code(rframe,0);
dot11_assoc_resp_set_assoc_id(rframe,17);
l=24+6;
l+=dot11_put_supported_rates(rframe+l,rates);
cw_dbg_dot11_frame(rframe,l);
uint8_t buf[1024];
int hlen;
hlen = cw_init_capwap_packet(buf,1,0,NULL,NULL);
cw_set_hdr_flags(buf, CAPWAP_FLAG_HDR_T, 1);
cw_send_capwap_packet(nc,buf,hlen,rframe,l);
}
return 0;
}
static void *wtpman_data_main(void *arg)
{
struct wtpman * wtpman = arg;
struct cw_Conn * nc = wtpman->dconn;
nc->process_packet=conn_process_packet;
nc->process_message=dataman_process_msg;
while (1){
time_t timer = cw_timer_start(2);
while (!cw_timer_timeout(timer)){
cw_read_messages(nc);
}
}
}
static void *wtpman_main(void *arg) static void *wtpman_main(void *arg)
{ {
mavl_t r; //mavl_t r;
int rc; int rc;
time_t timer; time_t timer;
char sock_buf[SOCK_ADDR_BUFSIZE]; //char sock_buf[SOCK_ADDR_BUFSIZE];
struct conn *conn; struct cw_Conn *conn;
int last_state; // int last_state;
struct wtpman *wtpman = (struct wtpman *) arg; struct wtpman *wtpman = (struct wtpman *) arg;
wtpman->conn->seqnum = 0; wtpman->conn->seqnum = 0;
conn = wtpman->conn; conn = wtpman->conn;
wtpman->conn->remote_cfg = cw_ktv_create(); // wtpman->conn->remote_cfg = cw_cfg_create();
if (!wtpman->dtlsmode) {
/* We were invoked with an unencrypted packet, /* We were invoked with an unencrypted packet,
* so assume, it is a discovery request */ * so assume, it is a discovery request */
if (!wtpman->dtlsmode){
wtpman_run_discovery(arg); wtpman_run_discovery(arg);
wtpman_remove(wtpman); wtpman_remove(wtpman);
return NULL; return NULL;
@ -355,11 +430,12 @@ static void * wtpman_main(void *arg)
conn->capwap_prevstate = CAPWAP_STATE_DTLS_SETUP; conn->capwap_prevstate = CAPWAP_STATE_DTLS_SETUP;
conn->capwap_state = CAPWAP_STATE_JOIN; conn->capwap_state = CAPWAP_STATE_JOIN;
rc = 0; rc = 0;
wtpman->update=0;
while (1) { while (1) {
int wait_join; //int wait_join;
int wait_change_state; //int wait_change_state;
@ -371,245 +447,28 @@ static void * wtpman_main(void *arg)
while (!cw_timer_timeout(timer)) { while (!cw_timer_timeout(timer)) {
if (conn->update_cfg != NULL){ rc = run_update(wtpman);
mavl_t tmp; if (rc !=EAGAIN)
break;
tmp = conn->local_cfg;
mavl_merge(conn->default_cfg, conn->local_cfg);
/* mavl_merge(conn->default_cfg, conn->remote_cfg);*/
conn->local_cfg=conn->update_cfg;
cw_dbg(DBG_INFO, "Updating WTP %s",sock_addr2str(&conn->addr,sock_buf));
rc = cw_send_request(conn, CAPWAP_MSG_CONFIGURATION_UPDATE_REQUEST);
mavl_merge(conn->remote_cfg,conn->update_cfg);
conn->update_cfg=NULL;
conn->local_cfg=tmp;
}
rc = cw_read_messages(wtpman->conn); rc = cw_read_messages(wtpman->conn);
if (rc < 0) { if (rc < 0) {
if (errno == EAGAIN) if (errno == EAGAIN){
continue; continue;
} }
}
break; break;
} }
if (rc < 0) { if (rc < 0) {
conn->capwap_prevstate = conn->capwap_state; conn->capwap_prevstate = conn->capwap_state;
conn->capwap_state = CAPWAP_STATE_TIMEOUT; conn->capwap_state = CAPWAP_STATE_TIMEOUT;
} }
} }
/* dtls is established, goto join state */
conn->capwap_state = CAPWAP_STATE_JOIN;
if (!wtpman_join(wtpman)) {
wtpman_remove(wtpman);
return NULL;
}
cw_dbg(DBG_INFO, "WTP from %s has joined with session id: %s",
sock_addr2str_p(&conn->addr,sock_buf),
format_bin2hex(conn->session_id,16));
exit(0); exit(0);
/*
// cw_dbg(DBG_INFO, "Creating data thread");
// pthread_t thread;
// pthread_create(&thread, NULL, (void *) wtpman_run_data, (void *) wtpman);
*/
/* here the WTP has joined, now we assume an image data request
or a configuration status request. Nothing else.
*/
rc = 0;
while (!cw_timer_timeout(timer)
&& wtpman->conn->capwap_state == CAPWAP_STATE_CONFIGURE) {
rc = cw_read_messages(wtpman->conn);
if (rc < 0) {
if (errno != EAGAIN)
break;
}
}
cw_dbg_ktv_dump(conn->remote_cfg,DBG_INFO,"-------------dump------------","DMP","---------end dump --------");
if (!cw_result_is_ok(rc)) {
cw_dbg(DBG_INFO, "WTP Problem: %s", cw_strrc(rc));
wtpman_remove(wtpman);
return NULL; return NULL;
}
if (conn->capwap_state == CW_STATE_IMAGE_DATA) {
wtpman_image_data(wtpman);
return NULL;
}
conn->capwap_state = CAPWAP_STATE_RUN;
/*
// XXX testing ...
// DBGX("Cofig to sql", "");
// props_to_sql(conn,conn->incomming,0);
// radios_to_sql(conn);
*/
/*conn->msg_end=msg_end_handler;*/
/* The main run loop */
reset_echointerval_timer(wtpman);
rc = 0;
while (wtpman->conn->capwap_state == CAPWAP_STATE_RUN) {
rc = cw_read_messages(wtpman->conn);
if (rc < 0) {
if (errno != EAGAIN)
break;
}
/*// cw_dbg(DBG_X, "Time left: %d",
// */
/*cw_timer_timeleft(wtpman->echointerval_timer);*/
if (cw_timer_timeout(wtpman->echointerval_timer)) {
cw_dbg(DBG_INFO, "Lost connection to WTP:%s",
sock_addr2str_p(&conn->addr,sock_buf));
break;
}
/*
// mavl_del_all(conn->outgoing);
// conn_clear_upd(conn,1);
// props_to_sql(conn,conn->incomming,0);
// radios_to_sql(conn);
*/
r = db_get_update_tasks(conn, sock_addr2str(&conn->addr,sock_buf));
if (r) {
/*
// if (!conn->outgoing->count)
// continue;
*/
cw_dbg(DBG_INFO, "Updating WTP %s",sock_addr2str(&conn->addr,sock_buf));
rc = cw_send_request(conn, CAPWAP_MSG_CONFIGURATION_UPDATE_REQUEST);
/*
// mavl_merge(conn->config, conn->outgoing);
// mavl_destroy(conn->outgoing);
// conn->outgoing = mbag_create();
// props_to_sql(conn,conn->incomming,0);
// radios_to_sql(conn);
// mavl_destroy(r);
*/
}
r = db_get_radio_tasks(conn, sock_addr2str(&conn->addr,sock_buf));
if (r) {
/*
// if (!conn->radios_upd->count)
// continue;
*/
cw_dbg(DBG_INFO, "Updating Radios for %s",sock_addr2str(&conn->addr,sock_buf));
rc = cw_send_request(conn, CAPWAP_MSG_CONFIGURATION_UPDATE_REQUEST);
/*
// conn_clear_upd(conn,1);
// mavl_destroy(conn->radios_upd);
// conn->radios_upd=mbag_i_create();
// radios_to_sql(conn);
*/
/*
rc = cw_send_request(conn, CW_MSG_CONFIGURATION_UPDATE_REQUEST);
mavl_merge(conn->config, conn->outgoing);
mavl_destroy(conn->outgoing);
conn->outgoing = mbag_create();
config_to_sql(conn);
radios_to_sql(conn);
mavl_destroy(r);
*/
}
}
db_ping_wtp(sock_addr2str_p(&conn->addr,sock_buf), "");
wtpman_remove(wtpman);
return NULL;
}
static void wtpman_run_dtls(void *arg)
{
char sock_buf[SOCK_ADDR_BUFSIZE];
struct wtpman *wtpman = (struct wtpman *) arg;
/* reject connections to our multi- or broadcast sockets */
if (socklist[wtpman->socklistindex].type != SOCKLIST_UNICAST_SOCKET) {
cw_dbg(DBG_DTLS, "Dropping connection from %s to non-unicast socket.",
sock_addr2str_p(&wtpman->conn->addr,sock_buf));
wtpman_remove(wtpman);
return;
}
/*// time_t timer = cw_timer_start(wtpman->conn->wait_dtls);*/
/* establish dtls session */
if (!wtpman_dtls_setup(wtpman)) {
wtpman_remove(wtpman);
return;
}
wtpman_main(arg);
} }
@ -618,46 +477,194 @@ void wtpman_destroy(struct wtpman *wtpman)
{ {
if (wtpman->conn) if (wtpman->conn)
conn_destroy(wtpman->conn); conn_destroy(wtpman->conn);
if (wtpman->wtp_cfg)
cw_cfg_destroy(wtpman->wtp_cfg);
free(wtpman); free(wtpman);
} }
static void copy(struct cw_ElemHandlerParams * params)
{
cw_cfg_copy(params->cfg, params->conn->remote_cfg,DBG_CFG_UPDATES,"GlobalCfg");
}
struct wtpman *wtpman_create(int socklistindex, struct sockaddr *srcaddr, int dtlsmode) static void catch_cfg(struct cw_ElemHandlerParams * params, int create, const char *format, ...)
{
const char *wtpname;
char filename[200];
FILE *f;
cw_Cfg_t * cfg_list[3];
if (!cw_cfg_get_bool(params->conn->global_cfg,"actube/save-initial-wtp-config",0))
return;
cfg_list[0]=params->cfg;
cfg_list[1]=params->conn->remote_cfg;
cfg_list[2]=NULL;
wtpname = cw_cfg_get_l(cfg_list,"capwap/wtp-name","default");
sprintf(filename,"wtp-initial-%s.ckv",wtpname);
if (create)
f = fopen(filename,"w");
else
f = fopen(filename,"a");
if (f==NULL)
return;
if (create)
fprintf(f,"#\n# Initial config for WTP '%s' - catched by ACTube\n#\n\n",wtpname);
if (format !=NULL){
va_list args;
va_start(args,format);
vfprintf(f,format,args);
va_end(args);
}
cw_cfg_write_to_file(f, params->cfg);
fclose(f);
}
static int discovery_cb(struct cw_ElemHandlerParams * params, struct cw_MsgCb_data * d)
{
cw_dbg(DBG_X,"DISCOVERY Callback");
copy(params);
catch_cfg(params,1,"\n#\n# Discovery Request\n#\n");
cw_cfg_clear(params->cfg);
if (d->parent)
return d->parent->fun(params,d->parent);
return 0;
}
static int join_cb(struct cw_ElemHandlerParams * params, struct cw_MsgCb_data *d)
{
catch_cfg(params,0,"\n#\n# Join Request\n#\n");
if (d->parent)
return d->parent->fun(params,d->parent);
return 0;
}
/*
static int fill_update_cfg(struct cw_Conn * conn)
{
struct cw_Cfg_iter cfi;
struct cw_Cfg_entry *e;
cw_Cfg_t * u;
u=cw_cfg_create();
if( cw_cfg_load("status_response.ckv",u)){
cw_log(LOG_ERR,"Cant load file");
stop();
};
cw_cfg_dump(conn->remote_cfg);
cw_cfg_iter_init(u, &cfi, NULL);
while ((e = cw_cfg_iter_next(&cfi, NULL))!=NULL){
const char * r;
r = cw_cfg_get(conn->remote_cfg, e->key, "[]");
// cw_dbg(DBG_CFG_UPDATES,"check: %s: %s",e->key,e->val);
if (strcmp(r,e->val)==0)
continue;
cw_dbg(DBG_CFG_UPDATES,"Status reps: %s: %s -> %s",e->key,r,e->val);
}
return 0;
}
*/
static int cfg_status_cb(struct cw_ElemHandlerParams * params, struct cw_MsgCb_data *d)
{
catch_cfg(params,0,"\n#\n# Configuration Status Request\n#\n");
if (d->parent)
return d->parent->fun(params,d->parent);
return 0;
}
static int event_cb(struct cw_ElemHandlerParams * params, struct cw_MsgCb_data *d)
{
struct cw_Conn * conn = (struct cw_Conn*)params->conn;
struct wtpman * wtpman = (struct wtpman *)conn->data;
char filename[200];
cw_dbg(DBG_X,"WTP EVENT Callback");
copy(params);
const char * wtpname = cw_cfg_get(conn->remote_cfg,"capwap/wtp-name","default");
sprintf(filename,"wtp-event-%d-%s.ckv",wtpman->ctr++,wtpname);
cw_cfg_save(filename,params->cfg,NULL);
return 0;
}
static int change_state_event_cb(struct cw_ElemHandlerParams * params,struct cw_MsgCb_data * d)
{
struct cw_Conn * conn = (struct cw_Conn*)params->conn;
struct wtpman * wtpman = (struct wtpman *)conn->data;
char filename[200];
cw_dbg(DBG_X,"WTP EVENT Callback");
copy(params);
const char * wtpname = cw_cfg_get(conn->remote_cfg,"capwap/wtp-name","default");
sprintf(filename,"wtp-change-event-%d-%s.ckv",wtpman->ctr++,wtpname);
cw_cfg_save(filename,params->cfg,NULL);
return 0;
}
struct wtpman *wtpman_create(int socklistindex, struct sockaddr *srcaddr,
int dtlsmode, cw_Cfg_t * global_cfg)
{ {
struct sockaddr dbgaddr; struct sockaddr dbgaddr;
socklen_t dbgaddrl; socklen_t dbgaddrl;
int sockfd, replyfd; int sockfd, replyfd, data_sockfd,data_replyfd;
char sock_buf[SOCK_ADDR_BUFSIZE]; char sock_buf[SOCK_ADDR_BUFSIZE];
struct wtpman *wtpman; struct wtpman *wtpman;
wtpman = malloc(sizeof(struct wtpman)); wtpman = malloc(sizeof(struct wtpman));
if (!wtpman) if (!wtpman)
return 0; return 0;
memset(wtpman, 0, sizeof(struct wtpman));
wtpman->ctr=0;
if (socklist[socklistindex].type != SOCKLIST_UNICAST_SOCKET) { if (socklist[socklistindex].type != SOCKLIST_UNICAST_SOCKET) {
int port = sock_getport(&socklist[socklistindex].addr); int port = sock_getport(&socklist[socklistindex].addr);
replyfd = socklist_find_reply_socket(srcaddr, port); replyfd = socklist_find_reply_socket(srcaddr, port);
data_replyfd=replyfd;
if (replyfd == -1) { if (replyfd == -1) {
cw_log(LOG_ERR, "Can't find reply socket for request from %s", cw_log(LOG_ERR,
"Can't find reply socket for request from %s",
sock_addr2str(srcaddr, sock_buf)); sock_addr2str(srcaddr, sock_buf));
free(wtpman); free(wtpman);
return NULL; return NULL;
} }
} else { } else {
replyfd = socklist[socklistindex].sockfd; replyfd = socklist[socklistindex].sockfd;
data_replyfd = socklist[socklistindex].data_sockfd;
} }
sockfd = replyfd; /*//socklist[socklistindex].reply_sockfd; */ sockfd = replyfd; /*//socklist[socklistindex].reply_sockfd; */
data_sockfd = data_replyfd;
dbgaddrl = sizeof(dbgaddr); dbgaddrl = sizeof(dbgaddr);
getsockname(sockfd, &dbgaddr, &dbgaddrl); getsockname(sockfd, &dbgaddr, &dbgaddrl);
@ -666,28 +673,58 @@ struct wtpman *wtpman_create(int socklistindex, struct sockaddr *srcaddr, int dt
sock_addr2str(&dbgaddr, sock_buf), sock_getport(&dbgaddr)); sock_addr2str(&dbgaddr, sock_buf), sock_getport(&dbgaddr));
memset(wtpman, 0, sizeof(struct wtpman));
wtpman->conn = conn_create(sockfd, srcaddr, 100); wtpman->global_cfg = global_cfg;
wtpman->conn->role = CW_ROLE_AC;
wtpman->conn->data_sock = socklist[socklistindex].data_sockfd;
sock_copyaddr(&wtpman->conn->data_addr, (struct sockaddr *) &wtpman->conn->addr);
wtpman->conn = cw_conn_create(sockfd, srcaddr, 100);
if (!wtpman->conn) { if (!wtpman->conn) {
wtpman_destroy(wtpman); wtpman_destroy(wtpman);
return NULL; return NULL;
} }
wtpman->dconn = cw_conn_create(data_sockfd, srcaddr, 100);
if (!wtpman->dconn) {
wtpman_destroy(wtpman);
return NULL;
}
cw_conn_register_msg_cb(wtpman->conn,
CAPWAP_MSG_DISCOVERY_REQUEST,
discovery_cb);
wtpman->conn->global_cfg = global_cfg;
wtpman->conn->local_cfg = cw_cfg_create();
wtpman->wtp_cfg = cw_cfg_create();
wtpman->conn->role = CW_ROLE_AC;
wtpman->conn->data=wtpman;
wtpman->dconn->data=wtpman;
wtpman->conn->cfg_list[0]=wtpman->conn->update_cfg;
wtpman->conn->cfg_list[1]=wtpman->conn->remote_cfg;
wtpman->conn->cfg_list[2]=wtpman->conn->local_cfg;
wtpman->conn->cfg_list[3]=wtpman->conn->global_cfg;
wtpman->conn->cfg_list[4]=NULL;
wtpman->conn->data_sock = socklist[socklistindex].data_sockfd;
sock_copyaddr(&wtpman->conn->data_addr,
(struct sockaddr *) &wtpman->conn->addr);
wtpman->conn->mods = conf_mods; // wtpman->conn->mods = conf_mods;
wtpman->conn->strict_capwap = conf_strict_capwap; wtpman->conn->strict_capwap = conf_strict_capwap;
wtpman->conn->strict_hdr = conf_strict_headers; wtpman->conn->strict_hdr = conf_strict_headers;
// wtpman->conn->setup_complete = setup_complete;
/* /*
// wtpman->conn->radios = mbag_i_create(); // wtpman->conn->radios = mbag_i_create();
// wtpman->conn->radios_upd = mbag_i_create(); // wtpman->conn->radios_upd = mbag_i_create();
@ -698,9 +735,6 @@ struct wtpman *wtpman_create(int socklistindex, struct sockaddr *srcaddr, int dt
*/ */
wtpman->conn->local_cfg = cw_ktv_create();
wtpman->conn->global_cfg = actube_global_cfg;
wtpman->conn->local_cfg = actube_global_cfg;
/* when created caused by a packet in DTLS mode, we try /* when created caused by a packet in DTLS mode, we try
* to find out the modules to load, for detected connection * to find out the modules to load, for detected connection
@ -709,15 +743,46 @@ struct wtpman *wtpman_create(int socklistindex, struct sockaddr *srcaddr, int dt
int rc; int rc;
struct cw_Mod *cmod, *bmod; struct cw_Mod *cmod, *bmod;
rc = discovery_cache_get(discovery_cache,srcaddr,&cmod,&bmod); rc = discovery_cache_get(discovery_cache, srcaddr, &cmod,
&bmod);
if (rc) { if (rc) {
cw_dbg(DBG_INFO, "Initializing with mod %s %s",cmod->name,bmod->name); cw_dbg(DBG_INFO, "Initializing with mod %s %s",
wtpman->conn->msgset = cw_mod_get_msg_set(wtpman->conn,cmod,bmod); cmod->name, bmod->name);
wtpman->conn->msgset =
cw_mod_get_msg_set(wtpman->conn, cmod, bmod);
wtpman->dconn->msgset=wtpman->conn->msgset;
wtpman->conn->detected = 1; wtpman->conn->detected = 1;
cmod->setup_cfg(wtpman->conn); cmod->setup_cfg(wtpman->conn);
// if (wtpman->conn->setup_complete)
// wtpman->conn->setup_complete(wtpman->conn);
cw_conn_register_msg_cb(wtpman->conn,
CAPWAP_MSG_JOIN_REQUEST,
join_cb);
cw_conn_register_msg_cb(wtpman->conn,
CAPWAP_MSG_CONFIGURATION_STATUS_REQUEST,
cfg_status_cb);
cw_conn_register_msg_cb(wtpman->conn,
CAPWAP_MSG_WTP_EVENT_REQUEST,
event_cb);
/* cw_conn_register_msg_cb(wtpman->conn,
CAPWAP_MSG_CHANGE_STATE_EVENT_REQUEST,
change_state_event_cb);*/
} }
} }
cw_dbg(DBG_X,"WTPMAN_CREATED: %p",wtpman);
return wtpman; return wtpman;
} }
@ -731,12 +796,15 @@ void wtpman_start(struct wtpman *wtpman, int dtlsmode)
{ {
cw_dbg(DBG_INFO, "Starting wtpman, DTLS mode = %d", dtlsmode); cw_dbg(DBG_INFO, "Starting wtpman, DTLS mode = %d", dtlsmode);
wtpman->dtlsmode = dtlsmode; wtpman->dtlsmode = dtlsmode;
pthread_create(&wtpman->thread, NULL, wtpman_main, pthread_create(&wtpman->thread, NULL, wtpman_main, (void *) wtpman);
(void *) wtpman); pthread_create(&wtpman->thread, NULL, wtpman_data_main, (void *) wtpman);
return; return;
} }
void wtpman_datapacket(struct wtpman *wtpman, uint8_t * packet, int len)
{
conn_q_add_packet(wtpman->dconn, packet, len);
}

23
src/ac/wtpman.h
View File

@ -8,13 +8,16 @@
#include "cw/capwap.h" #include "cw/capwap.h"
#include "cw/fragman.h" #include "cw/fragman.h"
#include "cw/timer.h" #include "cw/timer.h"
#include "cw/cfg.h"
#include "cw/capwap.h"
#define WTPMAN_QSIZE 1024 #define WTPMAN_QSIZE 1024
struct wtpman { struct wtpman {
pthread_t thread; pthread_t thread;
struct conn * conn; struct cw_Conn *conn;
struct cw_Conn *dconn;
/* wtp data */ /* wtp data */
@ -30,7 +33,21 @@ struct wtpman{
cw_timer_t echointerval_timer; cw_timer_t echointerval_timer;
cw_Cfg_t * global_cfg; /**< contains the cfg of AC,
visible to all wtpman threads.
The global cfg was initally read
from a .ckv file on startup.
*/
cw_Cfg_t * wtp_cfg;
cw_Cfg_t * discovery_cfg;
cw_Cfg_t * join_cfg;
cw_Cfg_t * config_status_cfg;
int update;
int ctr;
}; };
/* /*
@ -45,11 +62,13 @@ struct wtp{
struct wtpman *wtpman_create(); struct wtpman *wtpman_create();
struct wtpman * wtpman_create(int socklistindex,struct sockaddr * srcaddr, int dtlsmode); struct wtpman *wtpman_create(int socklistindex, struct sockaddr *srcaddr,
int dtlsmode, cw_Cfg_t * global_cfg);
extern void wtpman_addpacket(struct wtpman *wtpman, uint8_t * packet, int len); extern void wtpman_addpacket(struct wtpman *wtpman, uint8_t * packet, int len);
extern void wtpman_destroy(struct wtpman *wtpman); extern void wtpman_destroy(struct wtpman *wtpman);
extern void wtpman_start(struct wtpman *wtpman, int dtlsmode); extern void wtpman_start(struct wtpman *wtpman, int dtlsmode);
void wtpman_datapacket(struct wtpman *wtpman, uint8_t * packet, int len);

5
src/contrib/install_hostapd.sh Normal file
View File

@ -0,0 +1,5 @@
#!/bin/sh
wget https://w1.fi/releases/hostapd-2.10.tar.gz
tar xzvf hostapd-2.10.tar.gz

2
src/contrib/install_libmavl.sh
View File

@ -1,6 +1,6 @@
#!/bin/sh #!/bin/sh
VERSION="1.1.0a" VERSION="1.2.0"
wget -O libmavl-${VERSION}.tgz ftp://ftp.planix.org/pub/planix/libmavl-${VERSION}.tgz wget -O libmavl-${VERSION}.tgz ftp://ftp.planix.org/pub/planix/libmavl-${VERSION}.tgz
tar xzvf libmavl-${VERSION}.tgz tar xzvf libmavl-${VERSION}.tgz

1
src/contrib/libmavl-LocalDefs.mak
View File

@ -4,3 +4,4 @@ PREFIX=../../..
INSTALL_LIB_DIR := /lib/$(KERNEL)/$(ARCH) INSTALL_LIB_DIR := /lib/$(KERNEL)/$(ARCH)
INSTALL_INCLUDE_DIR := /include INSTALL_INCLUDE_DIR := /include
CFLAGS+=-fPIC

4
src/cw/Doxyfile
View File

@ -1743,7 +1743,7 @@ RTF_EXTENSIONS_FILE =
# classes and files. # classes and files.
# The default value is: NO. # The default value is: NO.
GENERATE_MAN = NO GENERATE_MAN = YES
# The MAN_OUTPUT tag is used to specify where the man pages will be put. If a # The MAN_OUTPUT tag is used to specify where the man pages will be put. If a
# relative path is entered the value of OUTPUT_DIRECTORY will be put in front of # relative path is entered the value of OUTPUT_DIRECTORY will be put in front of
@ -1770,7 +1770,7 @@ MAN_EXTENSION = .3
# The default value is: NO. # The default value is: NO.
# This tag requires that the tag GENERATE_MAN is set to YES. # This tag requires that the tag GENERATE_MAN is set to YES.
MAN_LINKS = NO MAN_LINKS = YES
#--------------------------------------------------------------------------- #---------------------------------------------------------------------------
# Configuration options related to the XML output # Configuration options related to the XML output

104
src/cw/Makefile
View File

@ -3,11 +3,9 @@ MFDEPS=../Defs.mak
CWSRC=\ CWSRC=\
cw.c\
cw_check_missing_mand.c\ cw_check_missing_mand.c\
cw_clock_lap.c\ cw_clock_lap.c\
cw_dbg_elem.c\
cw_dbg_set_level.c\
cw_dbg_set_level_from_str.c\
cw_filename.c\ cw_filename.c\
cw_format_dump.c\ cw_format_dump.c\
cw_format_pkt_hdr.c\ cw_format_pkt_hdr.c\
@ -16,38 +14,24 @@ CWSRC=\
cw_in_ac_name_with_priority.c\ cw_in_ac_name_with_priority.c\
cw_in_capwap_local_ipv4_address.c\ cw_in_capwap_local_ipv4_address.c\
cw_in_capwap_local_ipv6_address.c\ cw_in_capwap_local_ipv6_address.c\
cw_in_check_cfg_update_req.c\
cw_in_check_disc_req.c\
cw_in_check_img_data_req_ac.c\
cw_in_check_img_data_req_wtp.c\
cw_in_check_join_req.c\
cw_in_check_join_resp.c\
cw_in_generic.c\
cw_in_generic_with_index.c\ cw_in_generic_with_index.c\
cw_in_generic_struct.c\
cw_in_radio_generic_struct.c\
cw_in_idx_generic.c\ cw_in_idx_generic.c\
cw_in_idx_generic_struct.c\ cw_in_idx_generic_struct.c\
cw_in_generic_indexed_enum.c\ cw_in_generic_indexed_enum.c\
cw_out_generic_indexed_enum.c\ cw_out_generic_indexed_enum.c\
cw_in_generic_enum.c\ cw_in_generic_enum.c\
cw_out_generic_struct.c\
cw_out_idx_generic_struct.c\ cw_out_idx_generic_struct.c\
cw_init_data_keep_alive_msg.c\ cw_init_data_keep_alive_msg.c\
cw_inline.c\ cw_inline.c\
cw_in_wtp_reboot_statistics.c\ cw_in_wtp_reboot_statistics.c\
cw_is_printable.c\ cw_is_printable.c\
cw_load_file.c\ cw_load_file.c\
cw_out_generic.c\
cw_out_generic_with_index.c\ cw_out_generic_with_index.c\
cw_out_radio_administrative_states.c\ cw_out_radio_administrative_states.c\
cw_process_element.c\
cw_put_elem_radio_administrative_state.c\ cw_put_elem_radio_administrative_state.c\
cw_put_elem_radio_operational_state.c\ cw_put_elem_radio_operational_state.c\
cw_put_image_data.c\ cw_put_image_data.c\
cw_put_local_ip_address.c\ cw_put_local_ip_address.c\
cw_put_msg.c\
cw_radio_set_admin_state.c\
cw_rand.c\ cw_rand.c\
cw_randint.c\ cw_randint.c\
cw_read_ac_descriptor.c\ cw_read_ac_descriptor.c\
@ -68,43 +52,33 @@ CWSRC=\
cw_type_bool.c\ cw_type_bool.c\
cw_type_str.c\ cw_type_str.c\
cw_type_dword.c\ cw_type_dword.c\
cw_type_struct.c\
cw_type_ipaddress.c\ cw_type_ipaddress.c\
cw_type_word.c\ cw_type_word.c\
cw_type_sysptr.c\ cw_type_sysptr.c\
cw_type_array.c\
cw_type_bits.c\
cw_write_descriptor_subelem.c\ cw_write_descriptor_subelem.c\
cw_read_from.c \
cw_write_radio_element.c\ cw_write_radio_element.c\
cw_detect_nat.c\ cw_detect_nat.c\
cw_read_from.c \
# cw_in_check_disc_req.c\
# cw_in_check_img_data_req_ac.c\
# cw_in_check_img_data_req_wtp.c\
# cw_in_check_join_req.c\
# cw_in_check_join_resp.c\
# cw_in_generic.c\
# cw_out_generic.c\
#
# cw_process_element.c\
# cw_out_generic_struct.c\
cw_in_radio_generic_struct.c\
cw_in_generic_struct.c\
cw_radio_set_admin_state.c\
cw_dbg_elem.c\
KTVSRC=\ KTVSRC=\
cw_ktv_add.c\
cw_ktv_cast.c\
cw_ktv_replace.c\
cw_ktv_add_from_str.c\
cw_ktv_get_byte.c\
cw_ktv_get_bool.c\
cw_ktv_get_bstr16.c\
cw_ktv_set_byte.c\
cw_ktv_set_word.c\
cw_ktv_set_dword.c\
cw_ktv_get.c\
cw_ktv_get_word.c\
cw_ktv_get_dword.c\
cw_ktv_get_sysptr.c\
cw_ktv_get_str.c\
cw_ktv_idx_get.c\
cw_ktv_mavlcmp.c\
cw_ktv_mavlcmp_type_by_name.c\
cw_ktv_mavldel.c\
cw_ktv_read_file.c\
cw_ktv_readline.c\
cw_ktv_read_struct.c\
cw_ktv_write_struct.c\
cw_ktv_std_types.c\
cw_ktv_base_exists.c\
cw_ktv_save.c\
cw_ktv_del_sub.c\
cw_ktv_parser.c\
cfg.c\ cfg.c\
@ -160,7 +134,8 @@ LOGSRC=\
log_errno.c\ log_errno.c\
log_syslog.c\ log_syslog.c\
dbg.c\ dbg.c\
dbg_strings.c\
# dbg_strings.c\
MISCSRC=\ MISCSRC=\
bstr16_create.c\ bstr16_create.c\
@ -176,35 +151,43 @@ MISCSRC=\
capwap_strings_result.c\ capwap_strings_result.c\
capwap_strings_state.c\ capwap_strings_state.c\
capwap_strings_vendor.c\ capwap_strings_vendor.c\
conn_create.c\
conn_create_noq.c\ conn_create_noq.c\
conn_destroy.c\
conn_init.c\
connlist.c\ connlist.c\
conn_prepare_image_data_request.c\ conn_prepare_image_data_request.c\
conn_process_packet.c\
cw_decode_msg.c \
conn_q_add_packet.c\ conn_q_add_packet.c\
conn_q_get_packet.c\ conn_q_get_packet.c\
conn_q_wait_packet.c\
conn_q_recv_packet.c\ conn_q_recv_packet.c\
conn_recv_packet.c\ conn_recv_packet.c\
conn_send_data_packet.c\ conn_send_data_packet.c\
conn_send_msg.c\ conn_send_msg.c\
conn_send_packet.c\ conn_send_packet.c\
conn_send_request.c\
dot11.c\ dot11.c\
dot11_inline.c\ dot11_inline.c\
format.c\ format.c\
format_is_utf8.c\ format_is_utf8.c\
fragman.c\ fragman.c\
intavltree.c\
md5sum.c\ md5sum.c\
mod.c\ mod.c\
msgset.c\ msgset.c\
netconn.c\
send.c\ send.c\
strheap.c\ strheap.c\
conn.c \
val.c \
discovery.c\
message.c\
cw_out_radio_generic_struct.c\
# intavltree.c\
# conn_q_wait_packet.c\
# conn_init.c\
# conn_create.c\
# conn_send_request.c\
# cw_put_msg.c\
# conn_process_packet.c\
# conn_destroy.c\
netconn.c\
DTLSSRC+=\ DTLSSRC+=\
dtls_bio.c\ dtls_bio.c\
@ -212,9 +195,9 @@ DTLSSRC+=\
RADIOSRC=\ RADIOSRC=\
cw_out_radio_generic.c\
cw_out_radio_generic_struct.c\ # cw_in_radio_generic.c\
cw_read_radio_generic.c\ # cw_out_radio_generic.c\
MAVLSRC=\ MAVLSRC=\
mavl_get_ptr.c\ mavl_get_ptr.c\
@ -265,3 +248,6 @@ dynamic: $(DNAME)
include ../lib.mk include ../lib.mk
depend:
mkdep -c ${CFLAGS} ${SOURCES}

4
src/cw/ansi_colors.h
View File

@ -25,4 +25,8 @@
#define ANSI_ITALIC "\x1b[3m" #define ANSI_ITALIC "\x1b[3m"
#define ANSI_BOLD "\x1b[1m" #define ANSI_BOLD "\x1b[1m"
#define ANSI_HOME "[H"
#endif /* __ANSI_COLORS_H */ #endif /* __ANSI_COLORS_H */

2
src/cw/bstr.h
View File

@ -140,7 +140,7 @@ static inline int bstr16_ncpy(uint8_t *dst,uint8_t*src,uint16_t len)
bstr16_t bstr16_create(const uint8_t *data, uint16_t len); bstr16_t bstr16_create(const uint8_t *data, uint16_t len);
uint8_t * bstr16_create_from_str(const char *s); bstr16_t bstr16_create_from_str(const char *s);
extern uint8_t * bstr16_create_from_cfgstr(const char * s); extern uint8_t * bstr16_create_from_cfgstr(const char * s);
#define bstr16_replace bstr_replace #define bstr16_replace bstr_replace

2
src/cw/bstr16_create_from_str.c
View File

@ -2,7 +2,7 @@
#include "format.h" #include "format.h"
uint8_t * bstr16_create_from_str(const char *s) bstr16_t bstr16_create_from_str(const char *s)
{ {
uint8_t * mem; uint8_t * mem;
int msize; int msize;

18
src/cw/bstrv_create.c
View File

@ -1,18 +0,0 @@
#include "bstr.h"
/*
uint8_t * bstrv_create(uint32_t vendor_id, uint8_t *data, uint8_t len)
{
uint8_t * str = malloc(bstrv_size(len));
if (!str)
return 0;
bstrv_set_vendor_id(str,vendor_id);
bstrv_set_len(str,len);
memcpy(bstrv_data(str),data,len);
*(bstrv_data(str)+bstrv_len(str))=0;
return str;
}
*/

16
src/cw/capwap.h
View File

@ -240,7 +240,7 @@
#define CAPWAP_ELEM_ECN_SUPPORT 53 #define CAPWAP_ELEM_ECN_SUPPORT 53
#define CAPWAP_ELEM_IDLE_TIMEOUT 23 #define CAPWAP_ELEM_IDLE_TIMEOUT 23
#define CW_ELEM_IMAGE_DATA 24 #define CW_ELEM_IMAGE_DATA 24
#define CW_ELEM_IMAGE_IDENTIFIER 25 #define CAPWAP_ELEM_IMAGE_IDENTIFIER 25
#define CW_ELEM_IMAGE_INFORMATION 26 #define CW_ELEM_IMAGE_INFORMATION 26
#define CW_ELEM_INITIATE_DOWNLOAD 27 #define CW_ELEM_INITIATE_DOWNLOAD 27
#define CAPWAP_ELEM_LOCATION_DATA 28 #define CAPWAP_ELEM_LOCATION_DATA 28
@ -467,7 +467,7 @@ enum cw_reboot_failure_types {
* WTP to the AC when the AC List is missing */ * WTP to the AC when the AC List is missing */
#define CW_RESULT_MISSING_AC_LIST 1 #define CW_RESULT_MISSING_AC_LIST 1
#define CAPWAP_RESULT_SUCCESS_NAT 2 #define CAPWAP_RESULT_SUCCESS_NAT 2
#define CW_RESULT_JOIN_FAILURE 3 #define CAPWAP_RESULT_JOIN_FAILURE 3
#define CW_RESULT_JOIN_RESOURCE_DEPLETION 4 #define CW_RESULT_JOIN_RESOURCE_DEPLETION 4
#define CW_RESULT_JOIN_UNKNOWN_SOURCE 5 #define CW_RESULT_JOIN_UNKNOWN_SOURCE 5
#define CW_RESULT_JOIN_INCORRECT_DATA 6 #define CW_RESULT_JOIN_INCORRECT_DATA 6
@ -491,7 +491,7 @@ enum cw_reboot_failure_types {
13 Configuration Failure (Unable to Apply Requested Configuration 13 Configuration Failure (Unable to Apply Requested Configuration
- Service Not Provided) - Service Not Provided)
*/ */
#define CAPWAP_RESULT_CONFIGURATION_FAILURE_SERVICE_NOT PROVIDED 13 #define CAPWAP_RESULT_CONFIGURATION_FAILURE_SERVICE_NOT_PROVIDED 13
/** /**
* Image Data Error (Invalid Checksum) * Image Data Error (Invalid Checksum)
*/ */
@ -641,14 +641,10 @@ struct cw_ac_status {
*/ */
enum capwap_states { enum capwap_states {
CW_STATE_NONE = 0, CW_STATE_NONE = 0,
/** Discovery State */ CAPWAP_STATE_DISCOVERY, /**< Discovery State */
CAPWAP_STATE_DISCOVERY, CAPWAP_STATE_JOIN, /**< Join State */
/** Join State */
CAPWAP_STATE_JOIN,
CAPWAP_STATE_JOIN_COMPLETE, CAPWAP_STATE_JOIN_COMPLETE,
CAPWAP_STATE_CONFIGURE, /**< Config State */
/** Config State */
CAPWAP_STATE_CONFIGURE,
CAPWAP_STATE_DTLS_SETUP, /**< DTLS Setup */ CAPWAP_STATE_DTLS_SETUP, /**< DTLS Setup */
/** Image Data Upload */ /** Image Data Upload */
CW_STATE_IMAGE_DATA, CW_STATE_IMAGE_DATA,

14
src/cw/capwap80211.h
View File

@ -83,10 +83,20 @@ enum radioelems {
CW_ELEM80211_WTP_RADIO_CONFIGURATION=1046, CW_ELEM80211_WTP_RADIO_CONFIGURATION=1046,
/** IEEE 802.11 WTP Radio Fail Alarm Indication */ /** IEEE 802.11 WTP Radio Fail Alarm Indication */
CW_ELEM80211_WTP_RADIO_FAIL_ALARM_IDICATION=1047, CW_ELEM80211_WTP_RADIO_FAIL_ALARM_IDICATION=1047,
/** IEEE 802.11 Radio Information Message Element */
CAPWAP80211_ELEM_WTP_RADIO_INFORMATION = 1048
}; };
/** IEEE 802.11 Add WLAN Message element */
#define CAPWAP80211_ELEM_ADD_WLAN 1024
/** IEEE 802.11 Antenna Message element */
#define CAPWAP80211_ELEM_ANTENNA 1025
/** IEEE 802.11 WTP Radio Configuration */
#define CAPWAP80211_ELEM_WTP_RADIO_CONFIGURATION 1046
/** IEEE 802.11 Radio Information Message Element */
#define CAPWAP80211_ELEM_WTP_RADIO_INFORMATION 1048
/** /**
*@} *@}
*/ */

2
src/cw/capwap_strings_elem.c
View File

@ -32,7 +32,7 @@ struct cw_StrListElem capwap_strings_elem[] = {
{CAPWAP_ELEM_ECN_SUPPORT, "ECN Support"}, {CAPWAP_ELEM_ECN_SUPPORT, "ECN Support"},
{CAPWAP_ELEM_IDLE_TIMEOUT, "Idle Timeout"}, {CAPWAP_ELEM_IDLE_TIMEOUT, "Idle Timeout"},
{CW_ELEM_IMAGE_DATA, "Image Data"}, {CW_ELEM_IMAGE_DATA, "Image Data"},
{CW_ELEM_IMAGE_IDENTIFIER, "Image Identifier"}, {CAPWAP_ELEM_IMAGE_IDENTIFIER, "Image Identifier"},
{CW_ELEM_IMAGE_INFORMATION, "Image Information"}, {CW_ELEM_IMAGE_INFORMATION, "Image Information"},
{CW_ELEM_INITIATE_DOWNLOAD, "Initiate Download"}, {CW_ELEM_INITIATE_DOWNLOAD, "Initiate Download"},
{CAPWAP_ELEM_LOCATION_DATA, "Location Data"}, {CAPWAP_ELEM_LOCATION_DATA, "Location Data"},

2
src/cw/capwap_strings_state.c
View File

@ -2,6 +2,7 @@
#include "capwap.h" #include "capwap.h"
struct cw_StrListElem capwap_strings_state[] = { struct cw_StrListElem capwap_strings_state[] = {
{ CW_STATE_NONE, "None"},
{ CAPWAP_STATE_DISCOVERY, "Discovery" }, { CAPWAP_STATE_DISCOVERY, "Discovery" },
{ CAPWAP_STATE_JOIN,"Join" }, { CAPWAP_STATE_JOIN,"Join" },
{ CAPWAP_STATE_RUN,"Run" }, { CAPWAP_STATE_RUN,"Run" },
@ -11,6 +12,5 @@ struct cw_StrListElem capwap_strings_state[] = {
{ CAPWAP_STATE_DATA_CHECK, "Data Check" }, { CAPWAP_STATE_DATA_CHECK, "Data Check" },
{ CAPWAP_STATE_TIMEOUT, "Timeout"}, { CAPWAP_STATE_TIMEOUT, "Timeout"},
{ CW_STR_STOP,"Undefined" }, { CW_STR_STOP,"Undefined" },
}; };

660
src/cw/cfg.c
View File

@ -3,33 +3,110 @@
#include <mavl.h> #include <mavl.h>
#include "cw.h"
#include "cfg.h"
#include "val.h" #include "val.h"
#include "cfg.h"
static int cmp(const void *k1,const void*k2){
#include "dbg.h"
#include "log.h"
#include "cw.h"
static const char *nextc(const char *s)
{
while (isdigit(*s))
s++;
return s;
}
static int cmp0(const char *s1, const char *s2)
{
const char *d1, *d2;
int i1, i2, i;
d1 = strchr(s1, '.');
if (d1 == NULL)
return strcmp(s1, s2);
d2 = strchr(s2, '.');
if (d2 == NULL)
return strcmp(s1, s2);
if ((d1 - s1) != (d2 - s2))
return strcmp(s1, s2);
if (strncmp(s1, s2, (d1 - s1)) != 0)
return strcmp(s1, s2);
if (isdigit(d1[1])) {
i1 = atoi(d1 + 1);
} else {
return cmp0(d1 + 1, d2 + 1);
}
if (isdigit(d2[1])) {
i2 = atoi(d2 + 1);
} else {
return cmp0(d1 + 1, d2 + 1);
}
i = i1 - i2;
if (i == 0) {
return cmp0(nextc(d1 + 1), nextc(d2 + 1));
}
return i;
}
static int cmp(const void *k1, const void *k2)
{
struct cw_Cfg_entry *e1, *e2; struct cw_Cfg_entry *e1, *e2;
e1 = (struct cw_Cfg_entry *) k1; e1 = (struct cw_Cfg_entry *) k1;
e2 = (struct cw_Cfg_entry *) k2; e2 = (struct cw_Cfg_entry *) k2;
return strcmp(e1->key,e2->key);
return cmp0(e1->key, e2->key);
/* return strcmp(e1->key,e2->key);*/
} }
static void del(void *ptr) static void del(void *ptr)
{ {
struct cw_Cfg_entry *e; struct cw_Cfg_entry *e;
e = (struct cw_Cfg_entry *) ptr; e = (struct cw_Cfg_entry *) ptr;
free(e->key); free((void *) e->key);
free(e->val); free((void *) e->val);
} }
/**
* Create an empty cfg
* @return A pointer to the cfg or NULL if an error has accoured.
*
* In case of an error consult errno to find out the reason.
* The created config must be freed by #cw_cfg_destroy.
*/
cw_Cfg_t *cw_cfg_create() cw_Cfg_t *cw_cfg_create()
{ {
return mavl_create(cmp, del, sizeof(struct cw_Cfg_entry)); cw_Cfg_t * cfg;
cfg = malloc(sizeof(cw_Cfg_t));
if (cfg == NULL)
return NULL;
memset(cfg,0,sizeof(cw_Cfg_t));
cfg->name = CW_CFG_DEFAULT_NAME;
cfg->cfg = mavl_create(cmp, del, sizeof(struct cw_Cfg_entry));
if (cfg->cfg==NULL){
cw_cfg_destroy(cfg);
return NULL;
}
return cfg;
} }
int cw_cfg_set(cw_Cfg_t * cfg, const char *key, const char *val) int cw_cfg_set(cw_Cfg_t * cfg, const char *key, const char *val)
{ {
cw_dbg(cfg->dbg_level, "%s%s: %s",cfg->dbg_prefix,key,val);
struct cw_Cfg_entry e; struct cw_Cfg_entry e;
int replaced; int replaced;
@ -38,10 +115,10 @@ int cw_cfg_set(cw_Cfg_t * cfg,const char *key, const char *val)
return 0; return 0;
e.val = cw_strdup(val); e.val = cw_strdup(val);
if (!e.val) { if (!e.val) {
free(e.key); free((void *) e.key);
return 0; return 0;
} }
void * rc = mavl_replace(cfg,&e,&replaced); void *rc = mavl_replace(cfg->cfg, &e, &replaced);
if (!rc) { if (!rc) {
del(&e); del(&e);
return 0; return 0;
@ -52,28 +129,89 @@ int cw_cfg_set(cw_Cfg_t * cfg,const char *key, const char *val)
return -1; return -1;
} }
char * cw_cfg_get(cw_Cfg_t * cfg, char *key)
void cw_cfg_del(cw_Cfg_t * cfg, const char *key)
{
struct cw_Cfg_entry e;
e.key = key;
e.val=NULL;
mavl_del(cfg->cfg,&e);
}
const char *cw_cfg_get(cw_Cfg_t * cfg, const char *key, const char *def)
{ {
struct cw_Cfg_entry e, *r; struct cw_Cfg_entry e, *r;
e.key = key; e.key = key;
r = mavl_get(cfg,&e); r = mavl_get(cfg->cfg, &e);
if (!r) if (!r)
return NULL; return def;
return r->val; return r->val;
} }
const char *cw_cfg_get_l(cw_Cfg_t ** cfg, const char * key, const char *def)
uint16_t cw_cfg_get_word(cw_Cfg_t * cfg, char *key)
{ {
int i;
struct cw_Cfg_entry e, *r;
for(i=0; cfg[i]!=NULL; i++){
e.key = key;
r = mavl_get(cfg[i]->cfg, &e);
if (r!=NULL)
return r->val;
}
return def;
}
const char *cw_cfg_get2(cw_Cfg_t *cfg1, cw_Cfg_t *cfg2, const char *key, const char *def)
{
return cw_cfg_get(cfg1, key, cw_cfg_get(cfg2,key,def));
}
bstr16_t cw_cfg_get_bstr16(cw_Cfg_t * cfg, const char * key, const char *def)
{
const char *s;
s = cw_cfg_get(cfg,key,def);
if(s==NULL)
s=def;
if (s==NULL)
return NULL;
return bstr16_create_from_str(s);
}
bstr16_t cw_cfg_get_bstr16_l(cw_Cfg_t **cfgs, const char * key, const char *def)
{
bstr16_t s;
int i;
for(i=0; cfgs[i]!=NULL; i++){
s = cw_cfg_get_bstr16(cfgs[i],key,NULL);
if (s!=NULL)
return s;
}
if (def == NULL)
return NULL;
return bstr16_create_from_str(def);
} }
int cw_cfg_set_bstr16(cw_Cfg_t * cfg, const char * key, bstr16_t str)
{
CW_TYPE_BSTR16->read(cfg,key,bstr16_data(str),bstr16_len(str),NULL);
return 0;
}
void cw_cfg_dump(cw_Cfg_t * cfg) void cw_cfg_dump(cw_Cfg_t * cfg)
{ {
mavliter_t it; mavliter_t it;
struct cw_Cfg_entry *e; struct cw_Cfg_entry *e;
mavliter_init(&it,cfg); mavliter_init(&it, cfg->cfg);
mavliter_foreach(&it) { mavliter_foreach(&it) {
e = mavliter_get(&it); e = mavliter_get(&it);
@ -82,6 +220,27 @@ void cw_cfg_dump(cw_Cfg_t *cfg)
} }
} }
void cw_cfg_fdump(FILE *f, cw_Cfg_t * cfg, const char *filter)
{
mavliter_t it;
struct cw_Cfg_entry *e;
mavliter_init(&it, cfg->cfg);
mavliter_foreach(&it) {
e = mavliter_get(&it);
if (filter != NULL){
if (strlen(filter)){
if (strstr(e->key,filter)==NULL){
continue;
}
}
}
fprintf(f,"%s: '%s'\n", e->key, e->val);
}
}
struct parser { struct parser {
int line; int line;
@ -107,13 +266,13 @@ static int get_char(struct parser *p)
return c; return c;
} }
static void unget_char(struct parser *p,int c){ static void unget_char(struct parser *p, int c)
{
ungetc(c, p->f); ungetc(c, p->f);
if (c == '\n') { if (c == '\n') {
p->line--; p->line--;
p->pos = p->prevpos; p->pos = p->prevpos;
} } else
else
p->pos--; p->pos--;
} }
@ -210,7 +369,8 @@ static int read_key (struct parser *p, char *key, int max_len)
n = 0; n = 0;
while (c != EOF && n < max_len) { while (c != EOF && n < max_len) {
if (!p->quote && !isalnum(c) && !strchr("._/-()@#|{}[]\\",c)/*strchr(": \t\n\a",c)*/){ if (!p->quote && !isalnum(c)
&& !strchr("._/-()@#|{}[]\\", c) /*strchr(": \t\n\a",c) */ ) {
unget_char(p, c); unget_char(p, c);
break; break;
} }
@ -233,10 +393,13 @@ static int skip_to_colon(FILE *f,struct parser * p)
if (c != ':') { if (c != ':') {
if (c == '\n') { if (c == '\n') {
unget_char(p, c); unget_char(p, c);
sprintf(p->error,"Error at line %d, pos %d: Unexpected EOL, collon expected.", p->line, p->pos); sprintf(p->error,
"Error at line %d, pos %d: Unexpected EOL, collon expected.",
p->line, p->pos);
return 0; return 0;
} }
sprintf(p->error,"Error at line %d, pos %d: Collon expected.", p->line, p->pos); sprintf(p->error, "Error at line %d, pos %d: Collon expected.",
p->line, p->pos);
return 0; return 0;
} }
return 1; return 1;
@ -244,7 +407,8 @@ static int skip_to_colon(FILE *f,struct parser * p)
static int read_val(struct parser *p, char *val, int max_len){ static int read_val(struct parser *p, char *val, int max_len)
{
int c, n, quote; int c, n, quote;
if (!skip_to_colon(p->f, p)) if (!skip_to_colon(p->f, p))
return -1; return -1;
@ -252,8 +416,7 @@ static int read_val(struct parser *p, char *val, int max_len){
if (c == '"') { if (c == '"') {
quote = 1; quote = 1;
c = get_char(p); c = get_char(p);
} } else {
else{
quote = 0; quote = 0;
} }
n = 0; n = 0;
@ -359,14 +522,457 @@ int cw_cfg_read_from_file(FILE * f, cw_Cfg_t * cfg)
return errs; return errs;
} }
int cw_cfg_load(const char *filename, cw_Cfg_t * cfg) int cw_cfg_load(const char *filename, cw_Cfg_t * cfg)
{ {
int errs; int errs;
FILE *f = fopen(filename, "rb"); FILE *f = fopen(filename, "rb");
if (!f) if (!f)
return errno; return errno;
errno=0;
errs = cw_cfg_read_from_file(f, cfg); errs = cw_cfg_read_from_file(f, cfg);
fclose(f); fclose(f);
return errs;
if (errs)
errno = EINVAL;
return errno;
}
int cw_cfg_read_from_string(const char *str, cw_Cfg_t *cfg)
{
int errs;
FILE * f = fmemopen((void*)str,strlen(str),"rb");
if(!f)
return errno;
errs = cw_cfg_read_from_file(f, cfg);
fclose(f);
if (errs)
errno = EINVAL;
return errno;
}
int cw_cfg_write_to_file(FILE *f, cw_Cfg_t * cfg)
{
mavliter_t it;
struct cw_Cfg_entry *e;
mavliter_init(&it, cfg->cfg);
mavliter_foreach(&it) {
int n;
e = mavliter_get(&it);
n=strlen(e->val);
if (n>0)
n-=1;
//printf("Write %s: \"%s\" - %d %d (%02x)\n",e->key,e->val,n,isspace(e->val[n]),e->val[n]);
if(isspace(e->val[0]) || isspace(e->val[n]))
fprintf(f,"%s: \"%s\"\n", e->key, e->val);
else
fprintf(f,"%s: %s\n", e->key, e->val);
//cw_dbg(dbglevel,"%s%s :%s: %s",prefix,data->key,type->get_type_name(data), value);
}
return 0;
}
int cw_cfg_save(const char *filename, cw_Cfg_t *cfg, const char *format, ...)
{
int rc;
FILE *f = fopen(filename, "wb");
if (!f)
return errno;
if (format !=NULL){
va_list args;
va_start(args,format);
vfprintf(f,format,args);
va_end(args);
}
rc = cw_cfg_write_to_file(f, cfg);
fclose(f);
return rc;
}
void cw_cfg_iter_init(cw_Cfg_t * cfg, struct cw_Cfg_iter *cfi, const char *base)
{
struct cw_Cfg_entry search;
search.key = base;
mavliter_init(&(cfi->it), cfg->cfg);
if (base == NULL){
mavliter_seek_set(&(cfi->it));
mavliter_next(&(cfi->it));
}
else
mavliter_seek(&(cfi->it), &search, 0);
cfi->base = base;
}
struct cw_Cfg_entry *cw_cfg_iter_next(struct cw_Cfg_iter *cfi, const char *nnkey)
{
struct cw_Cfg_entry *e;
int bl, kl;
// const char *d;
e = mavliter_get(&(cfi->it));
if (e == NULL){
return NULL;
}
if (cfi->base ==NULL)
goto eeX;
bl = strlen(cfi->base);
kl = strlen(e->key);
if (bl > kl)
return NULL;
if (bl == kl) {
if (strcmp(cfi->base, e->key) != 0)
return NULL;
else {
mavliter_next(&(cfi->it));
return e;
}
}
if (e->key[bl]!='.' && e->key[bl]!='/')
return NULL;
/* d = strchr(e->key, '.');
if (d == NULL)
return NULL;
if (d - e->key != bl)
return NULL;*/
if (strncmp(cfi->base, e->key, bl) != 0)
return NULL;
eeX:
mavliter_next(&(cfi->it));
return e;
}
int cw_cfg_get_bool(cw_Cfg_t * cfg, const char * key, int def)
{
struct cw_Val v;
const char *s = cw_cfg_get(cfg,key,NULL);
if (s==NULL)
return def;
CW_TYPE_BOOL->from_str(&v,s);
return v.val.boolean;
}
/*
int cw_cfg_set_bool(cw_Cfg_t * cfg, const char * key, int val)
{
return cw_cfg_set(cfg,key,val ? "true":"false");
}
*/
uint8_t cw_cfg_get_byte(cw_Cfg_t * cfg, char *key, uint8_t def)
{
struct cw_Val v;
memset(&v,0,sizeof(struct cw_Val));
const char *s = cw_cfg_get(cfg,key,NULL);
if (s==NULL)
return def;
CW_TYPE_BYTE->from_str(&v,s);
return v.val.byte;
}
uint8_t cw_cfg_get_byte_l(cw_Cfg_t ** cfgs, char *key, uint8_t def)
{
struct cw_Val v;
memset(&v,0,sizeof(struct cw_Val));
const char *s = cw_cfg_get_l(cfgs,key,NULL);
if (s==NULL)
return def;
CW_TYPE_BYTE->from_str(&v,s);
return v.val.byte;
}
int cw_cfg_get_int(cw_Cfg_t * cfg, const char *key, int def)
{
const char *s = cw_cfg_get(cfg,key,NULL);
if (s==NULL)
return def;
return atoi(s);
}
uint16_t cw_cfg_get_word(cw_Cfg_t * cfg, const char *key, uint16_t def)
{
struct cw_Val v;
const char *s = cw_cfg_get(cfg,key,NULL);
if (s==NULL)
return def;
CW_TYPE_WORD->from_str(&v,s);
return v.val.word;
}
uint16_t cw_cfg_get_word_l(cw_Cfg_t ** cfg, const char *key, uint16_t def)
{
struct cw_Val v;
const char *s = cw_cfg_get_l(cfg,key,NULL);
if (s==NULL)
return def;
CW_TYPE_WORD->from_str(&v,s);
return v.val.word;
}
/*
int cw_cfg_get_word(cw_Cfg_t * cfg, char *key, const char * def)
{
const char *s;
s=cw_cfg_get(cfg,key,def);
if (s==NULL)
return 0;
}
*/
void cw_cfg_set_int(cw_Cfg_t * cfg, const char * key, int val)
{
char a[128];
sprintf(a,"%d",val);
cw_cfg_set(cfg,key,a);
}
int cw_cfg_get_new_index(cw_Cfg_t * cfg, const char *key)
{
char ikey[CW_CFG_MAX_KEY_LEN];
struct cw_Cfg_entry search, * result;
char *d;
sprintf(ikey,"%s.%d",key,65536);
search.key=ikey;
/*//result = ktvn(ktv,&search);*/
result = mavl_get_last(cfg->cfg,&search);
if (result == NULL){
return 0;
}
d = strrchr(result->key,'.');
if (d==NULL){
return 0;
}
if (strncmp(result->key,ikey,d-result->key)!=0)
return 0;
return atoi(d+1)+1;
}
int cw_cfg_get_first_index(cw_Cfg_t * cfg, const char *key, int n)
{
char ikey[CW_CFG_MAX_KEY_LEN];
struct cw_Cfg_entry search, * result;
char *d;
int l;
sprintf(ikey,"%s.%d",key,n);
search.key=ikey;
result = mavl_get_first(cfg->cfg,&search);
if (result == NULL){
return -1;
}
d = strrchr(ikey,'.');
if (d==NULL){
return -1;
}
l = d-ikey;
if (strncmp(result->key,ikey,l)!=0)
return -1;
return atoi(result->key+l+1);
}
int cw_cfg_get_first_index_l(cw_Cfg_t ** cfgs, const char *key, int n)
{
int r;
while(*cfgs != NULL){
r = cw_cfg_get_first_index(*cfgs,key,n);
if (r!=-1)
return r;
cfgs++;
}
return -1;
}
int cw_cfg_set_val(cw_Cfg_t * cfg, const char *key, const struct cw_Type *type, const void * valguard, const uint8_t * data, int len)
{
cw_Val_t mdata, *mresult;
char str[2048];
memset(&mdata,0,sizeof(cw_Val_t));
mdata.type=type;
mdata.valguard=valguard;
mresult = type->get(&mdata,data,len);
if (!mresult){
cw_log(LOG_ERR, "Can't create cfg element for key %s of type %s: %s",
key,type->name, strerror(errno));
free(mdata.key);
return 0;
}
type->to_str(&mdata,str,2048);
cw_cfg_set(cfg,key,str);
if (type->del)
type->del(&mdata);
return 1;
}
//int cw_cfg_put(cw_Cfg_t *cfg, const char *key, const struct cw_Type *type,const void
void cw_cfg_copy(cw_Cfg_t *src, cw_Cfg_t *dst,int dbg_level,const char *dbg_prefix)
{
mavliter_t it;
mavliter_init(&it, src->cfg);
mavliter_foreach(&it) {
int exists;
struct cw_Cfg_entry * old_elem,*e, new_elem;
e = mavliter_get(&it);
new_elem.key = cw_strdup(e->key);
new_elem.val = cw_strdup(e->val);
/* if (1){
const char *ov;
ov = cw_cfg_get(dst,e->key,NULL);
cw_dbg(DBG_X, " REAL OV HERE: %s",ov);
}
*/
old_elem = mavl_insert(dst->cfg,&new_elem,&exists);
/* cw_dbg(DBG_X, "CPY: %s: %s -> %s [%d]",new_elem.key,new_elem.val,old_elem->val,exists);
if (exists){
const char *ov;
ov = cw_cfg_get(dst,e->key,NULL);
cw_dbg(DBG_X, " OV HERE: %s",ov);
}
*/
if (!exists){
cw_dbg(dbg_level, "%s: [undef] -> %s",new_elem.key,new_elem.val);
continue;
}
if (strcmp(new_elem.val,old_elem->val)==0){
free((void*)new_elem.key);
free((void*)new_elem.val);
continue;
}
cw_dbg(dbg_level, "%s: %s -> %s",new_elem.key,old_elem->val,new_elem.val);
// cw_dbg(DBG_X, "Replace: %s: %s (old: %s)",new_elem.key, new_elem.val, old_elem->val);
if(dst->cfg->del){
dst->cfg->del(old_elem);
}
memcpy(old_elem,&new_elem,dst->cfg->data_size);
}
}
void cw_cfg_destroy(cw_Cfg_t *cfg)
{
if (cfg->cfg)
mavl_destroy(cfg->cfg);
free(cfg);
}
void cw_cfg_clear(cw_Cfg_t *cfg)
{
mavl_del_all(cfg->cfg);
}
int cw_cfg_base_exists(cw_Cfg_t * cfg, const char *key)
{
struct cw_Cfg_entry e, *result;
int rl,kl;
char skey[CW_CFG_MAX_KEY_LEN];
char * delimiters = "/.";
char * d;
/* can we find the base exactly ?*/
if (cw_cfg_get(cfg,key,NULL)!=NULL)
return 1;
for(d=delimiters; *d!=0; d++){
sprintf(skey,"%s%c",key,*d);
e.key=skey;
result = mavl_get_first(cfg->cfg,&e);
/* if we've found nothing, we can't check more */
if (result == NULL)
continue;
rl = strlen(result->key);
kl = strlen(skey);
/* if result key is shorter than key */
if (rl<kl)
continue;
/* both keys are identical in length */
if (rl==kl){
if (strcmp(result->key,key)==0)
return 1;
}
if (strncmp(result->key,skey,kl)==0)
return 1;
}
return 0;
}
int cw_cfg_base_exists_l(cw_Cfg_t ** cfgs, const char *key)
{
int i;
for(i=0; cfgs[i]; i++){
if (cw_cfg_base_exists(cfgs[i],key))
return 1;
}
// cw_dbg(DBG_X,"NOX EXISIS: %s in %d",key,i);
return 0;
}
cw_Val_t * cw_cfg_get_val_l(cw_Cfg_t ** cfgs, const char *key, const struct cw_Type *type)
{
const char *s;
cw_Val_t * val;
s = cw_cfg_get_l(cfgs,key,NULL);
val = malloc(sizeof(cw_Val_t));
if (val==NULL)
return NULL;
val->type=type;
val->type->from_str(val,s);
return val;
} }

98
src/cw/cfg.h
View File

@ -2,10 +2,49 @@
#define _CFG_H #define _CFG_H
#include <mavl.h> #include <mavl.h>
#include "val.h"
#include "bstr.h"
/**
*@file
*@brief
*@defgroup CFG SOCK
*@{
*/
/** Maximum size of a key used in cfg objects */
#define CW_CFG_MAX_KEY_LEN 1024 #define CW_CFG_MAX_KEY_LEN 1024
typedef struct mavl cw_Cfg_t; /** Default name for fresh cfg's created by #cw_cfg_create */
#define CW_CFG_DEFAULT_NAME "[anonymous]"
/**
* A Cfg object
*/
struct cw_Cfg {
struct mavl * cfg; /**< The AVL-tree containig the keys
and vals */
const char *name; /**< A name for this config object */
int dbg_level;
const char *dbg_prefix;
};
typedef struct cw_Cfg cw_Cfg_t;
/**
* An antry for a Cfg object
*/
struct cw_Cfg_entry{
const char *key; /**< A string representing the key
of this entry */
const char *val; /**< The value, represented by a string */
};
cw_Cfg_t * cw_cfg_create(); cw_Cfg_t * cw_cfg_create();
int cw_cfg_set(cw_Cfg_t *cfg,const char *key, const char *val); int cw_cfg_set(cw_Cfg_t *cfg,const char *key, const char *val);
@ -13,13 +52,62 @@ void cw_cfg_dump(cw_Cfg_t *cfg);
int cw_cfg_read_from_file(FILE * file, cw_Cfg_t * cfg); int cw_cfg_read_from_file(FILE * file, cw_Cfg_t * cfg);
int cw_cfg_load(const char *filename,cw_Cfg_t * cfg); int cw_cfg_load(const char *filename,cw_Cfg_t * cfg);
struct cw_Cfg_entry{
char *key; struct cw_Cfg_iter{
char *val; struct mavliter it;
const char *base;
}; };
char * cw_cfg_get(cw_Cfg_t * cfg, char *key); const char * cw_cfg_get(cw_Cfg_t * cfg, const char *key, const char *def);
struct cw_Cfg_entry *cw_cfg_iter_next(struct cw_Cfg_iter *cfi, const char *key);
void cw_cfg_iter_init(cw_Cfg_t * cfg, struct cw_Cfg_iter *cfi, const char *base);
int cw_cfg_get_bool(cw_Cfg_t * cfg, const char * key, int def);
uint16_t cw_cfg_get_word(cw_Cfg_t * cfg, const char *key, uint16_t def);
void cw_cfg_set_int(cw_Cfg_t * cfg, const char * key, int val);
uint8_t cw_cfg_get_byte(cw_Cfg_t * cfg, char *key, uint8_t def);
bstr16_t cw_cfg_get_bstr16(cw_Cfg_t * cfg, const char * key, const char *def);
int cw_cfg_set_bstr16(cw_Cfg_t * cfg, const char * key, bstr16_t str);
int cw_cfg_get_new_index(cw_Cfg_t * cfg, const char *key);
const char *cw_cfg_get_l(cw_Cfg_t ** cfg, const char * key, const char *def);
void cw_cfg_copy(cw_Cfg_t *src, cw_Cfg_t *dst,int dbg_level,const char *dbg_prefix);
void cw_cfg_destroy(cw_Cfg_t *cfg);
void cw_cfg_clear(cw_Cfg_t *cfg);
int cw_cfg_base_exists(cw_Cfg_t * cfg, const char *key);
uint8_t cw_cfg_get_byte_l(cw_Cfg_t ** cfgs, char *key, uint8_t def);
cw_Val_t * cw_cfg_get_val_l(cw_Cfg_t ** cfgs, const char *key, const struct cw_Type *type);
int cw_cfg_base_exists_l(cw_Cfg_t ** cfgs, const char *key);
int cw_cfg_save(const char *filename, cw_Cfg_t *cfg, const char *format, ...);
uint16_t cw_cfg_get_word_l(cw_Cfg_t ** cfg, const char *key, uint16_t def);
void cw_cfg_fdump(FILE *f, cw_Cfg_t * cfg, const char *filter);
int cw_cfg_read_from_string(const char *str, cw_Cfg_t *cfg);
void cw_cfg_del(cw_Cfg_t * cfg, const char *key);
int cw_cfg_get_first_index(cw_Cfg_t * cfg, const char *key, int n);
int cw_cfg_get_first_index_l(cw_Cfg_t ** cfgs, const char *key, int n);
int cw_cfg_get_int(cw_Cfg_t * cfg, const char *key, int def);
int cw_cfg_write_to_file(FILE *f, cw_Cfg_t * cfg);
#define cw_cfg_set_bool(cfg,key,val) \
cw_cfg_set(cfg,key,(val) ? "true":"false")
int cw_cfg_set_val(cw_Cfg_t * cfg, const char *key, const struct cw_Type *t, const void * valguard, const uint8_t * data, int len);
bstr16_t cw_cfg_get_bstr16_l(cw_Cfg_t **cfgs, const char * key, const char *def);
#define cw_cfg_get_word2(cfg1,cfg2,key,def) \
cw_cfg_get_word(cfg1,key,cw_cfg_get_word(cfg2,key,def))
#define cw_dget(fun,cfg1,cfg2,key,def)\
fun(cfg1,key,fun(cfg2,key,def))
#endif #endif
/**@}*/

474
src/cw/conn_process_packet.c → src/cw/conn.c
View File

@ -1,39 +1,215 @@
/* #include <string.h>
This file is part of libcapwap. #include <stdint.h>
libcapwap is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
libcapwap is distributed in the hope that it will be useful, #include "conn.h"
but WITHOUT ANY WARRANTY; without even the implied warranty of #include "capwap.h"
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #include "cw.h"
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Foobar. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdlib.h> #include <stdlib.h>
#include <string.h> #include <string.h>
#include <errno.h> #include <errno.h>
#include "cw.h"
#include "dbg.h"
#include "log.h" #include "log.h"
#include "cw_util.h" #include "capwap.h"
#include "conn.h" #include "conn.h"
#include "sock.h" #include "sock.h"
/*#include "stravltree.h"*/
#include "mod.h"
#include "msgset.h" #include "msgset.h"
#include "cw.h"
#include "val.h"
#include "dbg.h"
#include "msgset.h"
#include "mavltypes.h"
#include "dtls.h"
#define MAX_MSG_CBS 5
struct msg_callback{
int type; /**< message type */
struct cw_MsgCb_data data[MAX_MSG_CBS];
int count;
};
int msg_callback_cmp(const void *v1,const void *v2)
{
struct msg_callback *t1,*t2;
t1=(struct msg_callback*)v1;
t2=(struct msg_callback*)v2;
return t1->type - t2->type;
}
/**
* Basic initialization of a conn object
* @param conn conn object to initialize
*/
void cw_conn_init(struct cw_Conn * conn)
{
memset(conn,0,sizeof(struct cw_Conn ));
conn->retransmit_interval=CAPWAP_RETRANSMIT_INTERVAL;
conn->max_retransmit=CAPWAP_MAX_RETRANSMIT;
conn->wait_dtls=CAPWAP_WAIT_DTLS;
conn->wait_join=CAPWAP_WAIT_JOIN;
conn->mtu_discovery=1;
conn->strict_capwap=1;
conn->process_packet=conn_process_packet;
conn->process_message=process_message;
conn->msg_callbacks = mavl_create(msg_callback_cmp,NULL,sizeof(struct msg_callback));
conn->update_cfg = cw_cfg_create();
conn->remote_cfg = cw_cfg_create();
conn->local_cfg = cw_cfg_create();
conn->cfg_list[0]=NULL;
conn->remote_addr[0]=0;
}
/**
* Register a message callback function.
* @param conn the connection the registered cb functions belongs to
* @param type The associated msg type. Whenever a message of this type is
* received, the callback function will be called
* @param fun A pinter to the callback function
*
*/
int cw_conn_register_msg_cb(struct cw_Conn *conn, int type, cw_MsgCallbackFun fun)
{
struct msg_callback cb, *result;
int exists;
cb.type = type;
cb.data[0].fun = fun;
cb.data[0].parent = NULL;
cb.count = 0;
result = mavl_insert(conn->msg_callbacks,&cb,&exists);
cw_dbg(DBG_X, "Registering msg callback: %d %p",type,result);
if (result==NULL)
return 0;
if (exists){
if (result->count>=MAX_MSG_CBS){
cw_log(LOG_ERROR,"Too many msg callback registrations for msg id %d",type);
return 0;
}
result->count++;
result->data[result->count].fun=fun;
result->data[result->count].parent=&(result->data[result->count-1]);
cw_dbg(DBG_X,"The result exists: %p %p %d %p",result,&cb,result->count,
result->data[result->count].parent
);
}
return 1;
}
/*
cw_MsgCallbackFun cw_conn_get_msg_cb(struct cw_Conn *conn, int type)
{
struct msg_callback cb,*result;
cb.type=type;
result = mavl_get(conn->msg_callbacks,&cb);
if (result == NULL)
return NULL;
return result->fun;
}*/
int cw_conn_run_msg_cbs(struct cw_Conn * conn, int type, struct cw_ElemHandlerParams *params)
{
struct msg_callback cb,*result;
cb.type=type;
result = mavl_get(conn->msg_callbacks,&cb);
if (result == NULL)
return -1;
return result->data[result->count].fun(params,&(result->data[result->count]));
}
/**
* Create a conn object
* @param sock a socket
* @param addr the address associated
* @param qsize size of packet queue
* @return A pointer to the created object
* This function creates a conn obnject with queueing functionality
* for asynchronous operation.
* To create a conn object without queue functionallity use #conn_create_noq.
*/
struct cw_Conn * cw_conn_create(int sock, struct sockaddr * addr, int qsize)
{
struct cw_Conn * conn;
conn = malloc(sizeof (struct cw_Conn ));
if (!conn)
return NULL;
cw_conn_init(conn);
conn->sock=sock;
if (addr){
sock_copyaddr(&conn->addr,addr);
sock_addr2str_p(addr, conn->remote_addr);
}
conn->fragman = fragman_create();
if (conn->fragman==NULL){
conn_destroy(conn);
return NULL;
}
conn->qsize=qsize;
if (qsize != 0){
if (!(conn->q=malloc( sizeof(uint8_t *) * qsize))){
conn_destroy(conn);
return NULL;
}
conn->qrpos=-1;
if (sem_init(&conn->q_sem,0,0)!=0){
cw_log(LOG_ERR,"Fatal- Can't init semaphore for conn object: %s",strerror(errno));
conn_destroy(conn);
return NULL;
};
conn->recv_packet=conn_q_recv_packet;
conn->recv_packet_peek=conn_q_recv_packet_peek;
}
else{
conn->recv_packet = conn_recv_packet;
conn->recv_packet_peek = conn_recv_packet_peek;
}
conn->send_packet = conn_send_packet;
/* conn->send_data_packet = conn_send_data_packet;*/
conn->last_seqnum_received=-1;
conn->mtu=1480;
conn->cur_packet=0;
conn->recv_timeout=1;
conn->seqnum=-1;
conn->write = conn->send_packet;
conn->read = conn->recv_packet;
conn->dtls_mtu = 1480;
return conn;
}
@ -42,7 +218,7 @@
/** /**
* Init response message header * Init response message header
*/ */
void cw_init_response(struct conn *conn, uint8_t * req) void cw_init_response(struct cw_Conn *conn, uint8_t * req)
{ {
uint8_t *buffer; uint8_t *buffer;
int shbytes, dhbytes; int shbytes, dhbytes;
@ -69,7 +245,7 @@ void cw_init_response(struct conn *conn, uint8_t * req)
cw_set_msg_flags(dmsgptr, 0); cw_set_msg_flags(dmsgptr, 0);
} }
void cw_init_request(struct conn *conn, int msg_id) void cw_init_request(struct cw_Conn *conn, int msg_id)
{ {
uint8_t *buffer = conn->req_buffer; uint8_t *buffer = conn->req_buffer;
uint8_t *msgptr; uint8_t *msgptr;
@ -97,7 +273,7 @@ void cw_init_request(struct conn *conn, int msg_id)
cw_set_msg_elems_len(msgptr, 0); cw_set_msg_elems_len(msgptr, 0);
} }
void cw_init_data_msg(struct conn *conn) void cw_init_data_msg(struct cw_Conn *conn)
{ {
uint8_t *buffer = conn->req_buffer; uint8_t *buffer = conn->req_buffer;
cw_set_dword(buffer + 0, 0); cw_set_dword(buffer + 0, 0);
@ -114,11 +290,11 @@ void cw_init_data_msg(struct conn *conn)
/** /**
* send a response * send a response
*/ */
int cw_send_response(struct conn *conn, uint8_t * rawmsg, int len) int cw_send_response(struct cw_Conn *conn, uint8_t * rawmsg, int len)
{ {
int rc; int rc;
cw_init_response(conn, rawmsg); cw_init_response(conn, rawmsg);
rc = cw_put_msg(conn, conn->resp_buffer); rc = cw_compose_message(conn, conn->resp_buffer);
if (!cw_result_is_ok(rc)) if (!cw_result_is_ok(rc))
return 0; return 0;
conn_send_msg(conn, conn->resp_buffer); conn_send_msg(conn, conn->resp_buffer);
@ -135,7 +311,8 @@ int cw_send_response(struct conn *conn, uint8_t * rawmsg, int len)
* @param result_code result code to send * @param result_code result code to send
* @return 1 * @return 1
*/ */
int cw_send_error_response(struct conn *conn, uint8_t * rawmsg, uint32_t result_code) int cw_send_error_response(struct cw_Conn *conn, uint8_t * rawmsg,
uint32_t result_code)
{ {
uint8_t *out, *dst; uint8_t *out, *dst;
int l; int l;
@ -155,14 +332,16 @@ int cw_send_error_response(struct conn *conn, uint8_t * rawmsg, uint32_t result_
} }
static struct cw_MsgSet *load_msg_set(struct conn *conn, uint8_t * rawmsg, int len, static struct cw_MsgSet *load_msg_set(struct cw_Conn *conn, uint8_t * rawmsg,
int elems_len, struct sockaddr *from) int len, int elems_len,
struct sockaddr *from)
{ {
char sock_buf[SOCK_ADDR_BUFSIZE]; char sock_buf[SOCK_ADDR_BUFSIZE];
struct cw_Mod *cmod, *bmod; struct cw_Mod *cmod, *bmod;
cmod = cmod =
cw_mod_detect(conn, rawmsg, len, elems_len, from, CW_MOD_MODE_CAPWAP); cw_mod_detect(conn, rawmsg, len, elems_len, from,
CW_MOD_MODE_CAPWAP);
if (cmod == MOD_NULL) { if (cmod == MOD_NULL) {
cw_dbg(DBG_MSG_ERR, cw_dbg(DBG_MSG_ERR,
"Can't find mod to handle connection from %s, discarding message", "Can't find mod to handle connection from %s, discarding message",
@ -171,7 +350,8 @@ static struct cw_MsgSet *load_msg_set(struct conn *conn, uint8_t * rawmsg, int l
} }
bmod = bmod =
cw_mod_detect(conn, rawmsg, len, elems_len, from, CW_MOD_MODE_BINDINGS); cw_mod_detect(conn, rawmsg, len, elems_len, from,
CW_MOD_MODE_BINDINGS);
cw_dbg(DBG_INFO, "Mods deteced: %s,%s", cmod->name, bmod->name); cw_dbg(DBG_INFO, "Mods deteced: %s,%s", cmod->name, bmod->name);
@ -184,7 +364,7 @@ static struct cw_MsgSet *load_msg_set(struct conn *conn, uint8_t * rawmsg, int l
} }
/* /*
int cw_in_check_generic(struct conn *conn, struct cw_action_in *a, uint8_t * data, int cw_in_check_generic(struct cw_Conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from) int len,struct sockaddr *from)
{ {
// if (cw_is_request(a->msg_id)){ // if (cw_is_request(a->msg_id)){
@ -196,33 +376,17 @@ int cw_in_check_generic(struct conn *conn, struct cw_action_in *a, uint8_t * dat
} }
*/ */
/*
void cw_read_elem(struct cw_ElemHandler * handler, struct conn * conn,
uint8_t * elem_data, int elem_len, struct sockaddr * from){
mavldata_t data, *result;
char str[30];
result = handler->type->get(&data,elem_data,elem_len); static int process_elements(struct cw_Conn *conn, uint8_t * rawmsg, int len,
handler->type->to_str(result,str,30);
printf("Read %d-%s: %s %s\n", handler->id, handler->name, handler->key, str);
//mavl_insert(conn->remote_cfg
}
*/
static int process_elements(struct conn *conn, uint8_t * rawmsg, int len,
struct sockaddr *from) struct sockaddr *from)
{ {
mavl_t mand_found;
mlist_t unrecognized;
struct cw_MsgData search; struct cw_MsgData search;
struct cw_MsgData *message; struct cw_MsgData *message;
int result_code; int result_code;
cw_State_t *ui; cw_State_t *ui;
uint8_t *elems_ptr; uint8_t *elems_ptr;
uint8_t *elem; struct cw_ElemHandlerParams params;
char sock_buf[SOCK_ADDR_BUFSIZE]; /**< to hold str from sockaddr2str */ char sock_buf[SOCK_ADDR_BUFSIZE]; /**< to hold str from sockaddr2str */
@ -239,11 +403,13 @@ static int process_elements(struct conn *conn, uint8_t * rawmsg, int len,
/* pre-check message */ /* pre-check message */
if (payloadlen - 8 != elems_len) { if (payloadlen - 8 != elems_len) {
//printf ("The elems_len is %d\n",elems_len);
//printf ("The len = %d\n",len);
if (conn->strict_hdr) { if (conn->strict_hdr) {
cw_dbg(DBG_MSG_ERR, cw_dbg(DBG_MSG_ERR,
"Discarding message from %s, msgelems len=%d, payload len=%d, (Strict CAPWAP) ", "Discarding message from %s, msgelems len=%d, payload len=%d, (Strict CAPWAP) ",
sock_addr2str(&conn->addr,sock_buf), elems_len, payloadlen - 8); sock_addr2str(&conn->addr, sock_buf), elems_len,
payloadlen - 8);
errno = EAGAIN; errno = EAGAIN;
return -1; return -1;
} }
@ -252,24 +418,27 @@ static int process_elements(struct conn *conn, uint8_t * rawmsg, int len,
if (elems_len < payloadlen - 8) { if (elems_len < payloadlen - 8) {
cw_dbg(DBG_RFC, cw_dbg(DBG_RFC,
"Packet from from %s has %d bytes of extra data, ignoring.", "Packet from from %s has %d bytes of extra data, ignoring.",
sock_addr2str(&conn->addr,sock_buf), payloadlen - 8 - elems_len); sock_addr2str(&conn->addr, sock_buf),
elems_len = len - 8; payloadlen - 8 - elems_len);
//elems_len = len - 8;
} }
if (elems_len > payloadlen - 8) { if (elems_len > payloadlen - 8) {
cw_dbg(DBG_RFC, cw_dbg(DBG_RFC,
"Packet from from %s has msgelems len of %d bytes, but has only %d bytes of data, truncating.", "Packet from from %s has msgelems len of %d bytes, but has only %d bytes of data, truncating.",
sock_addr2str(&conn->addr, sock_buf), elems_len, payloadlen - 8); sock_addr2str(&conn->addr, sock_buf), elems_len,
payloadlen - 8);
elems_len = payloadlen - 8; elems_len = payloadlen - 8;
} }
} }
/* Detect the connecting AC type */ /* Detect the connecting WTP type */
if (!conn->detected) { if (!conn->detected) {
struct cw_MsgSet *set = load_msg_set(conn, rawmsg, len, elems_len, from); struct cw_MsgSet *set =
load_msg_set(conn, rawmsg, len, elems_len, from);
if (!set) { if (!set) {
/* /*
//cw_log(LOG_ERR, "Error"); //cw_log(LOG_ERR, "Error");
@ -280,6 +449,10 @@ static int process_elements(struct conn *conn, uint8_t * rawmsg, int len,
conn->cmod->setup_cfg(conn); conn->cmod->setup_cfg(conn);
conn->msgset = set; conn->msgset = set;
conn->detected = 1; conn->detected = 1;
if (conn->setup_complete)
conn->setup_complete(conn);
} }
/** debug the received message */ /** debug the received message */
@ -353,99 +526,58 @@ static int process_elements(struct conn *conn, uint8_t * rawmsg, int len,
/* if (conn->msg_start){
conn->msg_start(conn, afm, rawmsg, len, from);
}
*/
/* Execute start processor for message */
/*
// if (afm->start) {
// afm->start(conn, afm, rawmsg, len, from);
// }
*/
elems_ptr = cw_get_msg_elems_ptr(msg_ptr); elems_ptr = cw_get_msg_elems_ptr(msg_ptr);
/* if (cw_dbg_is_level(DBG_ELEM_IN)){
/* Create an avltree to catch the found mandatory elements */ cw_dbg(DBG_MSG_PARSING, "Parsing message of type %d - (%s)",
/* //conn->mand = stravltree_create();*/
mand_found = mavl_create_conststr();
unrecognized = mlist_create(NULL,NULL,sizeof(uint8_t*));
cw_dbg(DBG_MSG_PARSING ,"*** Parsing message of type %d - (%s) ***",
message->type, message->name); message->type, message->name);
/* iterate through message elements */ }*/
cw_foreach_elem(elem, elems_ptr, elems_len) {
int rc;
struct cw_ElemHandlerParams params; memset(&params,0,sizeof(struct cw_ElemHandlerParams));
int elem_len, elem_id, max_len;
uint8_t * elem_data;
params.mand_found = mavl_create_conststr();
params.unrecognized = mlist_create(NULL, NULL, sizeof(uint8_t *));
elem_len = cw_get_elem_len(elem); params.cfg = cw_cfg_create();
elem_data=cw_get_elem_data(elem); params.cfg->dbg_level = DBG_ELEM_DETAIL_IN;
elem_id = cw_get_elem_id(elem); params.cfg->dbg_prefix = " ";
max_len=elems_len-(elem_data-elems_ptr); params.cfg_list=conn->cfg_list;
if (elem_len > max_len){
cw_dbg(DBG_RFC,
"Messag element claims size of %d bytes, but only %d bytes are left in the payload, truncating.",
elem_len,max_len-4);
}
/* params.conn=conn;*/
params.local_cfg=conn->local_cfg;
params.remote_cfg=conn->remote_cfg;
params.default_cfg=conn->default_cfg;
params.global_cfg=conn->global_cfg;
params.msgset=conn->msgset;
params.from = from; params.from = from;
params.msgdata = message; params.msgdata = message;
params.mand_found=mand_found; params.msgset=conn->msgset;
params.conn = conn;
params.dbg_level = DBG_ELEM_IN;
rc = cw_process_element(&params,0,0,elem_id,elem_data,elem_len); cw_decode_elements(&params,elems_ptr, elems_len);
if (cw_result_is_ok(rc))
continue;
if (rc == CAPWAP_RESULT_UNRECOGNIZED_MESSAGE_ELEMENT){
mlist_append(unrecognized,&elem);
continue;
}
if (rc < 0 ){
continue;
}
}
/* all message elements are processed, do now after processing /* all message elements are processed, do now after processing
by calling the "end" function for the message */ by calling the "end" function for the message */
cw_check_missing_mand(message,mand_found); if (params.mand_found)
cw_check_missing_mand(message, params.mand_found,conn->msgset->handlers_by_key);
cw_dbg(DBG_MSG_PARSING," *** Done parsing message of type %d (%s) ***", // cw_dbg(DBG_MSG_PARSING, "*** End parsing message of type %d (%s) ***",
message->type,message->name); // message->type, message->name);
mavl_destroy(mand_found);
/* cw_dbg_ktv_dump(conn->remote_cfg,DBG_CFG_DMP,
" *** Remote CFG dump ***", "CFG:", " *** End of remote CFG dump");
*/
if (params.mand_found)
mavl_destroy(params.mand_found);
if (message->postprocess) { if (message->postprocess) {
message->postprocess(conn); message->postprocess(&params,elems_ptr, elems_len);
} }
result_code = cw_conn_run_msg_cbs(conn,message->type,&params);
// cw_MsgCallbackFun cb_fun = cw_conn_get_msg_cb(conn,message->type);
if (result_code==-1){
cw_cfg_clear(conn->update_cfg);
result_code=0;
}
// conn->remote_cfg=params.cfg;
/* if we've got a request message, we always have to send a response message */ /* if we've got a request message, we always have to send a response message */
if (message->type & 1) { if (message->type & 1) {
@ -455,7 +587,8 @@ static int process_elements(struct conn *conn, uint8_t * rawmsg, int len,
cw_send_error_response(conn, rawmsg, result_code); cw_send_error_response(conn, rawmsg, result_code);
} else if (result_code == 0) { } else if (result_code == 0) {
cw_ktv_set_dword(conn->local_cfg,"result-code",result_code); cw_cfg_set_int(conn->update_cfg, "capwap/result-code",
result_code);
if (ui->next) { if (ui->next) {
conn->capwap_prevstate = conn->capwap_state; conn->capwap_prevstate = conn->capwap_state;
conn->capwap_state = ui->next; conn->capwap_state = ui->next;
@ -474,8 +607,10 @@ static int process_elements(struct conn *conn, uint8_t * rawmsg, int len,
* Put further actions here, if needed. * Put further actions here, if needed.
*/ */
} }
if (params.unrecognized)
/*stravltree_destroy(conn->mand);*/ mlist_destroy(params.unrecognized);
cw_cfg_destroy(params.cfg);
// conn->remote_cfg=NULL;
return result_code; return result_code;
@ -486,7 +621,7 @@ static int process_elements(struct conn *conn, uint8_t * rawmsg, int len,
int process_message(struct conn *conn, uint8_t * rawmsg, int rawlen, int process_message(struct cw_Conn *conn, uint8_t * rawmsg, int rawlen,
struct sockaddr *from) struct sockaddr *from)
{ {
char sock_buf[SOCK_ADDR_BUFSIZE]; char sock_buf[SOCK_ADDR_BUFSIZE];
@ -537,9 +672,9 @@ int process_message(struct conn *conn, uint8_t * rawmsg, int rawlen,
if (cw_get_hdr_msg_type(conn->resp_buffer) - 1 != type) { if (cw_get_hdr_msg_type(conn->resp_buffer) - 1 != type) {
cw_dbg(DBG_MSG_ERR, /* cw_dbg(DBG_MSG_ERR,
"No cached response for retransmission, request seqnum=%d,in cache=%d", "No cached response for retransmission, request seqnum=%d,in cache=%d",
s2, conn->resp_msg.type); s2, conn->resp_msg.type);*/
errno = EAGAIN; errno = EAGAIN;
return -1; return -1;
} }
@ -560,7 +695,7 @@ int process_message(struct conn *conn, uint8_t * rawmsg, int rawlen,
* @param packet pointer to packet data * @param packet pointer to packet data
* @param len lenght of packet data * @param len lenght of packet data
*/ */
int conn_process_packet2(struct conn *conn, uint8_t * packet, int len, int conn_process_packet2(struct cw_Conn *conn, uint8_t * packet, int len,
struct sockaddr *from) struct sockaddr *from)
{ {
char sock_buf[SOCK_ADDR_BUFSIZE]; char sock_buf[SOCK_ADDR_BUFSIZE];
@ -583,8 +718,8 @@ int conn_process_packet2(struct conn *conn, uint8_t * packet, int len,
/* wrong version */ /* wrong version */
cw_dbg(DBG_PKT_ERR, cw_dbg(DBG_PKT_ERR,
"Discarding packet from %s, wrong version, version=%d, version %d expected.", "Discarding packet from %s, wrong version, version=%d, version %d expected.",
sock_addr2str(&conn->addr,sock_buf), (preamble & 0xf0) >> 4, sock_addr2str(&conn->addr, sock_buf),
CAPWAP_VERSION); (preamble & 0xf0) >> 4, CAPWAP_VERSION);
errno = EAGAIN; errno = EAGAIN;
return -1; return -1;
} }
@ -619,7 +754,8 @@ int conn_process_packet2(struct conn *conn, uint8_t * packet, int len,
/* wrong rmac size */ /* wrong rmac size */
cw_dbg(DBG_PKT_ERR, cw_dbg(DBG_PKT_ERR,
"Discarding packet from %s, wrong R-MAC size, size=%d", "Discarding packet from %s, wrong R-MAC size, size=%d",
sock_addr2str(&conn->addr,sock_buf), *(packet + 8)); sock_addr2str(&conn->addr, sock_buf),
*(packet + 8));
errno = EAGAIN; errno = EAGAIN;
return -1; return -1;
} }
@ -629,24 +765,22 @@ int conn_process_packet2(struct conn *conn, uint8_t * packet, int len,
if (cw_get_hdr_flag_f(packet)) { if (cw_get_hdr_flag_f(packet)) {
/* fragmented, add the packet to fragman */ /* fragmented, add the packet to fragman */
uint8_t *f; uint8_t *f,*fp;
int rc; int rc;
f = fragman_add(conn->fragman, packet, offs, payloadlen); fp = fragman_add(conn->fragman, packet, offs, payloadlen);
if (f == NULL) { if (fp == NULL) {
errno = EAGAIN; errno = EAGAIN;
return -1; return -1;
} }
f =fp+MAX_PKT_HDR_LEN;
cw_dbg_pkt(DBG_PKT_IN, conn, f + 4, *(uint32_t *) f, from); cw_dbg_pkt(DBG_PKT_IN, conn, fp, *(uint32_t *) f+MAX_PKT_HDR_LEN, from);
/*// cw_dbg_msg(DBG_MSG_IN, conn, f + 4, *(uint32_t *) f, from);*/
/* // XXX: Modify fragman to not throw away CAPWAP headers*/
rc = conn->process_message(conn, f + 4, *(uint32_t *) f, from); rc = conn->process_message(conn, f + 4, *(uint32_t *) f, from);
free(f); free(fp);
return rc; return rc;
} }
@ -655,8 +789,9 @@ int conn_process_packet2(struct conn *conn, uint8_t * packet, int len,
return conn->process_message(conn, packet, len, from); return conn->process_message(conn, packet, len, from);
} }
int conn_process_packet(struct conn *conn, uint8_t * packet, int len, int conn_process_packet(struct cw_Conn *conn, uint8_t * packet, int len,
struct sockaddr *from){ struct sockaddr *from)
{
/* show this packet in debug output */ /* show this packet in debug output */
cw_dbg_pkt(DBG_PKT_IN, conn, packet, len, from); cw_dbg_pkt(DBG_PKT_IN, conn, packet, len, from);
@ -665,8 +800,9 @@ int conn_process_packet(struct conn *conn, uint8_t * packet, int len,
} }
int conn_process_data_packet(struct conn *conn, uint8_t * packet, int len, int conn_process_data_packet(struct cw_Conn *conn, uint8_t * packet, int len,
struct sockaddr *from){ struct sockaddr *from)
{
/* show this packet in debug output */ /* show this packet in debug output */
cw_dbg_pkt(DBG_PKT_IN, conn, packet, len, from); cw_dbg_pkt(DBG_PKT_IN, conn, packet, len, from);
@ -689,7 +825,7 @@ int conn_process_data_packet(struct conn *conn, uint8_t * packet, int len,
/** /**
* Used as main message loop * Used as main message loop
*/ */
int cw_read_messages(struct conn *conn) int cw_read_messages(struct cw_Conn *conn)
{ {
uint8_t buf[2024]; uint8_t buf[2024];
int len = 2024; int len = 2024;
@ -706,3 +842,35 @@ int cw_read_messages(struct conn *conn)
return -1; return -1;
} }
/**
* Destroy a conn object
* @param object to destroy
*/
void conn_destroy(struct cw_Conn * conn)
{
dtls_shutdown(conn);
if (conn->fragman)
fragman_destroy(conn->fragman);
if (conn->q)
free (conn->q);
if (conn->msg_callbacks)
mavl_destroy(conn->msg_callbacks);
if (conn->base_rmac)
free(conn->base_rmac);
if (conn->remote_cfg)
cw_cfg_destroy(conn->remote_cfg);
if (conn->local_cfg)
cw_cfg_destroy(conn->local_cfg);
if (conn->update_cfg)
cw_cfg_destroy(conn->update_cfg);
free(conn);
}

184
src/cw/conn.h
View File

@ -30,7 +30,7 @@
#include <sys/socket.h> #include <sys/socket.h>
#include "fragman.h" #include "fragman.h"
#include "cwmsg.h" //#include "cwmsg.h"
@ -38,7 +38,6 @@
/*#include "mbag.h"*/ /*#include "mbag.h"*/
#include "intavltree.h"
#include "bstr.h" #include "bstr.h"
#include "msgset.h" #include "msgset.h"
@ -56,9 +55,11 @@ struct cw_action_in;
/** /**
* Connection Object * Connection Object
*/ */
struct conn { struct cw_Conn {
int sock; int sock;
struct sockaddr_storage addr; struct sockaddr_storage addr;
char remote_addr[64]; /* Contains a printfable string, of the connections
peer address */
struct connlist * connlist; struct connlist * connlist;
@ -72,27 +73,24 @@ struct conn {
int recv_timeout; int recv_timeout;
mavl_t remote_cfg; cw_Cfg_t * global_cfg; /**< This should set to the global cfg of the program
mavl_t default_cfg; which is using this conn object.
mavl_t update_cfg; Teh global_cfg has to be treated read-only. */
mavl_t local_cfg;
mavl_t global_cfg;
int (*write_header)(struct cw_ElemHandler * handler, uint8_t * dst, int len); cw_Cfg_t * local_cfg; /**< local_cfg contains overrides for global_cfg
int (*header_len)(struct cw_ElemHandler *handler); wich are related to this conniection. */
/* mbag_t outgoing; cw_Cfg_t * remote_cfg; /**< contains the configuration we now from the
mbag_t incomming; device this conn object ist connected to.
mbag_t remote; Typically this is what we have got from discovery
mbag_t local; response or join response in WTP mode.
And in AC mode this contains datia received by
configuration status and join request. */
mbag_t radios; cw_Cfg_t * update_cfg;
mbag_t radios_upd;
mbag_t config; cw_Cfg_t * cfg_list[10];
mbag_t config_upd;
*/
/* uint8_t session_id[16];*/
bstr16_t session_id; bstr16_t session_id;
@ -105,16 +103,12 @@ struct conn {
uint8_t wbid; uint8_t wbid;
/** Counter for mandatory message elements */
struct avltree *mand;
/** Actionsdefs - this defines the possible actions for /** Actionsdefs - this defines the possible actions for
this conn object, so in the end this is the specification this conn object, so in the end this is the specification
of the protocoll */ of the protocoll */
struct cw_MsgSet * msgset;
uint8_t capwap_prevstate; uint8_t capwap_prevstate;
@ -135,10 +129,6 @@ struct conn {
int last_seqnum_received; int last_seqnum_received;
int last_message_id_received; int last_message_id_received;
struct cwmsg req_msg;
struct cwmsg resp_msg;
/** Buffer for outgoing request messages */ /** Buffer for outgoing request messages */
uint8_t req_buffer[CONN_MAX_MSG_LENGTH]; uint8_t req_buffer[CONN_MAX_MSG_LENGTH];
@ -154,20 +144,13 @@ struct conn {
/* receive and send methods */ /* receive and send methods */
int (*recv_packet) (struct conn *, uint8_t *, int); int (*recv_packet) (struct cw_Conn*, uint8_t *, int);
int (*recv_packet_peek) (struct conn *, uint8_t *, int); int (*recv_packet_peek) (struct cw_Conn*, uint8_t *, int);
int (*send_packet) (struct conn *, const uint8_t *, int); int (*send_packet) (struct cw_Conn*, const uint8_t *, int);
/* int (*readfrom) (struct cw_Conn*, uint8_t *, int, struct sockaddr_storage *);
// int (*recv_data_packet) (struct conn *, uint8_t *,int); int (*read) (struct cw_Conn*, uint8_t *, int);
// int (*send_data_packet) (struct conn *, const uint8_t *, int); int (*write) (struct cw_Conn*, const uint8_t *, int);
*/
int (*readfrom) (struct conn *, uint8_t *, int, struct sockaddr_storage *);
int (*read) (struct conn *, uint8_t *, int);
int (*write) (struct conn *, const uint8_t *, int);
/*
// int (*write_data) (struct conn *, const uint8_t *, int);
*/
/* optional packet queue */ /* optional packet queue */
uint8_t **q; uint8_t **q;
int qsize; int qsize;
@ -179,23 +162,23 @@ struct conn {
int cur_packet_pos; int cur_packet_pos;
/* dtls stuff */ /* dtls stuff */
int (*dtls_start) (struct conn *); int (*dtls_start) (struct cw_Conn*);
int (*dtls_accept) (struct conn *); int (*dtls_accept) (struct cw_Conn*);
bstr16_t dtls_psk; bstr16_t dtls_psk;
int dtls_psk_enable; int dtls_psk_enable;
int dtls_dhbits; int dtls_dhbits;
int (*dtls_get_psk)(struct conn *,const char *user,uint8_t**psk, int *len); int (*dtls_get_psk)(struct cw_Conn*,const char *user,uint8_t**psk, int *len);
struct cw_Mod *cmod, *bmod; struct cw_Mod *cmod, *bmod;
char *dtls_cert_file; const char *dtls_cert_file;
char *dtls_key_file; const char *dtls_key_file;
char *dtls_key_pass; const char *dtls_key_pass;
void *dtls_data; void *dtls_data;
char *dtls_cipher; const char *dtls_cipher;
int dtls_error; int dtls_error;
uint8_t dtls_cookie[8]; uint8_t dtls_cookie[8];
@ -219,7 +202,7 @@ struct conn {
void *data; void *data;
/** Mode */ /** Mode */
int capwap_mode; // int capwap_mode;
/** CAWAP mode for outgoing messages */ /** CAWAP mode for outgoing messages */
int capwap_mode_out; int capwap_mode_out;
@ -229,25 +212,27 @@ struct conn {
int strict_hdr; int strict_hdr;
int (*process_packet)(struct conn *conn, uint8_t * packet, int len,struct sockaddr *from); int (*process_packet)(struct cw_Conn*conn, uint8_t * packet, int len,struct sockaddr *from);
int (*process_message)(struct conn *conn, uint8_t * rawmsg, int rawlen, int (*process_message)(struct cw_Conn*conn, uint8_t * rawmsg, int rawlen,
struct sockaddr *from); struct sockaddr *from);
int detected; int detected;
void * mods; struct cw_MsgSet * msgset;
void (*setup_complete)(struct cw_Conn *conn);
struct mavl * msg_callbacks;
int (*msg_start)(struct conn *conn,struct cw_action_in *a,uint8_t*data,int len,struct sockaddr *from);
int (*msg_end)(struct conn *conn,struct cw_action_in *a,uint8_t*elem,int len,struct sockaddr *from);
int (*elem_end)(struct conn *conn,struct cw_action_in *a,int afrc,uint8_t*elem,int len,struct sockaddr *from);
/* /*
// void (*actions_registered)(struct conn *conn); int (*msg_start)(struct cw_Conn*conn,struct cw_action_in *a,uint8_t*data,int len,struct sockaddr *from);
int (*msg_end)(struct cw_Conn*conn,struct cw_action_in *a,uint8_t*elem,int len,struct sockaddr *from);
int (*elem_end)(struct cw_Conn*conn,struct cw_action_in *a,int afrc,uint8_t*elem,int len,struct sockaddr *from);
*/ */
}; };
typedef struct cw_Conn cw_Conn_t;
@ -255,76 +240,97 @@ struct conn {
struct conn *conn_create(int sock, struct sockaddr *addr, int qsize); struct cw_Conn* cw_conn_create(int sock, struct sockaddr *addr, int qsize);
struct conn *conn_create_noq(int sock, struct sockaddr *addr); struct cw_Conn* conn_create_noq(int sock, struct sockaddr *addr);
extern int conn_send_cwmsg(struct conn *conn, struct cwmsg *cwmsg); //extern int conn_send_cwmsg(struct cw_Conn*conn, struct cwmsg *cwmsg);
/* /*
//extern int conn_process_packet(struct conn *conn, uint8_t * packet, int len, //extern int conn_process_packet(struct cw_Conn*conn, uint8_t * packet, int len,
// int (*cb) (void *, uint8_t *,int len), void *cbarg); // int (*cb) (void *, uint8_t *,int len), void *cbarg);
*/ */
extern int conn_process_packet(struct conn *conn, uint8_t * packet, int len,struct sockaddr *from); extern int conn_process_packet(struct cw_Conn*conn, uint8_t * packet, int len,struct sockaddr *from);
extern int process_message(struct conn *conn, uint8_t * rawmsg, int rawlen, extern int process_message(struct cw_Conn*conn, uint8_t * rawmsg, int rawlen,
struct sockaddr *from); struct sockaddr *from);
extern uint8_t *conn_get_message(struct conn *conn); extern uint8_t *conn_get_message(struct cw_Conn*conn);
extern int conn_send_packet(struct conn *conn, const uint8_t * buffer, int len); extern int conn_send_packet(struct cw_Conn*conn, const uint8_t * buffer, int len);
extern int conn_send_data_packet(struct conn * conn, const uint8_t * buffer, int len); extern int conn_send_data_packet(struct cw_Conn* conn, const uint8_t * buffer, int len);
extern void conn_destroy(struct conn *conn); extern void conn_destroy(struct cw_Conn*conn);
uint8_t *conn_q_get_packet(struct conn *conn); uint8_t *conn_q_get_packet(struct cw_Conn*conn);
extern int conn_q_recv_packet(struct conn *conn, uint8_t * buffer, int len); extern int conn_q_recv_packet(struct cw_Conn*conn, uint8_t * buffer, int len);
extern int conn_q_recv_packet_peek(struct conn *conn, uint8_t * buffer, int len); extern int conn_q_recv_packet_peek(struct cw_Conn*conn, uint8_t * buffer, int len);
extern int conn_recv_packet(struct conn *conn, uint8_t * buf, int len); extern int conn_recv_packet(struct cw_Conn*conn, uint8_t * buf, int len);
extern int conn_recv_packet_peek(struct conn *conn, uint8_t * buf, int len); extern int conn_recv_packet_peek(struct cw_Conn*conn, uint8_t * buf, int len);
extern int conn_send_response(struct conn *conn, struct cwmsg *cwmsg, int seqnum); //extern int conn_send_response(struct cw_Conn*conn, struct cwmsg *cwmsg, int seqnum);
extern struct cwrmsg *conn_get_response(struct conn *conn); extern struct cwrmsg *conn_get_response(struct cw_Conn*conn);
#define conn_get_next_seqnum(conn) (conn->seqnum=((conn->seqnum+1)&0xff)) #define conn_get_next_seqnum(conn) (conn->seqnum=((conn->seqnum+1)&0xff))
#define conn_get_last_seqnum(conn) (conn->seqnum&0xff) #define conn_get_last_seqnum(conn) (conn->seqnum&0xff)
void conn_q_add_packet(struct conn *conn, uint8_t * packet, int len); void conn_q_add_packet(struct cw_Conn*conn, uint8_t * packet, int len);
struct image_identifier; struct image_identifier;
struct cwimage_data; struct cwimage_data;
extern void conn_prepare_request(struct conn *conn, int type); extern void conn_prepare_request(struct cw_Conn*conn, int type);
extern int conn_prepare_image_data_request(struct conn *conn, struct cwimage_data *, extern int conn_prepare_image_data_request(struct cw_Conn*conn, struct cwimage_data *,
struct image_identifier *id); struct image_identifier *id);
/* /*
//extern void conn_detect_capwap(struct conn *conn, struct wtpinfo *wtpinfo); //extern void conn_detect_capwap(struct cw_Conn*conn, struct wtpinfo *wtpinfo);
*/ */
struct cwrmsg *conn_send_request(struct conn *conn); struct cwrmsg *conn_send_request(struct cw_Conn*conn);
struct cwrmsg *conn_wait_for_message(struct conn *conn, time_t timer); struct cwrmsg *conn_wait_for_message(struct cw_Conn*conn, time_t timer);
struct cwrmsg *conn_wait_for_request(struct conn *conn, int *msglist, time_t timer); struct cwrmsg *conn_wait_for_request(struct cw_Conn*conn, int *msglist, time_t timer);
int conn_q_wait_packet(struct conn * conn, int seconds); //int conn_q_wait_packet(struct cw_Conn* conn, int seconds);
#define conn_is_error(conn) (conn->dtls_error) #define conn_is_error(conn) (conn->dtls_error)
void conn_init(struct conn *conn); void cw_conn_init(struct cw_Conn*conn);
extern int cw_read_messages(struct conn *conn); extern int cw_read_messages(struct cw_Conn*conn);
extern int conn_recvfrom_packet(struct conn *conn, uint8_t * buf, int len, extern int conn_recvfrom_packet(struct cw_Conn*conn, uint8_t * buf, int len,
struct sockaddr_storage *from); struct sockaddr_storage *from);
int conn_send_msg(struct conn * conn, uint8_t *rawmsg); int conn_send_msg(struct cw_Conn* conn, uint8_t *rawmsg);
int cw_read_from(struct conn * conn, struct sockaddr_storage * from); int cw_read_from(struct cw_Conn* conn, struct sockaddr_storage * from);
int conn_send_msg(struct conn *conn, uint8_t * rawmsg); int conn_send_msg(struct cw_Conn *conn, uint8_t * rawmsg);
void conn_clear_upd(struct cw_Conn*conn, int merge);
struct cw_MsgCb_data;
//typedef int (*cw_MsgCallbackFun)(struct cw_ElemHandlerParams * params, uint8_t * elems_ptr, int elems_len,
// struct cw_MsgCb_data *d);
typedef int (*cw_MsgCallbackFun)(struct cw_ElemHandlerParams * params, struct cw_MsgCb_data *d);
struct cw_MsgCb_data{
cw_MsgCallbackFun fun;
struct cw_MsgCb_data * parent;
};
int cw_conn_register_msg_cb(struct cw_Conn *conn, int type, cw_MsgCallbackFun fun);
cw_MsgCallbackFun cw_conn_get_msg_cb(struct cw_Conn *conn, int type);
int cw_decode_element(struct cw_ElemHandlerParams *params, int proto,
int vendor, int elem_id, uint8_t * data, int len);
int cw_decode_elements(struct cw_ElemHandlerParams * params, uint8_t * elems_ptr, int elems_len);
void conn_clear_upd(struct conn *conn, int merge);
#endif /* __CONN_H */ #endif /* __CONN_H */

72
src/cw/conn_create.c
View File

@ -35,76 +35,4 @@
/**
* Create a conn object
* @param sock a socket
* @param addr the address associated
* @param qsize size of packet queue
* @return A pointer to the created object
* This function creates a conn obnject with queueing functionality
* for asynchronous operation.
* To create a conn object without queue functionallity use #conn_create_noq.
*/
struct conn * conn_create(int sock, struct sockaddr * addr, int qsize)
{
struct conn * conn;
conn = malloc(sizeof (struct conn));
if (!conn)
return NULL;
conn_init(conn);
conn->sock=sock;
if (addr)
sock_copyaddr(&conn->addr,addr);
conn->fragman = fragman_create();
if (conn->fragman==NULL){
conn_destroy(conn);
return NULL;
}
conn->qsize=qsize;
if (qsize != 0){
if (!(conn->q=malloc( sizeof(uint8_t *) * qsize))){
conn_destroy(conn);
return NULL;
}
conn->qrpos=-1;
if (sem_init(&conn->q_sem,0,0)!=0){
cw_log(LOG_ERR,"Fatal- Can't init semaphore for conn object: %s",strerror(errno));
conn_destroy(conn);
return NULL;
};
conn->recv_packet=conn_q_recv_packet;
conn->recv_packet_peek=conn_q_recv_packet_peek;
}
else{
conn->recv_packet = conn_recv_packet;
conn->recv_packet_peek = conn_recv_packet_peek;
}
conn->send_packet = conn_send_packet;
/* conn->send_data_packet = conn_send_data_packet;*/
conn->last_seqnum_received=-1;
conn->mtu=600;
conn->cur_packet=0;
conn->recv_timeout=1;
conn->seqnum=-1;
conn->write = conn->send_packet;
conn->read = conn->recv_packet;
/* conn->write_data = conn->send_data_packet; */
conn->dtls_mtu = 600;
return conn;
}

8
src/cw/conn_create_noq.c
View File

@ -36,14 +36,14 @@
* @retval 1 Success * @retval 1 Success
* @retval 0 failure, conslt errno for more details * @retval 0 failure, conslt errno for more details
*/ */
struct conn * conn_create_noq(int sock, struct sockaddr * addr) struct cw_Conn * conn_create_noq(int sock, struct sockaddr * addr)
{ {
struct conn * conn; struct cw_Conn * conn;
conn = malloc(sizeof (struct conn)); conn = malloc(sizeof (struct cw_Conn ));
if (!conn) if (!conn)
return NULL; return NULL;
conn_init(conn); cw_conn_init(conn);
conn->sock=sock; conn->sock=sock;

41
src/cw/conn_destroy.c
View File

@ -1,41 +0,0 @@
/*
This file is part of actube.
actube is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
libcapwap is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Foobar. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* @file
* @brief Implements conn_destroy
*/
#include <stdlib.h>
#include "conn.h"
/**
* Destroy a conn object
* @param object to destroy
*/
void conn_destroy(struct conn * conn)
{
if (conn->fragman)
fragman_destroy(conn->fragman);
if (conn->q)
free (conn->q);
free(conn);
}

72
src/cw/conn_init.c
View File

@ -1,72 +0,0 @@
/*
This file is part of libcapwap.
libcapwap is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
libcapwap is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Foobar. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* @file
* @brief conn_init
*/
#include <string.h>
#include "conn.h"
#include "capwap.h"
#include "cw.h"
static int write_header(struct cw_ElemHandler * handler, uint8_t * dst, int len)
{
if (handler->vendor)
return len + cw_put_elem_vendor_hdr(dst, handler->vendor, handler->id, len);
return len + cw_put_elem_hdr(dst, handler->id, len);
}
static int header_len(struct cw_ElemHandler * handler)
{
return handler->vendor ? 10 : 4;
}
/**
* Basic initialization of a conn object
* @param conn conn object to initialize
*/
void conn_init(struct conn * conn)
{
memset(conn,0,sizeof(struct conn));
conn->retransmit_interval=CAPWAP_RETRANSMIT_INTERVAL;
conn->max_retransmit=CAPWAP_MAX_RETRANSMIT;
conn->wait_dtls=CAPWAP_WAIT_DTLS;
conn->wait_join=CAPWAP_WAIT_JOIN;
conn->mtu_discovery=1;
conn->capwap_mode = 0;
conn->strict_capwap=1;
conn->process_packet=conn_process_packet;
conn->process_message=process_message;
conn->write_header = write_header;
conn->header_len = header_len;
}

3
src/cw/conn_q_add_packet.c
View File

@ -25,7 +25,7 @@
#include "sock.h" #include "sock.h"
void conn_q_add_packet(struct conn * conn,uint8_t *packet,int len) void conn_q_add_packet(struct cw_Conn * conn,uint8_t *packet,int len)
{ {
char sock_buf[SOCK_ADDR_BUFSIZE]; char sock_buf[SOCK_ADDR_BUFSIZE];
int qwpos = conn->qwpos; int qwpos = conn->qwpos;
@ -42,7 +42,6 @@ void conn_q_add_packet(struct conn * conn,uint8_t *packet,int len)
conn->q[qwpos]=malloc(len+4); conn->q[qwpos]=malloc(len+4);
if (conn->q[qwpos]==NULL) if (conn->q[qwpos]==NULL)
return; return;
*((uint32_t*)(conn->q[qwpos]))=len; *((uint32_t*)(conn->q[qwpos]))=len;
memcpy(conn->q[qwpos]+4,packet,len); memcpy(conn->q[qwpos]+4,packet,len);
conn->qwpos=qwpos+1; conn->qwpos=qwpos+1;

2
src/cw/conn_q_get_packet.c
View File

@ -19,7 +19,7 @@
#include <time.h> #include <time.h>
#include "conn.h" #include "conn.h"
uint8_t * conn_q_get_packet(struct conn * conn) uint8_t * conn_q_get_packet(struct cw_Conn * conn)
{ {
int qrpos; int qrpos;
struct timespec timespec; struct timespec timespec;

6
src/cw/conn_q_recv_packet.c
View File

@ -22,7 +22,7 @@
#include "conn.h" #include "conn.h"
static int conn_q_recv_packet_(struct conn * conn, uint8_t * buffer,int len,int peek) static int conn_q_recv_packet_(struct cw_Conn * conn, uint8_t * buffer,int len,int peek)
{ {
if ( !conn->cur_packet) if ( !conn->cur_packet)
{ {
@ -58,12 +58,12 @@ static int conn_q_recv_packet_(struct conn * conn, uint8_t * buffer,int len,int
return conn->cur_packet_len; return conn->cur_packet_len;
} }
int conn_q_recv_packet(struct conn * conn, uint8_t * buffer,int len) int conn_q_recv_packet(struct cw_Conn * conn, uint8_t * buffer,int len)
{ {
return conn_q_recv_packet_(conn,buffer,len,0); return conn_q_recv_packet_(conn,buffer,len,0);
} }
int conn_q_recv_packet_peek(struct conn * conn, uint8_t * buffer,int len) int conn_q_recv_packet_peek(struct cw_Conn * conn, uint8_t * buffer,int len)
{ {
return conn_q_recv_packet_(conn,buffer,len,1); return conn_q_recv_packet_(conn,buffer,len,1);
} }

2
src/cw/conn_q_wait_packet.c
View File

@ -3,7 +3,7 @@
#include "conn.h" #include "conn.h"
int conn_q_wait_packet(struct conn * conn, int seconds) int conn_q_wait_packet(struct cw_Conn * conn, int seconds)
{ {
struct timespec timespec; struct timespec timespec;

11
src/cw/conn_recv_packet.c
View File

@ -27,8 +27,9 @@
#include "sock.h" #include "sock.h"
int conn_recv_packet_(struct conn *conn, uint8_t * buf, int len, int flags) int conn_recv_packet_(struct cw_Conn *conn, uint8_t * buf, int len, int flags)
{ {
printf("conn_recv\n");
int n; int n;
while ((n = recv(conn->sock, (char *) buf, len, flags)) < 0) { while ((n = recv(conn->sock, (char *) buf, len, flags)) < 0) {
if (errno != EINTR) { if (errno != EINTR) {
@ -41,7 +42,7 @@ int conn_recv_packet_(struct conn *conn, uint8_t * buf, int len, int flags)
} }
int conn_recvfrom_packet(struct conn *conn, uint8_t * buf, int len, int conn_recvfrom_packet(struct cw_Conn *conn, uint8_t * buf, int len,
struct sockaddr_storage *from) struct sockaddr_storage *from)
{ {
int n; int n;
@ -65,7 +66,7 @@ int conn_recvfrom_packet(struct conn *conn, uint8_t * buf, int len,
#include "log.h" #include "log.h"
int conn_recv_packet_x(struct conn *conn, uint8_t * buf, int len, int flags) int conn_recv_packet_x(struct cw_Conn *conn, uint8_t * buf, int len, int flags)
{ {
int port; int port;
socklen_t al; socklen_t al;
@ -104,12 +105,12 @@ int conn_recv_packet_x(struct conn *conn, uint8_t * buf, int len, int flags)
/* yes, these functions could be better defined as macros in a .h file */ /* yes, these functions could be better defined as macros in a .h file */
int conn_recv_packet(struct conn *conn, uint8_t * buf, int len) int conn_recv_packet(struct cw_Conn *conn, uint8_t * buf, int len)
{ {
return conn_recv_packet_x(conn, buf, len, 0); return conn_recv_packet_x(conn, buf, len, 0);
} }
int conn_recv_packet_peek(struct conn *conn, uint8_t * buf, int len) int conn_recv_packet_peek(struct cw_Conn *conn, uint8_t * buf, int len)
{ {
int rc = conn_recv_packet_(conn, buf, len, MSG_PEEK); int rc = conn_recv_packet_(conn, buf, len, MSG_PEEK);
return rc; return rc;

2
src/cw/conn_send_data_packet.c
View File

@ -29,7 +29,7 @@
#include "dbg.h" #include "dbg.h"
int conn_send_data_packet(struct conn * conn, const uint8_t * buffer, int len) int conn_send_data_packet(struct cw_Conn * conn, const uint8_t * buffer, int len)
{ {
char sock_buf[SOCK_ADDR_BUFSIZE]; char sock_buf[SOCK_ADDR_BUFSIZE];
int n; int n;

55
src/cw/conn_send_msg.c
View File

@ -3,9 +3,9 @@
#include "dbg.h" #include "dbg.h"
#define CW_MODE_ZYXEL 7 #define CW_MODE_ZYXEL 7
extern cw_send_msg(struct conn * conn,uint8_t * msg); extern int cw_send_msg(struct cw_Conn * conn,uint8_t * msg);
int conn_send_msg(struct conn * conn, uint8_t *rawmsg) int conn_send_msg(struct cw_Conn * conn, uint8_t *rawmsg)
{ {
uint8_t * ptr; uint8_t * ptr;
int packetlen; int packetlen;
@ -14,14 +14,51 @@ int conn_send_msg(struct conn * conn, uint8_t *rawmsg)
packetlen = cw_get_hdr_msg_total_len(rawmsg); packetlen = cw_get_hdr_msg_total_len(rawmsg);
cw_dbg_msg(DBG_MSG_OUT, conn,rawmsg, packetlen,(struct sockaddr*)&conn->addr); cw_dbg_msg(DBG_MSG_OUT, conn,rawmsg, packetlen,(struct sockaddr*)&conn->addr);
{
int type;
uint8_t *msgptr;
msgptr = rawmsg + cw_get_hdr_msg_offset(rawmsg);
struct cw_MsgData * msg;
type = cw_get_msg_type(msgptr);
msg = cw_msgset_get_msgdata(conn->msgset,type);
uint8_t *elems_ptr;
int offset = cw_get_hdr_msg_offset(rawmsg);
/* Zyxel doesn't count msg element length from uint8_t *msg_ptr = rawmsg + offset;
behind seqnum */ int elems_len = cw_get_msg_elems_len(msg_ptr);
if (conn->capwap_mode == CW_MODE_ZYXEL){ elems_ptr = cw_get_msg_elems_ptr(msg_ptr);
/* // XXX val-=3; */ cw_Cfg_t * cfg = cw_cfg_create();
cfg->dbg_level = DBG_ELEM_DETAIL_OUT;
cfg->dbg_prefix = " ";
struct cw_ElemHandlerParams params;
memset(&params,0,sizeof(struct cw_ElemHandlerParams));
params.cfg=cfg;
params.msgset=conn->msgset;
params.msgdata=msg;
params.mand_found = mavl_create_conststr();
params.dbg_level = DBG_ELEM_OUT;
cw_decode_elements( &params, elems_ptr,elems_len);
cw_cfg_destroy(cfg);
if (params.mand_found){
cw_check_missing_mand(msg, params.mand_found,conn->msgset->handlers_by_key);
mavl_destroy(params.mand_found);
} }
}
// Zyxel doesn't count msg element length from
// behind seqnum * /
// if (conn->capwap_mode == CW_MODE_ZYXEL){
// * // XXX val-=3; * /
// }
ptr = rawmsg; ptr = rawmsg;
@ -34,11 +71,11 @@ mtu = 9440;
mtu = mtu >> 3; mtu = mtu >> 3;
mtu = mtu << 3; mtu = mtu << 3;
printf("packetlenX = %d (%d)\n",packetlen,hlen); // printf("packetlenX = %d (%d)\n",packetlen,hlen);
int offset = cw_get_hdr_msg_offset(rawmsg); int offset = cw_get_hdr_msg_offset(rawmsg);
return cw_send_msg(conn,rawmsg+offset); return cw_send_msg(conn,rawmsg+offset);
/*
if (packetlen>mtu){ if (packetlen>mtu){
cw_set_hdr_flags(ptr,CAPWAP_FLAG_HDR_F,1); cw_set_hdr_flags(ptr,CAPWAP_FLAG_HDR_F,1);
cw_set_dword(ptr+4, conn->fragid<<16 | fragoffset<<3 ); cw_set_dword(ptr+4, conn->fragid<<16 | fragoffset<<3 );
@ -85,6 +122,6 @@ mtu = 9440;
cw_dbg_pkt(DBG_PKT_OUT,conn,ptr,packetlen,(struct sockaddr*)&conn->addr); cw_dbg_pkt(DBG_PKT_OUT,conn,ptr,packetlen,(struct sockaddr*)&conn->addr);
return conn->write(conn,ptr,packetlen-0); return conn->write(conn,ptr,packetlen-0); */
} }

2
src/cw/conn_send_packet.c
View File

@ -27,7 +27,7 @@
int conn_send_packet(struct conn * conn, const uint8_t * buffer, int len) int conn_send_packet(struct cw_Conn * conn, const uint8_t * buffer, int len)
{ {
int n; int n;
while((n=sendto( conn->sock, buffer, len, 0, while((n=sendto( conn->sock, buffer, len, 0,

64
src/cw/conn_send_request.c
View File

@ -1,64 +0,0 @@
/*
This file is part of libcapwap.
libcapwap is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
libcapwap is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Foobar. If not, see <http://www.gnu.org/licenses/>.
*/
/**
*@file
*@brief conn_send_request
*/
#include "capwap.h"
#include "cw_util.h"
#include "log.h"
/**
* Send a request message and wait for its response
* @param conn the connection
*
* The message has to be prepared and put to conn->req_msg
*
*/
/*
struct cwrmsg * conn_send_request(struct conn * conn)
{
int i;
struct cwrmsg * cwrmsg;
struct cwmsg * cwmsg = &conn->req_msg;
for (i=0; i<conn->max_retransmit; i++) {
time_t r_timer = cw_timer_start(conn->retransmit_interval);
if (i!=0)
cw_dbg(DBG_MSG_ERR,"Retransmitting message, type=%d,seq=%d",cwmsg->type,cwmsg->seqnum);
conn_send_cwmsg(conn,&conn->req_msg);
cwrmsg = conn_wait_for_message(conn,r_timer);
if (cwrmsg){
if (cwrmsg->type == conn->req_msg.type+1){
return cwrmsg;
}
}
}
cw_dbg(DBG_MSG_ERR,"Max retransmit's reached, message type=%d,seq=%d",cwmsg->type,cwmsg->seqnum);
return 0;
}
*/

27
src/cw/connlist.c
View File

@ -39,24 +39,24 @@
static int cmp_by_addr_p ( const void * d1, const void *d2 ) static int cmp_by_addr_p ( const void * d1, const void *d2 )
{ {
struct conn * c1 = * ( void ** ) d1 ; struct cw_Conn * c1 = * ( void ** ) d1 ;
struct conn * c2 = * ( void ** ) d2 ; struct cw_Conn * c2 = * ( void ** ) d2 ;
return sock_cmpaddr ( ( struct sockaddr* ) &c1->addr, ( struct sockaddr* ) &c2->addr, 1 ); return sock_cmpaddr ( ( struct sockaddr* ) &c1->addr, ( struct sockaddr* ) &c2->addr, 1 );
} }
static int cmp_by_addr ( const void * d1, const void *d2 ) static int cmp_by_addr ( const void * d1, const void *d2 )
{ {
struct conn * c1 = * ( void ** ) d1 ; struct cw_Conn * c1 = * ( void ** ) d1 ;
struct conn * c2 = * ( void ** ) d2 ; struct cw_Conn * c2 = * ( void ** ) d2 ;
return sock_cmpaddr ( ( struct sockaddr* ) &c1->addr, ( struct sockaddr* ) &c2->addr, 0 ); return sock_cmpaddr ( ( struct sockaddr* ) &c1->addr, ( struct sockaddr* ) &c2->addr, 0 );
} }
static int cmp_by_session_id ( const void *d1, const void *d2 ) static int cmp_by_session_id ( const void *d1, const void *d2 )
{ {
struct conn * c1 = *( void ** ) d1; struct cw_Conn * c1 = *( void ** ) d1;
struct conn * c2 = *( void ** ) d2; struct cw_Conn * c2 = *( void ** ) d2;
int len1,len2; int len1,len2;
if (c1->session_id==NULL && c2->session_id==NULL) if (c1->session_id==NULL && c2->session_id==NULL)
@ -133,6 +133,9 @@ void connlist_destroy ( struct connlist * cl )
if ( cl->by_addr ) if ( cl->by_addr )
mavl_destroy ( cl->by_addr ); mavl_destroy ( cl->by_addr );
if ( cl->by_session_id)
mavl_destroy ( cl->by_session_id );
pthread_mutex_destroy ( &cl->connlist_mutex ); pthread_mutex_destroy ( &cl->connlist_mutex );
free ( cl ); free ( cl );
@ -140,15 +143,15 @@ void connlist_destroy ( struct connlist * cl )
} }
struct conn * connlist_get ( struct connlist * cl, const struct sockaddr * addr ) struct cw_Conn * connlist_get ( struct connlist * cl, const struct sockaddr * addr )
{ {
struct conn search; struct cw_Conn search;
sock_copyaddr ( &search.addr, addr ); sock_copyaddr ( &search.addr, addr );
return mavl_get_ptr ( cl->by_addr, &search ); return mavl_get_ptr ( cl->by_addr, &search );
} }
struct conn * connlist_add ( struct connlist * cl, struct conn * conn ) struct cw_Conn * connlist_add ( struct connlist * cl, struct cw_Conn * conn )
{ {
if ( cl->len != 0 ) if ( cl->len != 0 )
if ( cl->by_addr->count >= cl->len ) if ( cl->by_addr->count >= cl->len )
@ -158,17 +161,17 @@ struct conn * connlist_add ( struct connlist * cl, struct conn * conn )
return mavl_insert_ptr ( cl->by_addr, conn ); return mavl_insert_ptr ( cl->by_addr, conn );
} }
struct conn * connlist_get_by_session_id ( struct connlist *cl, struct conn * conn ) struct cw_Conn * connlist_get_by_session_id ( struct connlist *cl, struct cw_Conn * conn )
{ {
return mavl_get_ptr ( cl->by_session_id, conn ); return mavl_get_ptr ( cl->by_session_id, conn );
} }
struct conn * connlist_add_by_session_id ( struct connlist * cl, struct conn * conn ) struct cw_Conn * connlist_add_by_session_id ( struct connlist * cl, struct cw_Conn * conn )
{ {
return mavl_insert_ptr ( cl->by_session_id, conn ); return mavl_insert_ptr ( cl->by_session_id, conn );
} }
void connlist_remove ( struct connlist *cl, struct conn * conn ) void connlist_remove ( struct connlist *cl, struct cw_Conn * conn )
{ {
void * md; void * md;
md = conn; md = conn;

12
src/cw/connlist.h
View File

@ -7,7 +7,7 @@
#include "pthread.h" #include "pthread.h"
struct connlist { struct connlist {
/* struct conn ** connlist; */ /* struct cw_Conn ** connlist; */
struct mavl *by_addr; struct mavl *by_addr;
struct mavl *by_session_id; struct mavl *by_session_id;
@ -22,12 +22,12 @@ struct connlist *connlist_create(int len, int cmpports);
void connlist_lock(struct connlist *cl); void connlist_lock(struct connlist *cl);
void connlist_unlock(struct connlist *cl); void connlist_unlock(struct connlist *cl);
void conlist_destroy(struct connlist *cl); void conlist_destroy(struct connlist *cl);
struct conn *connlist_get(struct connlist *cl, const struct sockaddr *addr); struct cw_Conn *connlist_get(struct connlist *cl, const struct sockaddr *addr);
struct conn *connlist_add(struct connlist *cl, struct conn *conn); struct cw_Conn *connlist_add(struct connlist *cl, struct cw_Conn *conn);
void connlist_remove(struct connlist *cl, struct conn *conn); void connlist_remove(struct connlist *cl, struct cw_Conn *conn);
void connlist_destroy(struct connlist *cl); void connlist_destroy(struct connlist *cl);
struct conn * connlist_get_by_session_id(struct connlist *cl, struct conn * conn); struct cw_Conn * connlist_get_by_session_id(struct connlist *cl, struct cw_Conn * conn);
struct conn * connlist_add_by_session_id(struct connlist * cl, struct conn * conn); struct cw_Conn * connlist_add_by_session_id(struct connlist * cl, struct cw_Conn * conn);
#endif #endif

467
src/cw/cw.c Normal file
View File

@ -0,0 +1,467 @@
#include "cw.h"
#include "log.h"
#include "dbg.h"
#include "keys.h"
int cw_in_generic(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params,
uint8_t * elem_data, int elem_len)
{
cw_Type_t * type;
type = (cw_Type_t*)handler->type;
char mkey[CW_CFG_MAX_KEY_LEN];
const char *key;
// cw_dbg(DBG_X,"HK: %s",handler->key,);
if (!type){
cw_log(LOG_ERR,"Can't handle element: %s, no type defined",handler->name);
return CAPWAP_RESULT_UNRECOGNIZED_MESSAGE_ELEMENT;
}
if (handler->mkkey != NULL){
handler->mkkey(handler->key,elem_data,elem_len, mkey);
key = mkey;
}
else{
key = handler->key;
}
// cw_dbg(DBG_X, "READ: %s / %s",type->name,key);
type->read(params->cfg, key,elem_data,elem_len,handler->param);
return CAPWAP_RESULT_SUCCESS;
}
int cw_out_generic0(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params
, uint8_t * dst,const char *key)
{
int start, len, l;
// cw_dbg(DBG_X,"cw_out_generic (%s)%s",((struct cw_Type*)handler->type)->name,handler->key);
// cw_dbg(DBG_X,"Generic out!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
// cw_cfg_dump(params->cfg);
// cw_dbg(DBG_X,"Generic out!!!!!!!!!!!!!!!!!!!!!!!!!!!! ENDDUMP");
//
//
if (!params->elemdata->mand){
if (!cw_cfg_base_exists(params->cfg_list[0],key)){
cw_dbg(DBG_MSG_COMPOSE," Add Elem: %d %d %d %s %s - (bskip)",
params->elemdata->proto,
params->elemdata->vendor,
params->elemdata->id,
handler->name, key);
return 0;
}
}
start = params->msgset->header_len(handler);
len = ((const cw_Type_t*)(handler->type))->
write(params->cfg_list,key,dst+start,handler->param);
// cw_dbg(DBG_X, "Type result is %d",len);
if (len == -1) {
const char *vendor="";
if ( handler->vendor ) {
vendor=cw_strvendor(handler->vendor);
}
if ( params->elemdata->mand) {
cw_log(LOG_ERR,
"Can't put mandatory element %s %d-(%s) into %s. No value for '%s' found.",
vendor, handler->id, handler->name, params->msgdata->name
, key
);
}
else{
/* cw_dbg(DBG_WARN,"No output for element %s%d -(%s) in %s. Item %s not found.",
vendor,
a->elem_id, cw_strelemp(conn->actions, a->elem_id)
, cw_strmsg(a->msg_id),a->item_id);
*/
}
return 0;
}
l = params->msgset->write_header(handler,dst,len);
return l;
}
int cw_out_generic(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params
, uint8_t * dst)
{
return cw_out_generic0(handler,params,dst,handler->key);
}
int cw_in_radio_generic(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params,
uint8_t * elem_data, int elem_len)
{
char key[CW_CFG_MAX_KEY_LEN];
int radio;
struct cw_Type *type;
type = (struct cw_Type*)handler->type;
if (!type){
cw_log(LOG_ERR,"Can't handle element: %s, no type defined",handler->name);
return CAPWAP_RESULT_UNRECOGNIZED_MESSAGE_ELEMENT;
}
radio=cw_get_byte(elem_data);
sprintf(key,"radio.%d/%s",radio,handler->key);
/*cw_cfg_set_val(params->cfg, key,
handler->type, handler->param, elem_data+1,elem_len-1);*/
type->read(params->cfg, key,elem_data+1,elem_len-1,handler->param);
return CAPWAP_RESULT_SUCCESS;
}
int cw_out_radio_generic(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params
, uint8_t * dst)
{
char key[CW_CFG_MAX_KEY_LEN];
struct cw_Type * type;
int len,i,l,start;
int radios;
len =0;
for (i=0; (i=cw_cfg_get_first_index_l(params->cfg_list,"radio",i))!=-1; i++){
sprintf(key,"radio.%d/%s",i,handler->key);
if (!params->elemdata->mand){
if (!cw_cfg_base_exists(params->cfg_list[0],key)){
cw_dbg(DBG_MSG_COMPOSE," Add Elem: %d %d %d %s %s - (skip)",
params->elemdata->proto,
params->elemdata->vendor,
params->elemdata->id,
handler->name, key);
continue;
}
}
type = (struct cw_Type*)handler->type;
start = params->msgset->header_len(handler)+len;
l = type->write(params->cfg_list, key,dst+start+1,handler->param);
if (l==-1)
continue;
l += cw_put_byte(dst+start,i);
l = params->msgset->write_header(handler,dst+len,l);
len+=l;
}
return len;
radios = cw_cfg_get_byte_l(params->cfg_list,"capwap/wtp-descriptor/max-radios",0);
for(i=0;i<radios;i++){
type = (struct cw_Type*)handler->type;
start = params->msgset->header_len(handler)+len;
sprintf(key,"radio.%d/%s",i,handler->key);
//printf("RADIO KEY: %s\n",key);
// cw_dbg(DBG_X,"KEY: %s",key);
l = type->write(params->cfg_list, key,dst+start+1,handler->param);
if (l==-1)
continue;
l += cw_put_byte(dst+start,i);
l = params->msgset->write_header(handler,dst+len,l);
len+=l;
}
return len;
}
int cw_write_header(struct cw_ElemHandler * handler, uint8_t * dst, int len)
{
if (handler->vendor)
return len + cw_put_elem_vendor_hdr(dst, handler->vendor, handler->id, len);
return len + cw_put_elem_hdr(dst, handler->id, len);
}
int cw_header_len(struct cw_ElemHandler * handler)
{
return handler->vendor ? 10 : 4;
}
/**
* Put the "status part" of an an AC Descriptor to memory
* @param cfg_list Cfg list to read status from
* @param dst Where to put the status to
* @param parent_key prefix to each key
*/
int
cw_put_ac_status(uint8_t *dst, cw_Cfg_t ** cfg_list, const char * parent_key){
uint8_t *d = dst;
char key[CW_CFG_MAX_KEY_LEN];
/* put statiosn */
sprintf(key,"%s/%s",parent_key,"stations");
d += cw_put_word(d,cw_cfg_get_word_l(cfg_list,key,0));
/* put station limit */
sprintf(key,"%s/%s",parent_key,"station-limit");
d += cw_put_word(d,cw_cfg_get_word_l(cfg_list,key,0));
/* Put number of active WTPs */
sprintf(key,"%s/%s",parent_key,"active-wtps");
d += cw_put_word(d,cw_cfg_get_word_l(cfg_list,key,0));
/* Put max WTPs */
sprintf(key,"%s/%s",parent_key,"max-wtps");
d += cw_put_word(d,cw_cfg_get_word_l(cfg_list,key,0));
/* Put security flags */
sprintf(key,"%s/%s",parent_key,"security");
d += cw_put_byte(d,cw_cfg_get_byte_l(cfg_list,key,0));
/* Put rmac-filed */
sprintf(key,"%s/%s",parent_key,"rmac-field");
d += cw_put_byte(d,cw_cfg_get_byte_l(cfg_list,key,0));
/* reserved field, must be zero - RFC5415 */
d += cw_put_byte(d,0);
sprintf(key,"%s/%s",parent_key,"dtls-policy");
d += cw_put_byte(d,cw_cfg_get_byte_l(cfg_list,key,0));
return d - dst;
}
/**
* Put a descripter sub element like harware vendor/version etc.
* Used when putting AC Descriptors or WTP Descriptors
* @param dst Where to write to
* @param cfg_list list of cfgs
* @subelem_id Id of subelement
* @parent_key parent key
*/
int
cw_put_descriptor_subelem (uint8_t *dst, cw_Cfg_t ** cfg_list,
int subelem_id, const char * parent_key )
{
char key[256];
uint32_t vendor;
//bstr16_t version;
const char *vendor_s;
uint8_t *d;
/* d += cw_put_dword(d, bstrv_get_vendor_id(v));
d += cw_put_dword(d, (subelem_id << 16) | bstrv_len(v));
d += cw_put_data(d, bstrv_data(v), bstrv_len(v));
*/
sprintf (key, "%s/%s", parent_key, CW_SKEY_VENDOR);
vendor_s = cw_cfg_get_l (cfg_list, key, NULL);
if (vendor_s == NULL) {
cw_log (LOG_ERR, "Can't put subelem %s, no value of type Dword found.", key);
return 0;
}
vendor = atoi(vendor_s);
sprintf (key, "%s/%s", parent_key, CW_SKEY_VERSION);
cw_Val_t * val = cw_cfg_get_val_l(cfg_list, key, CW_TYPE_BSTR16);
//version = cw_cfg_get_bstr16 (cfg, key, NULL);
if (val == NULL) {
cw_log (LOG_ERR, "Can't put subelem %s, no value of type Bstr16 found.", key);
return 0;
}
d = dst;
/* put vendor */
d += cw_put_dword(d, vendor); //->type->put (vendor, d);
/* put version */
d += cw_put_dword (d, (subelem_id << 16) | val->type->len(val));
// d += cw_put_bstr16(d, version);
d += val->type->put(val,d);
cw_val_destroy(val);
// free(version);
return d-dst;
}
/*
int cw_out_traverse0(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params
, uint8_t * dst, int i, const char *current, const char * next,
int * stack)
{
char *sl;
int l;
char key[CW_CFG_MAX_KEY_LEN];
int len;
len = 0;
printf("Next: %s\n", next);
sl = strchr(next,'/');
if (sl==NULL){
cw_Val_t * result;
sprintf(key,"%s/%s",current,next);
result = cw_ktv_base_exists(params->cfg,key);
if (result != NULL){
int offset;
int i,l;
offset = params->msgset->header_len(handler);
printf("Yea! We can do it: %s\n",result->key);
for (i=0;i<stack[0];i++){
printf("I=%i\n",stack[i+1]);
}
l= cw_ktv_write_struct(params->cfg,params->cfg,
handler->type,key,dst+offset);
printf("Write struct len %i\n",l);
l=params->msgset->write_header(handler,dst,l);
printf("header wr len %d\n",l);
if (handler->patch){
handler->patch(dst+offset,stack);
}
return l;
}
return 0;
}
strcpy(key,current);
printf("current is %s\n", current);
if (key[0!=0])
strcat(key,"/");
l = sl - next;
strncat(key,next,l);
printf("Here we are %s\n",key);
cw_dbg_ktv_dump(params->cfg,DBG_INFO,"start"," ", "end" );
i=-1;
while(1){
char basekey[CW_CFG_MAX_KEY_LEN];
cw_Val_t * result;
i = cw_ktv_idx_get_next(params->cfg,key,i+1);
if (i==-1)
break;
sprintf(basekey,"%s.%d",key,i);
printf("Our basekey is %s\n",basekey);
result = cw_ktv_base_exists(params->cfg,basekey);
if (result == NULL){
continue;
}
stack[0]++;
stack[stack[0]]=i;
len += cw_out_traverse0(handler,params,dst+len,-1,basekey,next+l+1, stack);
printf("Len is now %d\n", len);
}
return len;
return 0;
}
*/
int cw_out_traverse(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params
, uint8_t * dst)
{
/* char current[CW_CFG_MAX_KEY_LEN];
int stack[10];
stack[0]=0;
current[0]=0;
// return cw_out_traverse0(handler,params,dst,-1,current,handler->key, stack);*/
return 0;
}
int walk0(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params
, uint8_t * dst, const char *current, const char * next)
{
char key[CW_CFG_MAX_KEY_LEN];
const char *sl;
int rc;
int len=0;
/* Is this the last key ? */
sl = strchr(next,'/');
if (sl){
char basekey[CW_CFG_MAX_KEY_LEN+13];
int i,l;
strcpy(key,current);
l = sl - next;
strncat(key,next,l);
for (i=0; (i=cw_cfg_get_first_index_l(params->cfg_list,key,i))!=-1; i++){
sprintf(basekey,"%s.%d%c",key,i, *(sl+1) ?'/':'\0');
rc = walk0(handler,params,dst,basekey,next+l+1);
if (rc>0)
len+=rc;
}
return len;
}
printf("Final %s [%s]\n",current,next);
return cw_out_generic0(handler,params,dst,current);
return 0;
}
int cw_out_generic_walk(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params
, uint8_t * dst)
{
char current[CW_CFG_MAX_KEY_LEN];
// int stack[10];
// stack[0]=0;
current[0]=0;
return walk0(handler,params,dst,current,handler->key);
}

67
src/cw/cw.h
View File

@ -146,8 +146,10 @@
int cw_get_hdr_ws_len(uint8_t * th); int cw_get_hdr_ws_len(uint8_t * th);
uint8_t *cw_get_hdr_ws_data(uint8_t * th); int cw_get_hdr_ws_len_7(uint8_t * th);
uint8_t *cw_get_hdr_ws_data(uint8_t * th);
#define cw_get_hdr_ws_data_7(th) (cw_get_hdr_ws_data(th)+1)
#define cw_get_hdr_msg_offset(th) (4*cw_get_hdr_hlen(th)) #define cw_get_hdr_msg_offset(th) (4*cw_get_hdr_hlen(th))
@ -217,7 +219,7 @@ void cw_set_hdr_rid(uint8_t * th, int rid);
* @see #cw_is_request * @see #cw_is_request
*/ */
#define cw_is_response(msg_id) (!is_response(msg_id)) #define cw_is_response(msg_id) (!cw_is_resquest(msg_id))
uint8_t *cw_get_hdr_msg_elems_ptr(uint8_t * m); uint8_t *cw_get_hdr_msg_elems_ptr(uint8_t * m);
@ -327,7 +329,7 @@ int cw_put_elem_result_code(uint8_t * dst, uint32_t code);
/*extern int cw_put_ac_status(uint8_t * dst, struct cw_ac_status *s, struct conn *conn);*/ /*extern int cw_put_ac_status(uint8_t * dst, struct cw_ac_status *s, struct cw_Conn *conn);*/
struct cw_DescriptorSubelemDef { struct cw_DescriptorSubelemDef {
@ -348,43 +350,44 @@ struct cw_DescriptorSubelemDef {
int cw_check_missing_mand(struct cw_MsgData *msgdata, mavl_t keys ); //int cw_check_missing_mand(struct cw_MsgData *msgdata, mavl_t keys );
int cw_check_missing_mand(struct cw_MsgData *msgdata, mavl_t keys, mavl_t handlers_by_key );
extern int cw_read_descriptor_subelems(mavl_t store, const char * key, uint8_t * data, int len, extern int cw_read_descriptor_subelems(cw_Cfg_t * store, const char * key, uint8_t * data, int len,
struct cw_DescriptorSubelemDef *elems); struct cw_DescriptorSubelemDef *elems);
/* /*
int cw_read_wtp_descriptor(mavl_t mbag, struct conn *conn, int cw_read_wtp_descriptor(mavl_t mbag, struct cw_Conn *conn,
struct cw_ElemHandler *eh, uint8_t * data, int len, struct cw_ElemHandler *eh, uint8_t * data, int len,
struct cw_DescriptorSubelemDef *allowed); struct cw_DescriptorSubelemDef *allowed);
*/ */
int cw_read_wtp_descriptor(mavl_t mbag, struct conn *conn, int cw_read_wtp_descriptor(cw_Cfg_t * mbag, struct cw_Conn *conn,
struct cw_ElemHandler *eh, uint8_t * data, int len, struct cw_ElemHandler *eh, uint8_t * data, int len,
struct cw_DescriptorSubelemDef *allowed); struct cw_DescriptorSubelemDef *allowed);
int cw_write_descriptor_subelem (uint8_t *dst, mavl_t ktvstore, int cw_write_descriptor_subelem (uint8_t *dst, cw_Cfg_t ** cfg_list,
int subelem_id, const char * parent_key); int subelem_id, const char * parent_key);
int cw_write_radio_element(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params, int idx, int cw_write_radio_element(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params, int idx,
uint8_t * dst); uint8_t * dst);
extern int cw_read_wtp_descriptor_7(mavl_t mbag, struct conn *conn, extern int cw_read_wtp_descriptor_7(cw_Cfg_t * cfg, struct cw_Conn *conn,
struct cw_ElemHandler *eh, uint8_t * data, int len, struct cw_ElemHandler *eh, uint8_t * data, int len,
struct cw_DescriptorSubelemDef *allowed); struct cw_DescriptorSubelemDef *allowed);
int cw_read_ac_descriptor(mavl_t store, int cw_read_ac_descriptor(cw_Cfg_t * store,
struct cw_ElemHandler *eh, struct cw_ElemHandler *eh,
struct cw_ElemHandlerParams * params, struct cw_ElemHandlerParams * params,
uint8_t *data, int len, uint8_t *data, int len,
struct cw_DescriptorSubelemDef *allowed); struct cw_DescriptorSubelemDef *allowed);
int cw_setup_dtls(struct conn * conn, mavl_t cfg, const char *prefix, char * default_cipher); int cw_setup_dtls(struct cw_Conn * conn, cw_Cfg_t * cfg, const char *prefix, char * default_cipher);
@ -444,11 +447,11 @@ int cw_out_radio_generic(struct cw_ElemHandler * handler, struct cw_ElemHandlerP
int cw_out_radio_generic_struct(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params int cw_out_radio_generic_struct(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params
, uint8_t * dst); , uint8_t * dst);
extern int cw_in_wtp_reboot_statistics(struct conn *conn, struct cw_action_in *a, extern int cw_in_wtp_reboot_statistics(struct cw_Conn *conn, struct cw_action_in *a,
uint8_t * data, int len, struct sockaddr *from); uint8_t * data, int len, struct sockaddr *from);
extern int cw_in_wtp_board_data(struct conn *conn, struct cw_action_in *a, uint8_t * data, extern int cw_in_wtp_board_data(struct cw_Conn *conn, struct cw_action_in *a, uint8_t * data,
int len, struct sockaddr *from); int len, struct sockaddr *from);
/* /*
@ -457,24 +460,24 @@ int cw_in_vendor_specific_payload(struct cw_ElemHandler *handler,
uint8_t * data, int len); uint8_t * data, int len);
*/ */
extern int cw_in_capwap_control_ip_address(struct conn *conn, struct cw_action_in *a, extern int cw_in_capwap_control_ip_address(struct cw_Conn *conn, struct cw_action_in *a,
uint8_t * data, int len, uint8_t * data, int len,
struct sockaddr *from); struct sockaddr *from);
extern int cw_in_capwap_local_ipv4_address(struct conn *conn, struct cw_action_in *a, extern int cw_in_capwap_local_ipv4_address(struct cw_Conn *conn, struct cw_action_in *a,
uint8_t * data, int len, uint8_t * data, int len,
struct sockaddr *from); struct sockaddr *from);
extern int cw_in_capwap_local_ipv6_address(struct conn *conn, struct cw_action_in *a, extern int cw_in_capwap_local_ipv6_address(struct cw_Conn *conn, struct cw_action_in *a,
uint8_t * data, int len, uint8_t * data, int len,
struct sockaddr *from); struct sockaddr *from);
extern int cw_in_radio_operational_state(struct conn *conn, struct cw_action_in *a, extern int cw_in_radio_operational_state(struct cw_Conn *conn, struct cw_action_in *a,
uint8_t * data, int len, struct sockaddr *from); uint8_t * data, int len, struct sockaddr *from);
/* /*
int cw_process_element(struct conn * conn, int cw_process_element(struct cw_Conn * conn,
struct cw_MsgData * msgdata, int proto, int vendor, struct cw_MsgData * msgdata, int proto, int vendor,
uint8_t * elem, int max_len); uint8_t * elem, int max_len);
*/ */
@ -502,7 +505,7 @@ int cw_process_element(struct cw_ElemHandlerParams *params,
#define cw_out_capwap_local_ip_address_7 cw_out_wtp_ip_address #define cw_out_capwap_local_ip_address_7 cw_out_wtp_ip_address
void cw_init_request(struct conn *conn, int msg_id); void cw_init_request(struct cw_Conn *conn, int msg_id);
/** /**
@ -527,16 +530,16 @@ int cw_put_elem_radio_administrative_state(uint8_t * dst, int rid, int state);
int cw_put_local_ip_address(uint8_t *dst, int id, int ipv_id, int ipv6_id, int cw_put_local_ip_address(uint8_t *dst, int id, int ipv_id, int ipv6_id,
uint8_t *src, int len); uint8_t *src, int len);
int cw_detect_nat(struct conn *conn); int cw_detect_nat(struct cw_ElemHandlerParams *conn);
uint8_t *cw_init_data_keep_alive_msg(uint8_t * buffer,uint8_t *rmac); uint8_t *cw_init_data_keep_alive_msg(uint8_t * buffer,uint8_t *rmac);
/*int cw_out_radio_generic(struct conn *conn, struct cw_action_out *a, uint8_t * dst);*/ /*int cw_out_radio_generic(struct cw_Conn *conn, struct cw_action_out *a, uint8_t * dst);*/
int cw_put_elem_session_id(uint8_t *dst, uint8_t *session_id, int len); int cw_put_elem_session_id(uint8_t *dst, uint8_t *session_id, int len);
int cw_result_is_ok( int rc ); int cw_result_is_ok( int rc );
int cw_put_msg(struct conn *conn, uint8_t * rawout); int cw_assemble_message(struct cw_Conn *conn, uint8_t * rawout);
/** /**
* @} * @}
@ -550,6 +553,26 @@ int cw_stricmp(char const *a, char const *b);
int cw_write_header(struct cw_ElemHandler * handler, uint8_t * dst, int len); int cw_write_header(struct cw_ElemHandler * handler, uint8_t * dst, int len);
int cw_header_len(struct cw_ElemHandler * handler); int cw_header_len(struct cw_ElemHandler * handler);
int cw_compose_message(struct cw_Conn *conn, uint8_t * rawout);
int cw_put_ac_status(uint8_t *dst, cw_Cfg_t ** cfg_list, const char * parent_key);
int cw_put_descriptor_subelem (uint8_t *dst, cw_Cfg_t ** cfg_list,
int subelem_id, const char * parent_key );
int cw_send_request(struct cw_Conn *conn,int msg_id);
int cw_out_generic_walk(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params
, uint8_t * dst);
int cw_out_generic0(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params
, uint8_t * dst,const char *key);
int cw_init_capwap_packet( uint8_t * buf, int wbid ,int rid, bstr_t rmac, bstr_t wd);
int cw_send_capwap_packet(struct cw_Conn * conn, uint8_t * buf, int hlen, uint8_t * data, int len);
/** /**
*@} *@}
*/ */

12
src/cw/cw_80211.h
View File

@ -1,12 +0,0 @@
#ifndef __CW_80211_H
#define __CW_80211_H
/*
int cw_in_80211_mac_operation(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len, struct sockaddr *from);
int cw_read_80211_mac_operation(uint8_t *data,mbag_t r);
*/
#endif

22
src/cw/cw_check_missing_mand.c
View File

@ -3,13 +3,16 @@
#include "dbg.h" #include "dbg.h"
#include "log.h" #include "log.h"
int cw_check_missing_mand(struct cw_MsgData *msgdata, mavl_t keys ) int cw_check_missing_mand(struct cw_MsgData *msgdata, mavl_t keys, mavl_t handlers_by_key )
{ {
mlistelem_t * elem; mlistelem_t * elem;
char *mandkey, *result; char *mandkey, *result;
mlist_t missing; mlist_t missing;
int count; int count;
if (msgdata==NULL)
return 0;
missing = mlist_create_conststr(); missing = mlist_create_conststr();
if (missing==NULL){ if (missing==NULL){
cw_log(LOG_ERR, "Can't allocate memory for check of missing mand elems: %s", strerror(errno)); cw_log(LOG_ERR, "Can't allocate memory for check of missing mand elems: %s", strerror(errno));
@ -26,7 +29,22 @@ int cw_check_missing_mand(struct cw_MsgData *msgdata, mavl_t keys )
} }
mlist_foreach(elem,missing){ mlist_foreach(elem,missing){
cw_dbg(DBG_RFC," Missing mandatory message element: %s", mlistelem_get_str(elem)); const char * str;
struct cw_ElemHandler search, *result;
str = mlistelem_get_str(elem);
search.key = str;
result = mavl_get(handlers_by_key,&search);
if (result == NULL){
cw_log(LOG_ERR,"Can't find handler for for key %s",str);
}
else {
cw_dbg(DBG_RFC,"Missing mandatory message element: %s: %d - %s",
str,result->id, result->name);
}
} }
count = missing->count; count = missing->count;

26
src/cw/cw_dbg_set_level.c
View File

@ -1,26 +0,0 @@
#include "dbg.h"
/**
* Set debug level
* @param level debug level to set, allowed values are enumberated in #cw_dbg_levels structure.
* @param on 1: turns the specified debug level on, 0: turns the specified debug level off.
*/
void cw_dbg_set_level (int level, int on)
{
switch (level) {
case DBG_ALL:
if (on)
cw_dbg_opt_level = 0xffffffff;
else
cw_dbg_opt_level = 0;
break;
default:
if (on)
cw_dbg_opt_level |= (1 << (level));
else
cw_dbg_opt_level &= (0xffffffff) ^ (1 << (level));
}
}

30
src/cw/cw_dbg_set_level_from_str.c
View File

@ -1,30 +0,0 @@
#include "dbg.h"
int cw_dbg_set_level_from_str(const char *level)
{
int blevel,on;
const char *slevel;
switch(*level){
case '-':
case '!':
on =0;
slevel=level+1;
break;
case '+':
slevel=level+1;
on=1;
break;
default:
slevel=level;
on=1;
}
blevel = cw_strlist_get_id(cw_dbg_strings, slevel);
if (blevel==-1)
return 0;
cw_dbg_set_level(blevel,on);
return 1;
}

126
src/cw/cw_decode_msg.c
View File

@ -1,126 +0,0 @@
#include "cw.h"
#include "dbg.h"
#include "log.h"
#include "msgset.h"
int cw_decode_element(struct cw_ElemHandlerParams *params, int proto,
int vendor, int elem_id, uint8_t * data, int len)
{
struct cw_ElemHandler *handler;
struct cw_ElemData *elem_data, elem_data_search;
int rc;
params->elem = NULL;
/* try to retrieve a handler for this message element */
handler =
cw_msgset_get_elemhandler(params->msgset, proto, vendor,
elem_id);
if (!handler) {
cw_dbg(DBG_ELEM_ERR,
"Unrecognized message element: %d, ignoring", elem_id);
return CAPWAP_RESULT_UNRECOGNIZED_MESSAGE_ELEMENT;
}
/* check if this message element in the current message allowed */
elem_data_search.id = elem_id;
elem_data_search.proto = proto;
elem_data_search.vendor = vendor;
elem_data = mavl_get(params->msgdata->elements_tree, &elem_data_search);
if (!elem_data) {
cw_dbg(DBG_ELEM_ERR, "Element %d - %s, not allowed here",
elem_id, handler->name);
return CAPWAP_RESULT_UNRECOGNIZED_MESSAGE_ELEMENT;
}
/* check the length of the message */
if (len < handler->min_len) {
cw_dbg(DBG_ELEM_ERR,
"%d (%s) message element too short, len=%d, min len=%d",
handler->id, handler->name, len, handler->min_len);
return -1;
}
if (elem_data->mand) {
mavl_add_str(params->mand_found, handler->key);
}
if (len > handler->max_len && handler->max_len) {
cw_dbg(DBG_ELEM_ERR,
"%d (%s) message element too big, len=%d, max len=%d",
handler->id, handler->name, len, handler->max_len);
/* TODO XXX truncate the element instead of return */
return -1;
}
cw_dbg_elem(DBG_ELEM_IN, NULL, params->msgdata->type, handler,
data, len);
if (handler->get == NULL) {
cw_log(LOG_ERR, "No get method defined for %d %s", handler->id,
handler->name);
return CAPWAP_RESULT_UNRECOGNIZED_MESSAGE_ELEMENT;
}
printf ("USING HANDLERi TO DECODE: %d %s\n",handler->id,handler->name);
rc = handler->get(handler, params, data, len);
return rc;
}
int cw_decode_elements(struct cw_ElemHandlerParams * params, uint8_t * elems_ptr, int elems_len)
{
uint8_t *elem;
mavl_t mand_found;
mlist_t unrecognized;
mand_found = mavl_create_conststr();
unrecognized = mlist_create(NULL,NULL,sizeof(uint8_t*));
cw_foreach_elem(elem, elems_ptr, elems_len) {
int rc;
int elem_len, elem_id, max_len;
uint8_t * elem_data;
elem_len = cw_get_elem_len(elem);
elem_data=cw_get_elem_data(elem);
elem_id = cw_get_elem_id(elem);
max_len=elems_len-(elem_data-elems_ptr);
if (elem_len > max_len){
cw_dbg(DBG_RFC,
"Messag element claims size of %d bytes, but only %d bytes are left in the payload, truncating.",
elem_len,max_len-4);
}
params->from=NULL; /*from;*/
params->mand_found=mand_found;
rc = cw_decode_element(params,0,0,elem_id,elem_data,elem_len);
if (cw_result_is_ok(rc))
continue;
if (rc == CAPWAP_RESULT_UNRECOGNIZED_MESSAGE_ELEMENT){
mlist_append(unrecognized,&elem);
continue;
}
if (rc < 0 ){
continue;
}
}
}

23
src/cw/cw_detect_nat.c
View File

@ -3,22 +3,22 @@
#include "dbg.h" #include "dbg.h"
#include "cw.h" #include "cw.h"
#include "cfg.h"
/** /**
* @brief Detect NAT after a join/discovery request * @brief Detect NAT after a Join Request
* @param conn Connection object * @param conn Connection object
* @retval 1 NAT detected * @retval 1 NAT detected
* @retval 0 no NAT was detected * @retval 0 no NAT was detected
*/ */
int cw_detect_nat(struct conn *conn) int cw_detect_nat(struct cw_ElemHandlerParams *params)
{ {
cw_Val_t * result; const char * remote_str;
char local_str[128]; char local_str[128];
char remote_str[128];
result = cw_ktv_get(conn->remote_cfg,"capwap-local-ip-address",CW_TYPE_IPADDRESS); remote_str = cw_cfg_get(params->cfg,"capwap/local-ip-address",NULL);
if (result == NULL){
if (remote_str == NULL){
cw_dbg(DBG_WARN,"Can't detect NAT. No local IP from peer received."); cw_dbg(DBG_WARN,"Can't detect NAT. No local IP from peer received.");
return 0; return 0;
} }
@ -26,14 +26,17 @@ int cw_detect_nat(struct conn *conn)
/* convert remote connected and sent ip addresse to /* convert remote connected and sent ip addresse to
* strings */ * strings */
sock_addrtostr((struct sockaddr*)&conn->addr,local_str,128,0); sock_addrtostr((struct sockaddr*)&(params->conn->addr),local_str,128,0);
result->type->to_str(result,remote_str,128);
/* if connected and sent address is the same, there is /* if connected and sent address is the same, there is
* no NAT */ * no NAT */
if (strcmp(remote_str,local_str)==0) if (strcmp(remote_str,local_str)==0){
cw_dbg(DBG_INFO,"Connection from %s: no NAT detected.",local_str);
return 0; return 0;
}
/* otherwise ther must be something between AC and WTP */ /* otherwise ther must be something between AC and WTP */
cw_dbg(DBG_INFO,"Connection from %s: NAT detected.",local_str);
return 1; return 1;
} }

187
src/cw/cw_format_pkt_hdr.c
View File

@ -3,105 +3,104 @@
#include "conn.h" #include "conn.h"
#include "cw.h" #include "cw.h"
/** #include "dot11.h"
* @brief Format a packet header for debugging purposes
* @param dst Destination buffer int cw_format_dot11_fc_flags(char *dst, uint8_t *frame){
* @param incomming True if the packet is an incomming packet, otherweise 0 char *s = dst;
* @param packet packet data uint8_t f = frame[0];
* @param len length of packet data s+=sprintf(s,"ToDS:%d ", f&1 ? 1:0);
* @param from Address from where the packet was received s+=sprintf(s,"FromDS:%d ", f&2 ? 1:0);
* @return Number of bytes written s+=sprintf(s,"More Frgs:%d ", f&4 ? 1:0);
*/ s+=sprintf(s,"Retry:%d ", f&8 ? 1:0);
int cw_format_pkt_hdr(char *dst, int incomming, uint8_t * packet, int len, s+=sprintf(s,"PwrMgmt:%d ", f&16 ? 1:0);
struct sockaddr *from) s+=sprintf(s,"More Dta:%d ", f&32 ? 1:0);
s+=sprintf(s,"Protec:%d ", f&64 ? 1:0);
s+=sprintf(s,"+HTC/:%d ", f&128 ? 1:0);
return s-dst;
}
int cw_format_dot11_rates(char *dst, const uint8_t *src, int len)
{
int i;
char * k="";
char *s=dst;
for(i=0; i<len; i++){
int rate = src[i] &0x7f;
s+=sprintf(s,"%s%0.1f",k,dot11_rate2float(rate));
k=", ";
}
return s-dst;
}
int cw_format_dot11_elem(char *dst, uint8_t id, const uint8_t *src, int len)
{
char *s = dst;
s += sprintf(s,"elem(id=%d) ",id);
switch(id){
case DOT11_ELEM_SSID:
s+=sprintf(s," ssid: %.*s",len,src);
break;
case DOT11_ELEM_SUPPORTED_RATES:
s+=sprintf(s," Supported Rates:");
s+=cw_format_dot11_rates(s,src,len);
break;
case DOT11_ELEM_EXTENDED_SUPPORTED_RATES:
s+=sprintf(s," Extended Supported Rates");
break;
case DOT11_ELEM_POWER_CAPABILITY:
s+=sprintf(s," Power Capability");
break;
case DOT11_ELEM_SUPPORTED_CHANNELS:
s+=sprintf(s," Supported Channels");
break;
case DOT11_ELEM_SUPPORTED_OPERATING_CLASSES:
s+=sprintf(s," Supported Operating Classes");
break;
case DOT11_ELEM_VENDOR_SPECIFIC:
s+=sprintf(s," Vendor Specific");
break;
default:
break;
}
s+=sprintf(s,", len=%d",len);
return s-dst;
}
int cw_format_dot11_hdr(char * dst, uint8_t * packet, int len)
{ {
char sock_buf[SOCK_ADDR_BUFSIZE];
int preamble;
char *s; char *s;
int hlen, rid, wbid; int type = dot11_get_type_and_subtype(packet);
int frag_id,frag_offs;
s=dst; s=dst;
if (incomming){ s+=sprintf(s,"IEEE 802.11 - %s",dot11_get_frame_name(packet));
if (cw_get_hdr_flag_f(packet)) { s+=sprintf(s," da:");
s += sprintf(s, "Fragment from %s", s+=format_mac(s,dot11_get_da(packet),6);
sock_addr2str_p(from,sock_buf)); s+=sprintf(s," sa:");
} else { s+=format_mac(s,dot11_get_sa(packet),6);
s += sprintf(s, "From %s", sock_addr2str_p(from,sock_buf)); s+=sprintf(s," bssid:");
} s+=format_mac(s,dot11_get_bssid(packet),6);
} s+=sprintf(s," seq: %d\n",dot11_get_seq(packet));
else{ s+=cw_format_dot11_fc_flags(s,packet);
if (cw_get_hdr_flag_f(packet)) { s+=sprintf(s,"\nDuration: %d",dot11_get_duration(packet));
s += sprintf(s, "Fragment to %s", sock_addr2str(from,sock_buf)); //
} else { /* switch (type){
s += sprintf(s, "To %s", sock_addr2str(from,sock_buf)); case DOT11_ASSOC_REQ:
} s+=sprintf(s,"\n ssid: %.*s",dot11_assoc_req_get_ssid_len(packet),
} dot11_assoc_req_get_ssid(packet)
s += sprintf(s, " l=%d: ", len); );
break;
preamble = cw_get_hdr_preamble(packet); }*/
if (preamble == 01) {
s += sprintf(s, " (encrypted)");
return s - dst;
}
if (len < 4)
goto abort;
/*
if (cw_get_hdr_flag_f(packet)){
s+=sprintf(s," (fragmented)");
}
*/
hlen = cw_get_hdr_hlen(packet);
rid = cw_get_hdr_rid(packet);
wbid = cw_get_hdr_wbid(packet);
s += sprintf(s, " H:%d R:%02d W:%02d", hlen, rid, wbid);
s += sprintf(s, " Flgs:");
s += format_hdr_flags(s, packet);
if (len < 8)
goto abort;
frag_id = cw_get_hdr_fragid(packet);
frag_offs = cw_get_hdr_fragoffset(packet);
s += sprintf(s, " Frag/Offs:%d/%d", frag_id, frag_offs);
if (cw_get_hdr_flag_m(packet)) {
/* rmac is present, print the rmac */
int rmac_len = cw_get_hdr_rmac_len(packet);
int plen = rmac_len;
if (rmac_len + 8 > len)
plen = len - 8;
if (rmac_len > 10)
plen = 10;
s += sprintf(s, " R-MAC:");
s += format_mac(s, cw_get_hdr_rmac_data(packet), plen);
if (rmac_len > 10) {
s += sprintf(s, " ... (len=%d)", rmac_len);
}
}
if (cw_get_hdr_flag_w(packet)) {
/* print wireless specific info */
int ws_len = cw_get_hdr_ws_len(packet);
int plen = ws_len > 20 ? 20 : ws_len;
s += sprintf(s, " WS:");
s += format_hexu(s, cw_get_hdr_ws_data(packet), plen);
if (ws_len > 20) {
s += sprintf(s, " ... (len=%d)", ws_len);
}
}
return s - dst;
abort:
s += sprintf(s, " Incomplete...");
return s - dst;
} }

4
src/cw/cw_format_version.c
View File

@ -35,10 +35,6 @@ int cw_format_version(char *s, const uint8_t * version, int len)
} }
rs += sprintf(s + rs, ")"); rs += sprintf(s + rs, ")");
} }
/*
vendor = bstrv_get_vendor_id(ver);
rs += sprintf(s + rs, ", Vendor Id: %d, %s", vendor, cw_strvendor(vendor));
*/
return rs; return rs;
} }

2
src/cw/cw_in_capwap_local_ipv6_address.c
View File

@ -9,7 +9,7 @@
int cw_in_capwap_local_ipv6_address(struct conn *conn, struct cw_action_in *a, int cw_in_capwap_local_ipv6_address(struct cw_Conn *conn, struct cw_action_in *a,
uint8_t * data, int len,struct sockaddr *from) uint8_t * data, int len,struct sockaddr *from)
{ {
struct sockaddr_in6 addr; struct sockaddr_in6 addr;

32
src/cw/cw_in_check_cfg_update_req.c
View File

@ -1,32 +0,0 @@
#include "capwap.h"
#include "intavltree.h"
#include "dbg.h"
#include "log.h"
int cw_in_check_cfg_update_req(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from)
{
/*cw_action_in_t * mlist[60];*/
/* Check for mandatory elements */
/* int n = cw_check_missing_mand(mlist,conn,a);
if (n) {
if ( conn->strict_capwap ){
cw_dbg_missing_mand(DBG_MSG_ERR,conn,mlist,n,a);
conn->capwap_state=CAPWAP_STATE_JOIN;
return CW_RESULT_MISSING_MAND_ELEM;
}
cw_dbg_missing_mand(DBG_RFC,conn,mlist,n,a);
}
*/
/* set result code to ok and change to configure state */
/*mbag_set_dword(conn->outgoing,CW_ITEM_RESULT_CODE,0);*/
return 0;
}

43
src/cw/cw_in_check_disc_req.c
View File

@ -1,43 +0,0 @@
#include "capwap.h"
#include "intavltree.h"
#include "log.h"
#include "dbg.h"
#include "sock.h"
int cw_in_check_disc_req(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from)
{
/*
char sock_buf[SOCK_ADDR_BUFSIZE];
cw_action_in_t *mlist[120];
int n = cw_check_missing_mand(mlist, conn, a);
conn->capwap_state = CW_STATE_NONE;
if (n && conn->strict_capwap) {
cw_dbg_missing_mand(DBG_MSG_ERR, conn, mlist, n, a);
// if mandatory elements are missing, in strict
// mode send no discovery response
cw_dbg(DBG_MSG_ERR,
"Ignoring Discovery Request from %s - missing mandatory elements.",
sock_addr2str(from,sock_buf));
return -1;
}
if ( n ) {
// put a warning here
cw_dbg_missing_mand(DBG_RFC, conn, mlist, n, a);
}
// ok, send response
conn->capwap_state = CAPWAP_STATE_JOIN;
*/
return 0;
}

44
src/cw/cw_in_check_join_req.c
View File

@ -1,44 +0,0 @@
#include "capwap.h"
#include "intavltree.h"
#include "dbg.h"
#include "log.h"
#include "format.h"
#include "connlist.h"
int cw_in_check_join_req(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from)
{
/*
cw_action_in_t * mlist[60];
//Check for mandatory elements
int n = cw_check_missing_mand(mlist,conn,a);
if (n) {
if ( conn->strict_capwap ){
cw_dbg_missing_mand(DBG_MSG_ERR,conn,mlist,n,a);
conn->capwap_state=CAPWAP_STATE_JOIN;
return CW_RESULT_MISSING_MAND_ELEM;
}
cw_dbg_missing_mand(DBG_RFC,conn,mlist,n,a);
}
connlist_lock(conn->connlist);
struct conn *cc = connlist_get_by_session_id(conn->connlist,conn);
if (!cc){
connlist_add_by_session_id(conn->connlist,conn);
}
connlist_unlock(conn->connlist);
if (cc){
cw_dbg(DBG_ELEM_ERR,"Session already in use %s",format_bin2hex(conn->session_id,16));
conn->capwap_state=CAPWAP_STATE_JOIN;
return CW_RESULT_JOIN_FAILURE_SESSION_ALREADY_IN_USE;
}
// set result code to ok and change to configure state
mbag_set_dword(conn->outgoing,CW_ITEM_RESULT_CODE,0);
conn->capwap_state = CW_STATE_CONFIGURE;
*/
return 0;
}

47
src/cw/cw_in_check_join_resp.c
View File

@ -1,47 +0,0 @@
#include <errno.h>
#include "capwap.h"
#include "intavltree.h"
#include "dbg.h"
#include "log.h"
int cw_in_check_join_resp(struct conn *conn, struct cw_action_in *a, uint8_t * data,
int len,struct sockaddr *from)
{
/*
cw_action_in_t * mlist[60];
mbag_item_t * jresult = mbag_get(conn->incomming,CW_ITEM_RESULT_CODE);
if (jresult ) {
if (!cw_result_is_ok(jresult->u2.dword)){
return jresult->u2.dword;
}
}
// Check for mandatory elements
int n = cw_check_missing_mand(mlist,conn,a);
if (n && conn->strict_capwap) {
cw_dbg_missing_mand(DBG_MSG_ERR,conn,mlist,n,a);
conn->capwap_state=CAPWAP_STATE_JOIN;
errno=EAGAIN;
return -1; //CW_RESULT_MISSING_MAND_ELEM;
}
if (n){
cw_dbg_missing_mand(DBG_RFC,conn,mlist,n,a);
}
if ( jresult ) {
return jresult->u2.dword;
}
// set result code to ok and change to configure state
// mbag_set_dword(conn->outgoing,CW_ITEM_RESULT_CODE,0);
*/
return 0;
}

21
src/cw/cw_in_generic.c
View File

@ -1,21 +0,0 @@
#include "capwap.h"
#include "msgset.h"
#include "val.h"
#include "log.h"
int cw_in_generic(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params,
uint8_t * elem_data, int elem_len)
{
cw_Val_t * result;
if (!handler->type){
cw_log(LOG_ERR,"Can't handle element: %s, no type defined",handler->name);
return CAPWAP_RESULT_UNRECOGNIZED_MESSAGE_ELEMENT;
}
result = cw_ktv_add(params->remote_cfg, handler->key,
handler->type,NULL, elem_data,elem_len);
params->elem=result;
return CAPWAP_RESULT_SUCCESS;
}

2
src/cw/cw_in_generic_enum.c
View File

@ -17,7 +17,7 @@ int cw_in_generic_enum(struct cw_ElemHandler * handler, struct cw_ElemHandlerPar
{ {
int val; int val;
const cw_ValEnum_t * e; const cw_ValEnum_t * e;
char key[CW_KTV_MAX_KEY_LEN]; char key[CW_CFG_MAX_KEY_LEN];
struct cw_ElemHandler thandler; struct cw_ElemHandler thandler;
val = cw_get_byte(elem_data+1); val = cw_get_byte(elem_data+1);

9
src/cw/cw_in_generic_indexed_enum.c
View File

@ -1,6 +1,8 @@
#include "cw.h" #include "cw.h"
#include "cfg.h"
static const cw_ValEnum_t * get_enum(const cw_ValEnum_t * e, int val){ static const cw_ValEnum_t * get_enum(const cw_ValEnum_t * e, int val){
@ -21,7 +23,7 @@ int cw_in_generic_indexed_enum(struct cw_ElemHandler * handler, struct cw_ElemHa
const cw_ValEnum_t * e; const cw_ValEnum_t * e;
const cw_ValIndexed_t * ie; const cw_ValIndexed_t * ie;
char key[CW_KTV_MAX_KEY_LEN]; char key[CW_CFG_MAX_KEY_LEN];
struct cw_ElemHandler thandler; struct cw_ElemHandler thandler;
ie = handler->type; ie = handler->type;
@ -46,8 +48,11 @@ int cw_in_generic_indexed_enum(struct cw_ElemHandler * handler, struct cw_ElemHa
} }
memset(&thandler,0,sizeof(thandler)); memset(&thandler,0,sizeof(thandler));
thandler.type=e->type;
thandler.key=key; thandler.key=key;
thandler.type=e->type;
thandler.param=e->param;
return e->fun_in(&thandler,params,elem_data+f,elem_len-l); return e->fun_in(&thandler,params,elem_data+f,elem_len-l);
} }

35
src/cw/cw_in_generic_struct.c
View File

@ -1,35 +0,0 @@
#include "capwap.h"
#include "msgset.h"
#include "val.h"
#include "log.h"
int cw_in_generic_struct(struct cw_ElemHandler * handler, struct cw_ElemHandlerParams * params,
uint8_t * elem_data, int elem_len)
{
const char * key;
char tmpkey[CW_KTV_MAX_KEY_LEN];
if (handler->mkkey != NULL){
handler->mkkey(key,elem_data,elem_len, tmpkey);
key = tmpkey;
}
else{
key = handler->key;
}
printf("CW_IN_GENERIC STRUCT: %s\n",key);
/* int (*mkkey)(struct cw_ElemHandler * handler, char *dst, struct cw_ElemHandlerParams * params,
uint8_t*data, int len);
*/
if (!handler->type){
cw_log(LOG_ERR,"Can't handle element: %s, no type defined",handler->name);
return CAPWAP_RESULT_UNRECOGNIZED_MESSAGE_ELEMENT;
}
cw_ktv_read_struct(params->remote_cfg,handler->type,key,elem_data,elem_len);
return CAPWAP_RESULT_SUCCESS;
}

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