1251 lines
44 KiB
Plaintext
1251 lines
44 KiB
Plaintext
DAHDI Telephony Interface Driver
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=================================
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Asterisk Development Team <asteriskteam@digium.com>
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$Revision$, $Date$
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DAHDI stands for Digium Asterisk Hardware Device Interface.
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This package contains the kernel modules for DAHDI. For the required
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userspace tools see the package dahdi-tools.
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Supported Hardware
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------------------
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Digital Cards
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~~~~~~~~~~~~~
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- wcte43x:
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* Digium TE435: PCI express quad-port T1/E1/J1
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* Digium TE436: PCI quad-port T1/E1/J1
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* Digium TE235: PCI express dual-port T1/E1/J1
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* Digium TE236: PCI dual-port T1/E1/J1
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- wcte13xp:
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* Digium TE131: PCI express single-port T1/E1/J1
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* Digium TE133: PCI express single-port T1/E1/J1 with echocan
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* Digium TE132: PCI single-port T1/E1/J1
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* Digium TE134: PCI single-port T1/E1/J1 with echocan
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- wct4xxp:
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* Digium TE205P/TE207P/TE210P/TE212P: PCI dual-port T1/E1/J1
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* Digium TE405P/TE407P/TE410P/TE412P: PCI quad-port T1/E1/J1
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* Digium TE220: PCI-Express dual-port T1/E1/J1
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* Digium TE420: PCI-Express quad-port T1/E1/J1
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* Digium TE820: PCI-Express eight-port T1/E1/J1
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- wcb4xxp:
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* Digium B410: PCI quad-port BRI
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* Digium B233: PCI-Express dual-port BRI with echo can
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* Digium B234: PCI dual-port dual-port BRI with echo can
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* Digium B433: PCI-Express quad-port BRI with echo can
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* Digium B434: PCI quad-port BRI with echo can
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Analog Cards
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~~~~~~~~~~~~
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- wcaxx:
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* Digium A8A: PCI up to 8 mixed FXS/FXO ports
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* Digium A8B: PCI express up to 8 mixed FXS/FXO ports
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* Digium A4A: PCI up to 4 mixed FXS/FXO ports
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* Digium A4B: PCI express up to 4 mixed FXS/FXO ports
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- wctdm24xxp:
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* Digium TDM2400P/AEX2400: up to 24 analog ports
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* Digium Hx8 Series: Up to 8 analog or BRI ports
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- xpp: Xorcom Astribank: a USB connected unit of up to 32 ports
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(including the digital BRI and E1/T1 modules)
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Other Drivers
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~~~~~~~~~~~~~
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- wctc4xxp: Digium hardware transcoder cards (also need dahdi_transcode)
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- dahdi_dynamic_eth: TDM over Ethernet (TDMoE) driver. Requires dahdi_dynamic
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- dahdi_dynamic_loc: Mirror a local span. Requires dahdi_dynamic
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Installation
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------------
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If all is well, you just need to run the following:
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make
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make install
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You'll need the utilities provided in the package dahdi-tools to
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configure DAHDI devices on your system.
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If using `sudo` to build/install, you may need to add /sbin to your PATH.
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If you still have problems, read further.
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Build Requirements
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~~~~~~~~~~~~~~~~~~
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gcc and friends. Generally you will need to install the package gcc.
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There may be cases where you will need a specific version of gcc to build
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kernel modules.
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Kernel Source / "Headers"
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^^^^^^^^^^^^^^^^^^^^^^^^^
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- Building DAHDI-linux requires a kernel build tree.
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- This should basically be at least a partial kernel source tree and
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most importantly, the exact kernel .config file used for the build as
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well as several files generated at kernel build time.
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- KERNEL_VERSION is the output of the command `uname -r`
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- If you build your own kernel, you need to point to the exact kernel
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build tree. Luckily for you, this will typically be pointed by the
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symbolic link /lib/modules/KERNEL_VERSION/build which is the location
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zaptel checks by default.
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- If you use a kernel from your distribution you will typically have a
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package with all the files required to build a kernel modules for your
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kernel image.
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* On Debian and Ubuntu this is
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+++ linux-headers-`uname -r` +++
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* On Fedora, RHEL and compatibles (e.g. CentOS) and SUSE this is
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the kernel-devel package. Or if you run kernel-smp or kernel-xen,
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you need kernel-smp-devel or kernel-xen-devel, respectively.
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* In some distributions (e.g.: in RHEL/CentOS, Fedora, Ubuntu) the
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installation of the kernel-devel / kernel-headers package will
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be of a version that is newer than the one you currently run. In
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such a case you may need to upgrade the kernel package itself as
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well and reboot.
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- To point explicitly to a different build tree: set KSRC to the kernel
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source tree or KVERS to the exact kernel version (if "headers" are
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available for a different version). This parameter must be run on
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every calls to 'make' (e.g.: 'make clean', 'make install').
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make KVERS=2.6.18.Custom
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make KSRC=/home/tzafrir/kernels/linus
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Kernel Configuration
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^^^^^^^^^^^^^^^^^^^^
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If you build a custom kernel, note the following configuration items:
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- CONFIG_CRC_CCITT must be enabled ('y' or 'm'). On 2.6 kernels this can
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be selected These can be selected from the "Library Routines" submenu
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during kernel configuration via "make menuconfig".
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- DAHDI will work if you disable module unloading. But you may need
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extra reboots.
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- DAHDI needs the BKL (Big Kernel Lock). This may be annoying in
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>=2.6.37 kernels. Make sure you enable CONFIG_BKL on those kernels.
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Installing to a Subtree
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~~~~~~~~~~~~~~~~~~~~~~~
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The following may be useful when testing the package or when preparing a
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package for a binary distribution (such as an rpm package) installing
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onto a subtree rather than on the real system.
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make install DESTDIR=targetdir
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This can be useful for any partial install target of the above (e.g:
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install-modules or install-programs).
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the targetdir must be an absolute path, at least if you install the
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modules. To install to a relative path you can use something like:
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make install-modules DESTDIR=$PWD/target
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Extra Modules
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~~~~~~~~~~~~~
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To build extra modules / modules directory not included in the DAHDI
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distribution, use the optional variables MODULES_EXTRA and
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SUBDIRS_EXTRA:
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make MODULES_EXTRA="mod1 mod2"
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make MODULES_EXTRA="mod1 mod2" SUBDIRS_EXTRA="subdir1/ subdir1/"
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Static Device Files
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~~~~~~~~~~~~~~~~~~~
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Userspace programs communicate with the DAHDI modules through special
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device files under /dev/dahdi . Those are normally created by udev, but
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if you use an embedded-type system and don't wish to use udev, you can
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generate them with the following script, from the source directory:
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./build_tools/make_static_devs
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This will generate the device files under /dev/dahdi . If you need to
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generate them elsewhere (e.g. `tmp/newroot/dev/dahdi`) use the option -d
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to the script:
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./build_tools/make_static_devs -d tmp/newroot/dev/dahdi
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DKMS
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~~~~
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DKMS, Dynamic Kernel Module Support, is a framework for building Linux
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kernel modules. It is used, among others, by several distributions that
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package the DAHDI kernel modules.
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DKMS is designed to provide updates over drivers installed from original
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kernel modules tree. Thus it installed modules into /lib/modules/updates
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or /lib/modules/VERSION/updates . This is generally not an issue on
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normal operation. However if you try to install DAHDI from source on
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a system with DAHDI installed from DKMS this way (potentially of an
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older version), be sure to remove the DKMS-installed modules from the
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updates directory. If you're not sure, the following command will give
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you a clue of the versions installed:
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find /lib/modules -name dahdi.ko
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===== LINUX_DIR
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The relative path to the dahdi-linux tree. The default is '.' and normally
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there's no reason to override it.
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===== TOOLS_DIR
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The relative path to the dahdi-tools tree. The default is 'dahdi-tools'.
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===== XPP_SYNC
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Set a syncing astribank. See xpp_sync(8). Default is 'auto'.
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===== AST_SCRIPT
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The command for an init.d script to start/stop Asterisk. Should accept
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'start' and 'stop' commands. Use 'true' if you want to make that a
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no-op. Defaults to '/etc/init.d/asterisk' .
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===== MODULES_LOAD
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Manual list of modules. They will be loaded by insmod. If reside in a
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subdir, add it explicitly. Modules for the drivers that are detected on
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the system will be added by the script. Default: 'dahdi
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dahdi_echocan_mg2'
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===== REMOVE_MODULES
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A list of modules to remove when unloading. Will be resolved
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recursively. The default is 'dahdi'. You may also want to have 'oslec'
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or 'hpec' there if you use them.
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===== KVERS
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If you want to build DAHDI for a different kernel version than the one
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currently running on the system (mostly useful for a remote install).
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Note that you will normally need to export this, in order for this to
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take effect on the 'make' command. In live/live.conf itself have the line:
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export KVERS="2.6.39-local"
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===== KSRC
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Alternatively, if you want to point to an exact kernel source tree,
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set it with KSRC. Just like KVERS above, it needs to be explicitly exported.
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export KSRC="/usr/src/tree/linux"
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Module Parameters
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-----------------
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The kernel modules can be configured through module parameters. Module
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parameters can optionally be set at load time. They are normally set (if
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needed) by a line in a file under /etc/modprobe.d/ or in the file
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/etc/modprobe.conf.
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Example line:
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options dahdi debug=1
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The module parameters can normally be modified at runtime through sysfs:
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pungenday:~# cat /sys/module/dahdi/parameters/debug
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0
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pungenday:~# echo 1 >/sys/module/dahdi/parameters/debug
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pungenday:~# cat /sys/module/dahdi/parameters/debug
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1
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Viewing and setting parameters that way is possible as of kernel 2.6 .
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In kernels older than 2.6.10, the sysfs "files" for the parameters
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reside directly under /sys/module/'module_name' .
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Useful module parameters:
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=== debug
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(most modules)
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Sets debug mode / debug level. With most modules 'debug' can be either
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disabled (0, the default value) or enabled (any other value).
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wctdm and wcte1xp print several extra debugging messages if the value
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of debug is more than 1.
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Some modules have "debugging flags" bits - the value of debug is a
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bitmask and several messages are printed if some bits are set:
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To get a list of parameters supported by a module, use
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modinfo module_name
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Or, for a module you have just built:
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modinfo ./drivers/dahdi/module_name.ko
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For the xpp modules this will also include the description and default
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value of the module. You can find a list of useful xpp module parameters
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in README.Astribank .
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- wctdm24xxp:
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* 1: DEBUG_CARD
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* 2: DEBUG_ECHOCAN
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- wct4xxp:
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* 1: DEBUG_MAIN
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* 2: DEBUG_DTMF
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* 4: DEBUG_REGS
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* 8: DEBUG_TSI
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* 16: DEBUG_ECHOCAN
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* 32: DEBUG_RBS
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* 64: DEBUG_FRAMER
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- xpp: See also README.Astribank:
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* 1: GENERAL - General debug comments.
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* 2: PCM - PCM-related messages. Tend to flood logs.
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* 4: LEDS - Anything related to the LEDs status control. The driver
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produces a lot of messages when the option is enabled.
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* 8: SYNC - Synchronization related messages.
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* 16: SIGNAL - DAHDI signalling related messages.
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* 32: PROC - Messages related to the procfs interface.
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* 64: REGS - Reading and writing to chip registers. Tends to flood
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logs.
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* 128: DEVICES - Device instantiation, destruction and such.
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* 256 - COMMANDS - Protocol commands. Tends to flood logs.
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+
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+
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The script xpp_debug in the source tree can help settting them at run
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time.
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=== deftaps
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(dahdi)
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The default size for the echo canceller. The number is in "taps", that
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is "samples", 1/8 ms. The default is 64 - for a tail size of 8 ms.
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Asterisk's chan_dahdi tends to pass its own value anyway, with a
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different default size. So normally setting this doesn't change
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anything.
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=== max_pseudo_channels
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(dahdi)
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The maximum number of pseudo channels that dahdi will allow userspace to
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create. Pseudo channels are used when conferencing channels together.
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The default is 512.
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=== auto_assign_spans
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(dahdi)
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See <<_span_assignments,Span Assignments>> below.
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XPP (Astribank) module parameters
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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==== debug
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(all modules) - see above.
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==== dahdi_autoreg
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(xpp)
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Deprecated. See dahdi.<<_auto_assign_spans,auto_assign_spans>> above.
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Originally had a somewhat similar (but xpp-specific and more limited)
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role to auto_assign_spans. For backward compatibility this variable is
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still kept, but its value is unused. Astribanks will auto-register
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with dahdi if auto_assign_spans is not set.
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==== tools_rootdir
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(xpp)
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Defaults to /. Passed (as the variable DAHDI_TOOLS_ROOTDIR) to generated
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events (which can be used in udev hooks). Also serves as the base of
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the variable DAHDI_INIT_DIR (by default: $DAHDI_TOOLS_DIR/usr/share/dahdi).
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==== initdir
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(xpp)
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Deprecated. Setting both initdir and tools_rootdir will generate an error.
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A directory under tools_rootdir containing the initialization scripts.
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The default is /usr/share/dahdi .
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Setting this value could be useful if that location is inconvenient for you.
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==== rx_tasklet
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(xpp)
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Enable (1) or disable (0) doing most of the packets processing in
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separate tasklets. This should probably help on higher-end systems with
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multiple Astribanks.
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==== vmwi_ioctl
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(xpd_fxs)
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Does userspace support VMWI notification via ioctl? Default: 1 (yes).
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Disable this (0) to have the driver attempt to detect the voicemail
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message waiting indication status for this port from FSK messages
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userspace (Asterisk) sends. Set the ports to use AC neon-lamp style
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message waiting indication. The detection from the FSK messages takes
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extra CPU cycles but is required with e.g. Asterisk < 1.6.0 .
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Also note that in order for this parameter to take effect, it must be
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set before the span is registered. This practically means that it
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should be set through modprobe.d files.
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See also Voicemail Indication in README.Astribank.
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==== usb1
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(xpp_usb)
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Enable (1) or disable (0) support of USB1 devices. Disabled by default.
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USB1 devices are not well-tested. It seems that they don't work at all
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for Astribank BRI. Generally they should work with the current code, but
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we expect the voice quality issues. Hence we would like to make it
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very clear that you if you have a USB1 port (rather than a USB2 one, as
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recommended) you will have to take an action to enable the device.
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==== poll intervals
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(various)
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There are various values which the driver occasionally polls the
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device for. For instance, the parameter poll_battery_interval for
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xpd_fxo to poll the battery, in order to know if the telco line is
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actually connected.
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The value of those parameters is typically a number in milliseconds.
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0 is used to disable polling. Under normal operation there should be
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no reason to play with those parameters.
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==== dtmf_detection
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(xpd_fxs)
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Enable (1) or disable (0) support of hardware DTMF detection by the
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Astribank.
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==== caller_id_style
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(xpd_fxo)
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Various types of caller ID signalling styles require knowing the PCM
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even when the line is on-hook (which is usually a waste of CPU and
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bandwidth). This parameter allows fine-tuning the behaviour here:
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* 0 (default) - Don't pass extra PCM when on-hook.
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* 1 ETSI-FSK: Wait for polarity reversal to come before a ring and
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then start passing PCM until the caller ID has been passed.
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* 2 ETSI-DTMF: Always pass PCM and generate a DTMF if polarity reversal is
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detected before ring.
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* 3 Passthrough: Always pass PCM as-is.
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This parameter is read-only. It cannot be changed at run-time.
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==== battery_threshold
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(xpd_fxo)
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Minimum voltage that shows there is battery. Defaults to 3. Normally you
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should not need to change this, unless dealing with a funky PSTN
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provider.
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==== battery_debounce
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(xpd_fxo)
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Minimum interval (msec) for detection of battery off (as opposed to e.g.
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a temporary power denial to signal a hangup). Defaults to 1000. As with
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battery_threshold above, there's normally no need to tweak it.
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==== use_polrev_firmware
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(xpd_fxo)
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Enable (1, default) or disable (0) support for polarity reversal
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detection in the hardware. Only has effect with PIC_TYPE_2.hex rev. >=
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11039 and with the initialization changes (init_card_2_30) in rev.
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949aa49.
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This parameter is read-only. It cannot be changed at run-time.
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Internals
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---------
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DAHDI Device Files
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~~~~~~~~~~~~~~~~~~
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Userspace programs will usually interact with DAHDI through device
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files under the /dev/dahdi directory (pedantically: character device files
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with major number 196) . Those device files can be generated statically
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or dynamically through the udev system.
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* /dev/dahdi/ctl (196:0) - a general device file for various information and
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control operations on the DAHDI channels.
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* /dev/dahdi/chan/N/M - A device file for channel M in span N
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- Both N and M are zero padded 3 digit numbers
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- Both N and M start at 001
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- M is chanpos - numbering relative to the current span.
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* /dev/dahdi/NNN (196:NNN) - for NNN in the range 1-249. A device file for
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DAHDI channel NNN. It can be used to read data from the channel
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and write data to the channel. It is not generated by default but may
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be generated as a symlink using udev rules.
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* /dev/dahdi/transcode (196:250) - Used to connect to a DAHDI transcoding
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device.
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* /dev/dahdi/timer (196:253) - Allows setting timers. Used anywhere?
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* /dev/dahdi/channel (196:254) - Can be used to open an arbitrary DAHDI
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channel. This is an alternative to /dev/dahdi/NNN that is not limited to
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249 channels.
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* /dev/dahdi/pseudo (196:255) - A timing-only device. Every time you open
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it, a new DAHDI channel is created. That DAHDI channel is "pseudo" -
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DAHDI receives no data in it, and only sends garbage data with the
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same timing as the DAHDI timing master device.
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DAHDI Timing
|
|
~~~~~~~~~~~~
|
|
A PBX system should generally have a single clock. If you are connected to a
|
|
telephony provider via a digital interface (e.g: E1, T1) you should also
|
|
typically use the provider's clock (as you get through the interface). Hence
|
|
one important job of Asterisk is to provide timing to the PBX.
|
|
|
|
DAHDI "ticks" once per millisecond (1000 times per second). On each tick every
|
|
active DAHDI channel reads and 8 bytes of data. Asterisk also uses this for
|
|
timing, through a DAHDI pseudo channel it opens.
|
|
|
|
However, not all PBX systems are connected to a telephony provider via a T1 or
|
|
similar connection. With an analog connection you are not synced to the other
|
|
party. And some systems don't have DAHDI hardware at all. Even a digital card
|
|
may be used for other uses or is simply not connected to a provider. DAHDI
|
|
cards are also capable of providing timing from a clock on card. Cheap x100P
|
|
clone cards are sometimes used for that purpose.
|
|
|
|
If a hardware timing source either cannot be found or stops providing timing
|
|
during runtime, DAHDI will automatically use the host timer in order provide
|
|
timing.
|
|
|
|
You can check the DAHDI timing source with dahdi_test, which is a small
|
|
utility that is included with DAHDI. It runs in cycles. In each such cycle it
|
|
tries to read 8192 bytes, and sees how long it takes. If DAHDI is not loaded
|
|
or you don't have the device files, it will fail immediately. If you lack a
|
|
timing device it will hang forever in the first cycle. Otherwise it will just
|
|
give you in each cycle the percent of how close it was. Also try running it
|
|
with the option -v for a verbose output.
|
|
|
|
|
|
Spans and Channels
|
|
~~~~~~~~~~~~~~~~~~
|
|
DAHDI provides telephony *channels* to the userspace applications.
|
|
Those channels are channels are incorporated into logical units called
|
|
*spans*.
|
|
|
|
With digital telephony adapters (e.g: E1 or T1), a span normally
|
|
represents a single port. With analog telephony a span typically
|
|
represents a PCI adapter or a similar logical unit.
|
|
|
|
Both channels and spans are identified by enumerating numbers (beginning
|
|
with 1). The number of the channel is the lowest unused one when it is
|
|
generated, and ditto for spans.
|
|
|
|
There are up to 128 spans and 1024 channels. This is a hard-wired limit
|
|
(see dahdi/user.h . Several places throuout the code assume a channel
|
|
number fits in a 16 bits number). Channel and span numbers start at 1.
|
|
|
|
|
|
Span Assignments
|
|
~~~~~~~~~~~~~~~~
|
|
A DAHDI device (e.g. a PCI card) is represented within the DAHDI drivers
|
|
as a 'DAHDI device'. Normally (with auto_assign_spans=1 in the module
|
|
dahdi, which is the default), when a device is discovered and loaded,
|
|
it registers with the DAHDI core and its spans automatically become
|
|
available. However if you have more than one device, you may be
|
|
interested to set explicit spans and channels numbers for them. To use
|
|
manual span assigment, set 'auto_assign_spans' to 0 . e.g. in a file
|
|
under /etc/modprobe.d/ include the following line:
|
|
|
|
options dahdi auto_assign_spans=0
|
|
|
|
You will then need to assign the spans manually at device startup. You
|
|
will need to assign a span number and channel numbers for each
|
|
available span on the system. On my test system I have one BRI PCI card
|
|
and one Astribank BRI+FXS:
|
|
|
|
# grep . /sys/bus/dahdi_devices/devices/*/spantype
|
|
/sys/bus/dahdi_devices/devices/astribanks:xbus-00/spantype:1:BRI
|
|
/sys/bus/dahdi_devices/devices/astribanks:xbus-00/spantype:2:BRI
|
|
/sys/bus/dahdi_devices/devices/astribanks:xbus-00/spantype:3:BRI
|
|
/sys/bus/dahdi_devices/devices/astribanks:xbus-00/spantype:4:BRI
|
|
/sys/bus/dahdi_devices/devices/astribanks:xbus-00/spantype:5:BRI
|
|
/sys/bus/dahdi_devices/devices/astribanks:xbus-00/spantype:6:BRI
|
|
/sys/bus/dahdi_devices/devices/astribanks:xbus-00/spantype:7:BRI
|
|
/sys/bus/dahdi_devices/devices/astribanks:xbus-00/spantype:8:BRI
|
|
/sys/bus/dahdi_devices/devices/astribanks:xbus-00/spantype:9:FXS
|
|
/sys/bus/dahdi_devices/devices/pci:0000:00:09.0/spantype:1:TE
|
|
/sys/bus/dahdi_devices/devices/pci:0000:00:09.0/spantype:2:TE
|
|
/sys/bus/dahdi_devices/devices/pci:0000:00:09.0/spantype:3:NT
|
|
/sys/bus/dahdi_devices/devices/pci:0000:00:09.0/spantype:4:NT
|
|
|
|
All spans here, except the FXS one, are BRI spans with 3 channels per span.
|
|
|
|
In order to assign a span, we write three numbers separated by colns to
|
|
the file 'assign_span' in the SysFS node
|
|
|
|
local_num:span_num:base_chan_num
|
|
|
|
Thus:
|
|
|
|
echo 9:5:10 >/sys/bus/dahdi_devices/devices/astribanks:xbus-00/assign_span
|
|
echo 2:8:40 >/sys/bus/dahdi_devices/devices/pci:0000:00:09.0/assign_span
|
|
echo 1:1:1 >/sys/bus/dahdi_devices/devices/astribanks:xbus-00/assign_span
|
|
echo 4:6:20 >/sys/bus/dahdi_devices/devices/pci:0000:00:09.0/assign_span
|
|
echo 3:2:5 >/sys/bus/dahdi_devices/devices/astribanks:xbus-00/assign_span
|
|
|
|
As you can see, the order of span numbers or local span number is
|
|
insignificant. However the order of channel numbers must be the same as
|
|
that of span numbers.
|
|
|
|
Which indeed produced:
|
|
|
|
# head -n3 -q /proc/dahdi/*
|
|
Span 1: XBUS-00/XPD-00 "Xorcom XPD [usb:LAB-0003].1: BRI_NT"
|
|
|
|
1 XPP_BRI_NT/00/00/0
|
|
Span 2: XBUS-00/XPD-02 "Xorcom XPD [usb:LAB-0003].3: BRI_TE"
|
|
|
|
5 XPP_BRI_TE/00/02/0
|
|
Span 5: XBUS-00/XPD-10 "Xorcom XPD [usb:LAB-0003].9: FXS" (MASTER)
|
|
|
|
10 XPP_FXS/00/10/0
|
|
Span 6: B4/0/4 "B4XXP (PCI) Card 0 Span 4" RED
|
|
|
|
23 B4/0/4/1 YELLOW
|
|
Span 8: B4/0/2 "B4XXP (PCI) Card 0 Span 2" RED
|
|
|
|
40 B4/0/2/1 RED
|
|
|
|
Likewise spans can be unassigned by writing to the 'unassign-span'
|
|
"file".
|
|
|
|
|
|
Dynamic Spans
|
|
~~~~~~~~~~~~~
|
|
Dynamic spans are spans that are not represented by real hardware.
|
|
Currently there are two types of them:
|
|
|
|
tdmoe::
|
|
TDM over Ethernet. A remote span is identified by an ethernet (MAC)
|
|
address.
|
|
|
|
local::
|
|
Generates a span that is actually a loopback to a different local
|
|
span.
|
|
|
|
Modules that support the dynamic spans are typically loaded at the time
|
|
the ioctl DAHDI_DYNAMIC_CREATE is called. This is typically called by
|
|
dahdi_cfg when it has a line such as:
|
|
|
|
dynamic,somename,params
|
|
|
|
in /etc/dahdi/system.conf . In that case it will typically try to load
|
|
(through modprobe) the modules dahdi_dynamic and
|
|
dahdi_dynamic_'somename'. It will then pass 'params' to it.
|
|
|
|
Dynamic spans are known to be tricky and are some of the least-tested
|
|
parts of DAHDI.
|
|
|
|
|
|
Echo Cancellers
|
|
~~~~~~~~~~~~~~~
|
|
(To be documented later)
|
|
|
|
|
|
Tone Zones
|
|
~~~~~~~~~~
|
|
(To be documented later)
|
|
|
|
|
|
PROCFS Interface: /proc/dahdi
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
A simple way to get the current list of spans and channels each span contains
|
|
is the files under /proc/dahdi . /proc/dahdi is generated by DAHDI as it
|
|
loads. As each span registers to DAHDI, a file under /proc/dahdi is created
|
|
for it. The name of that file is the number of that span.
|
|
|
|
Each file has a 1-line title for the span followed by a few optional
|
|
general counter lines, an empty line and then a line for each channel of
|
|
the span.
|
|
|
|
The title line shows the number of the span, its name and title, and
|
|
(potentially) the alarms in which it is.
|
|
|
|
The title shows the span number and name, followed by any alarms the
|
|
span may have: For example, here is the first span in my system (with no
|
|
alarms):
|
|
|
|
Span 1: XBUS-00/XPD-00 "Xorcom XPD #0/0: FXS"
|
|
|
|
There are several extra optional keywords that may be added there:
|
|
|
|
(Master)::
|
|
This span is the master span. See <<_dahdi_timing,DAHDI Timing>>.
|
|
ClockSource::
|
|
The clock source among several spans that belong to a single E1/J1/T1
|
|
card.
|
|
RED/YELLOW/RED/NOTOPEN/LOOP/RECOVERING::
|
|
The span is in alarm
|
|
|
|
Following that line there may be some optional lines about IRQ misses,
|
|
timing slips and such, if there are any.
|
|
|
|
The channel line for each channel shows its channel number, name and the
|
|
actual signalling assigned to it through dahdi_cfg. Before being configured by
|
|
dahdi_cfg: This is DAHDI channel 2, whose name is 'XPP_FXS/0/0/1'.
|
|
|
|
2 XPP_FXS/0/0/1
|
|
|
|
After being configured by dahdi_cfg: the signalling 'FXOLS' was added. FXS
|
|
channels have FXO signalling and vice versa:
|
|
|
|
2 XPP_FXS/0/0/1 FXOLS
|
|
|
|
If the channel is in use (typically opened by Asterisk) then you will
|
|
see an extra '(In use)':
|
|
|
|
2 XPP_FXS/0/0/1 FXOLS (In use)
|
|
|
|
|
|
SysFS Interface
|
|
~~~~~~~~~~~~~~~
|
|
DAHDI exposes several interfaces under the SysFS virtual file system.
|
|
SysFS represents kernel objects in nodes - directories. There properties
|
|
are often files. They may also contain other nodes or include symlinks
|
|
to other nodes.
|
|
|
|
Class DAHDI
|
|
^^^^^^^^^^^
|
|
Under /sys/class/dadhi there exists a node for the non-channel DAHDI
|
|
device file under /dev/dahdi. The name is 'dahdi!foo' for the file
|
|
'/dev/dahdi/foo' (udev translates exclamation marks to slashes). Those
|
|
nodes are not, for the most part, proper SysFS nodes, and don't include
|
|
any interesting properties. The files in this class `ctl`, `timer`,
|
|
`channel`, `pseudo` and (if exists) `transcode`.
|
|
|
|
|
|
Devices Bus
|
|
^^^^^^^^^^^
|
|
Each DAHDI device (a physical device, such as a PCI card) is represented
|
|
by a node under /sys/bus/dahdi_devices/devices named with the name of
|
|
its device.
|
|
|
|
Its attributes include:
|
|
|
|
===== /sys/bus/dahdi_devices/devices/DEVICE/assgin-span
|
|
Write-only attribute: this device's spans should now be assigned
|
|
("registered"). See section about <<_span_assignments>>.
|
|
|
|
===== /sys/bus/dahdi_devices/devices/DEVICE/auto-assign
|
|
Write-only attribute. Spans in the device auto-assign ("register" as in
|
|
the original interface). See section about <<_span_assignments>>.
|
|
|
|
===== /sys/bus/dahdi_devices/devices/DEVICE/hardware_id
|
|
A unique hardware-level identifier (e.g. serial number), if available.
|
|
|
|
===== /sys/bus/dahdi_devices/devices/DEVICE/manufacturer
|
|
The name of the manufacturer. Freeform-string.
|
|
|
|
===== /sys/bus/dahdi_devices/devices/DEVICE/registration_time
|
|
The time at which the device registered with the DAHDI core. Example
|
|
value: "0005634136.941901429".
|
|
|
|
===== /sys/bus/dahdi_devices/devices/DEVICE/spantype
|
|
A line for each available span: <num>:<type>. This has to be provided
|
|
here as in the case of manual assignment, userspace may need to know
|
|
it before span nodes are created.
|
|
|
|
===== /sys/bus/dahdi_devices/devices/DEVICE/spantype
|
|
Device type.
|
|
|
|
===== /sys/bus/dahdi_devices/devices/DEVICE/unassign-span
|
|
Write-only attribute: the span whose device-local number is written
|
|
should now be unassigned ("unregistered"). See section about
|
|
<<_span_assignments>>.
|
|
|
|
|
|
Spans Bus
|
|
^^^^^^^^^
|
|
Each DAHDI span is represented by a node under
|
|
/sys/bus/dahdi_spans/devices with the name 'span-N' (where N is the
|
|
number of the span). Spans of each device also reside under the node of
|
|
the device.
|
|
|
|
Useful attributes in the span node:
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/alarms
|
|
The alarms of the span. Currently this is a numeric representation.
|
|
This may change in the future.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/basechan
|
|
The channel number of the first channel. The channel numbers of the
|
|
following channels are guaranteed to follow it.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/channels
|
|
The number of the channels in the span.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/desc
|
|
A free-form description of the span.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/is_digital
|
|
1 if the span is digital, 0 if it isn't.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/is_sync_master
|
|
1 if the span is the sync master, 0 if it isn't.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/lbo
|
|
LBO setting for the channel.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/lineconfig
|
|
The framing and coding of the span, for a digital span. Textual
|
|
represenation:
|
|
|
|
<B8ZS|AMI|HDB3>/<D4|ESF|CCS>[/CRC4]
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/local_spanno
|
|
The number of the span within the DAHDI device.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/name
|
|
A concise name for this span.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/spantype
|
|
A very short type string.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/syncsrc
|
|
Current sync source.
|
|
|
|
==== sys/bus/dahdi_spans/drivers/generic_lowlevel/master_span
|
|
All spans in the bus are handled by a single driver. The driver has one
|
|
non-standard attribute: master_span. printing it shows the current DAHDI
|
|
master span writing a number to it forces setting this span as the master
|
|
span.
|
|
|
|
|
|
Channels Bus
|
|
^^^^^^^^^^^^
|
|
Each DAHDI channel is represented by a node under
|
|
/sys/bus/dahdi_channels/devices with the name 'dahdi!channels!N!M'
|
|
(where N is the number of the span and M is the number of the channel
|
|
in the span - chanpos). Channels of each span also reside under the node
|
|
of the span.
|
|
|
|
Useful attributes in the channel node (All attributed listed below are
|
|
read-only):
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/alarms
|
|
List of names of the current active alarms (space separated). Normally
|
|
(no alarms) empty. Example:
|
|
|
|
RED YELLOW
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/blocksize
|
|
The block size set by userspace.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/channo
|
|
The (global) channel number.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/chanpos
|
|
The channel number within the span.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/dev
|
|
Major and minor device numbers.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/ec_factory
|
|
The name of the echo canceller to be used in the channel, if one is
|
|
configured. Example:
|
|
|
|
MG2
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/ec_state
|
|
State of the echo canceller. ACTIVE: configured and inuse. INACTIVE
|
|
otherwise.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/in_use
|
|
1 if the channel is in use (was opepend by userspace), 0 otherwise.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/name
|
|
A name string for the channel
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/sig
|
|
The signalling types set for the channel. A space-separated list of
|
|
signalling types.
|
|
|
|
===== /sys/bus/dahdi_spans/devices/span-N/dahdi!channels!N!M/sigcap
|
|
The signalling types this channel may be configured to handle. A space-
|
|
separated list of signalling types.
|
|
|
|
|
|
User-space Interface
|
|
~~~~~~~~~~~~~~~~~~~~
|
|
User-space programs can only work with DAHDI channels. The basic
|
|
operation is 'read()' to read audio from the device and write() to write
|
|
audio to it. Audio can be encoded as either alaw (G.711a) or (m)ulaw
|
|
(G.711u). See the ioctl DAHDI_SETLAW.
|
|
|
|
While it is technically possible to use /dev/dahdi/NUMBER directly, this
|
|
will only work for channel numbers up to 249. Generally you should use:
|
|
|
|
int channo = CHAN_NUMBER_TO_OPEN;
|
|
int rc;
|
|
int fd = open("/dev/dahdi/channel", O_RDRW, 0600);
|
|
// Make sure fd >= 0
|
|
rc = ioctl(fd, DAHDI_SPECIFY, &channo) < 0);
|
|
// Make sure this rc >= 0
|
|
|
|
FIXME: there's more to tell about the user-space interface.
|
|
|
|
|
|
Configuration
|
|
~~~~~~~~~~~~~
|
|
Most of the configuration is applied from userspace using the tool
|
|
'dahdi_cfg' in the package dahdi_tools. This section will not cover the
|
|
specifics of that file. Rather it will cover the way configuration from
|
|
this file is applied. Also note that there are other methods to
|
|
configure DAHDI drivers: there are <<_module_parameters,Module
|
|
Parameters>>. The xpp driver have their own separate initialization
|
|
scripts and xpp.conf that arecovered in README.Astribank.
|
|
|
|
When a span is registered, it is considered "unconfigured". Only after
|
|
dahdi_cfg has been run to apply configuration, the span is ready to run.
|
|
|
|
Some of the configuration is handled by the DAHDI core. Some of it is
|
|
handled by callbacks, which are function pointers in the `struct
|
|
dahdi_span': 'spanconfig', 'chanconfig' and (in a way) 'startup'.
|
|
|
|
Dahdi_cfg starts by reading the configuration from the configuration
|
|
file ('/etc/dahdi/system.conf', by default), and creating a local
|
|
configuration to apply. If you use -v, at this stage it will pront the
|
|
configuration that is "about to be configured". Then it will start to
|
|
actually apply the configuration.
|
|
|
|
Before actually applying configuration, it destroys any existing
|
|
<<_dynamic_spans,dynamic spans>> and generates new ones (if so
|
|
configured. FIXME: what about running DAHDI_SPANCONFIG for new dynamic
|
|
spans?).
|
|
|
|
Next thing it will do is apply the parameters from *span* lines using
|
|
the ioctl DAHDI_SPANCONFIG. Some generic processing of parameters passed
|
|
in DAHDI_SPANCONFIG is done in the DAHDI core, in the callback function
|
|
spanconfig in , but most of it is left to 'spanconfig' callback of the
|
|
span (if it exists. This one typically does not exists on analog cards).
|
|
|
|
Now dahdi_cfg will ask each existing channel for its existing
|
|
configuration and apply configuration if configuration changes are
|
|
needed. Configuration is applied to the channels using the ioctl call
|
|
DAHDI_CHANCONFIG ioctl. As in the case of the span configuration, part
|
|
of it is applied by the DAHDI core, and then it is handed over to the
|
|
span's chanconfig callback. Typically all spans will have such a
|
|
callback.
|
|
|
|
<<_echo_cancellers,Echo cancellers>> and <<_tone_zones,tone-zones>> are
|
|
handled separately later.
|
|
|
|
Once everything is done, the ioctl DAHDI_STARTUP is called for every
|
|
span. This is also translated to a call to the optional span callback
|
|
'startup'.
|
|
|
|
Finally the ioctl DAHDI_HDLC_RATE is called for every channel (that is:
|
|
if '56k' is not set for the channel, it will be explicitly set to the
|
|
standard HDLC rate of 64k).
|
|
|
|
|
|
Low-Level Drivers
|
|
~~~~~~~~~~~~~~~~~
|
|
Low-level drivers create spans ('struct dahdi_span'). They register the
|
|
spans with the DAHDI core using 'dahdi_device_register()'.
|
|
|
|
'struct dahdi_span' has a number of informative members that are updated
|
|
solely by the low-level driver:
|
|
|
|
name::
|
|
A concise span name. E.g.: Foo/1
|
|
desc::
|
|
A slightly longer span name.
|
|
spantype::
|
|
Span type in text form.
|
|
manufacturer::
|
|
Span's device manufacturer
|
|
devicetype::
|
|
Span's device type
|
|
location::
|
|
span device's location in system
|
|
irq::
|
|
IRQ for this span's hardware
|
|
irqmisses::
|
|
Interrupt misses
|
|
timingslips::
|
|
Clock slips
|
|
|
|
There are various function pointers in the struct 'dahdi_span' which are
|
|
used by the DAHDI core to call the low-level driver. Most of them are
|
|
optional.
|
|
|
|
The following apply to a span:
|
|
|
|
setchunksize::
|
|
FIXME: seems to be unused.
|
|
|
|
spanconfig::
|
|
Basic span configuration (called from dahdi_cfg).
|
|
|
|
startup::
|
|
Last minute initialization after the configuration was applied.
|
|
|
|
shutdown::
|
|
Explicit shutdown (e.g. for dynamic spans). Normally not needed.
|
|
|
|
maint::
|
|
Enable/disable maintinance mode (FIXME: document).
|
|
|
|
sync_tick::
|
|
Get notified that the master span has ticked.
|
|
|
|
The following apply to a single channel.
|
|
|
|
chanconfig::
|
|
Configure the channel (called from dahdi_cfg).
|
|
|
|
open::
|
|
Channel was opened for read/write from user-space.
|
|
|
|
close::
|
|
Channel was closed by user-space.
|
|
|
|
ioctl::
|
|
Handle extra ioctls. Should return -ENOTTY if ioctl is not known to
|
|
the channel
|
|
|
|
echocan_create::
|
|
Create a custom echo canceller. Normally used for providing a hardware
|
|
echo canceller. If NULL, the standard DAHDI echo canceller modules
|
|
will be used.
|
|
|
|
rbsbits::
|
|
Copy signalling bits to device. See below on signalling.
|
|
|
|
hooksig::
|
|
Implement RBS-like signalling-handling. See below on signalling.
|
|
|
|
sethook::
|
|
Handle signalling yourself. See below on signalling.
|
|
|
|
hdlc_hard_xmit::
|
|
Used to tell an onboard HDLC controller that there is data ready to
|
|
transmit.
|
|
|
|
audio_notify::
|
|
(if DAHDI_AUDIO_NOTIFY is set) - be notified when the channel is (or
|
|
isn't) in audio mode. Which may mean (for an ISDN B-channel) that its
|
|
data need not be sent.
|
|
|
|
There are several alternative methods for a span to use for
|
|
signalling. One of them should be used.
|
|
|
|
Signalling: rbsbits
|
|
^^^^^^^^^^^^^^^^^^^
|
|
If the device is a CAS interface, the driver should copy the signalling
|
|
bits to and from the other side, and DAHDI will handle the signalling.
|
|
The driver just need to provide a 'rbsbits' and set DAHDI_FLAG_RBS in
|
|
the span->flags.
|
|
|
|
Note that 'rbs' (Robed Bits Signalling) here merely refers to the (up
|
|
to) 4 signalling bits of the channel. In T1 they are transmitted by
|
|
"robbing" bits from the channels and hence the name. In E1 they are
|
|
transmitted in a timeframe of their own.
|
|
|
|
The driver should then signal a change in the signalling bits in a
|
|
channel using dahdi_rbsbits().
|
|
|
|
|
|
Signalling: hooksig
|
|
^^^^^^^^^^^^^^^^^^^
|
|
If the device does not know about signalling bits, but has their
|
|
equivalents (i.e. can disconnect battery, detect off hook, generate
|
|
ring, etc directly) then the driver can specify a 'sethook' function and
|
|
set DAHDI_FLAG_RBS in span->flags. In that case DAHDI will call that
|
|
function whenever the signalling state changes.
|
|
|
|
The hooksig function is only used if the rbsbits function is not set.
|
|
|
|
The span should notify DAHDI of a change of signalling in a channel using
|
|
dahdi_hooksig().
|
|
|
|
|
|
Signalling: sethook
|
|
^^^^^^^^^^^^^^^^^^^
|
|
Alternatively, if DAHDI_FLAG_RBS is not set in the flags of the span (to
|
|
use either rbsbits or hooksig), the DAHDI core will try to call the
|
|
'sethook' function of the span (if it exists) to handle individual hook
|
|
states.
|
|
|
|
The span should then notify DAHDI of a change in the signalling state
|
|
using dahdi_sethook().
|
|
|
|
FIXME: anybody using this one?
|
|
|
|
|
|
ABI Compatibility
|
|
~~~~~~~~~~~~~~~~~
|
|
Like any other kernel code, DAHDI strives to maintain a stable interface to
|
|
userspace programs. The API of DAHDI to userspace programs, dahdi/user.h, has
|
|
remained backward-compatible for a long time and is expected to remain so in
|
|
the future. With the ABI (the bits themselves) things are slightly trickier.
|
|
|
|
DAHDI's interface to userspace is mostly ioctl(3) calls. Ioctl calls
|
|
are identified by a number that stems from various things, one of which
|
|
is the size of the data structure passed between the kernel and
|
|
userspace.
|
|
|
|
Many of the DAHDI ioctl-s use some specific structs to pass information
|
|
between kernel and userspace. In some cases the need arose to pass a few
|
|
more data members in each call. Simply adding a new member to the struct
|
|
would have meant a new number for the ioctl, as its number depends on
|
|
the size of the data passed.
|
|
|
|
Thus we would add a new ioctl with the same base number and with the
|
|
original struct.
|
|
|
|
So suppose we had the following ioctl:
|
|
----------------------------------
|
|
struct dahdi_example {
|
|
int sample;
|
|
}
|
|
|
|
#define DAHDI_EXAMPLE _IOWR (DAHDI_CODE, 62, struct dahdi_example)
|
|
----------------------------------
|
|
|
|
And we want to add the field 'int onemore', we won't just add it to the
|
|
struct. We will do something that is more complex:
|
|
------------------------------------
|
|
/* The original, unchanged: */
|
|
struct dahdi_example_v1 {
|
|
int sample;
|
|
}
|
|
|
|
/* The new struct: */
|
|
struct dahdi_example {
|
|
int sample;
|
|
int onemore;
|
|
}
|
|
|
|
#define DAHDI_EXAMPLE_V1 _IOWR(DAHDI_CODE, 62, struct dahdi_example_v1)
|
|
#define DAHDI_EXAMPLE _IOWR(DAHDI_CODE, 62, struct dahdi_example)
|
|
------------------------------------
|
|
We actually have here two different ioctls: the old DAHDI_EXAMPLE would be
|
|
0xC004DA3E . DAHDI_EXAMPLE_V1 would have the same value. But the new value
|
|
of DAHDI_EXAMPLE would be 0xC008DA3E .
|
|
|
|
Programs built with the original dahdi/user.h (before the change) use the
|
|
original ioctl, whether or not the kernel code is actually of the newer
|
|
version. Thus in most cases there are no compatibility issues.
|
|
|
|
When can we have compatibility issues? If we have code built with the new
|
|
dahdi/user.h, but the loaded kernel code (modules) are of the older version.
|
|
Thus the userspace program will try to use the newer DAHDI_EXAMPLE (0xC008DA3E).
|
|
But the kernel code has no handler for that ioctl. The result: the error 25,
|
|
ENOTTY, which means "Inappropriate ioctl for device".
|
|
|
|
As a by-product of that method, for each interface change a new #define is
|
|
added. That definition is for the old version and thus it might appear
|
|
slightly confusing in the code, but it is useful for writing code that works
|
|
with all versions of DAHDI.
|
|
|
|
Past Incompatibilities
|
|
^^^^^^^^^^^^^^^^^^^^^^
|
|
.DAHDI 2.3:
|
|
DAHDI_SPANINFO_V1 (extra members added). This will typically only be
|
|
used on ISDN (PRI/BRI) spans in Asterisk.
|
|
|
|
.DAHDI 2.2:
|
|
* DAHDI_GET_PARAMS_V1, DAHDI_GETCONF_V1, DAHDI_SETCONF_V1,
|
|
DAHDI_GETGAINS_V1 ('direction' changed from 'R' to 'RW' to fix
|
|
FreeBSD support).
|
|
* DAHDI_CONFDIAG_V1, DAHDI_CHANDIAG_V1 (fixed direction).
|
|
|
|
|
|
Alarm Types
|
|
~~~~~~~~~~~
|
|
An alarm indicates that a port is not available for some reason. Thus it
|
|
is probably not a good idea to try to call out through it.
|
|
|
|
|
|
Red Alarm
|
|
^^^^^^^^^
|
|
Your T1/E1 port will go into red alarm when it cannot maintain
|
|
synchronization with the remote switch. A red alarm typically
|
|
indicates either a physical wiring problem, loss of connectivity, or a
|
|
framing and/or line-coding mismatch with the remote switch. When your
|
|
T1/E1 port loses sync, it will transmit a yellow alarm to the remote
|
|
switch to indicate that it's having a problem receiving signal from
|
|
the remote switch.
|
|
|
|
The easy way to remember this is that the R in red stands for "right
|
|
here" and "receive"... indicating that we're having a problem right
|
|
here receiving the signal from the remote switch.
|
|
|
|
|
|
Yellow Alarm
|
|
^^^^^^^^^^^^
|
|
(RAI -- Remote Alarm Indication)
|
|
|
|
Your T1/E1 port will go into yellow alarm when it receives a signal
|
|
from the remote switch that the port on that remote switch is in red
|
|
alarm. This essentially means that the remote switch is not able to
|
|
maintain sync with you, or is not receiving your transmission.
|
|
|
|
The easy way to remember this is that the Y in yellow stands for
|
|
"yonder"... indicating that the remote switch (over yonder) isn't able
|
|
to see what you're sending.
|
|
|
|
|
|
Blue Alarm
|
|
^^^^^^^^^^
|
|
(AIS -- Alarm Indication Signal)
|
|
|
|
Your T1/E1 port will go into blue alarm when it receives all unframed
|
|
1s on all timeslots from the remote switch. This is a special signal
|
|
to indicate that the remote switch is having problems with its
|
|
upstream connection. dahdi_tool and Asterisk don't correctly indicate
|
|
a blue alarm at this time. The easy way to remember this is that
|
|
streams are blue, so a blue alarm indicates a problem upstream from
|
|
the switch you're connected to.
|
|
|
|
|
|
Recovering from Alarm
|
|
^^^^^^^^^^^^^^^^^^^^^
|
|
TODO: explain.
|
|
|
|
|
|
Loopback
|
|
^^^^^^^^
|
|
Not really an alarm. Indicates that a span is not available, as the port
|
|
is in either a local or remote loopback mode.
|
|
|
|
|
|
Not Open
|
|
^^^^^^^^
|
|
Something is not connected. Used by e.g. the drivers of the Astribank to
|
|
indicate a span that belongs to a device that has been disconnected
|
|
but is still being used by userspace programs and thus can't e
|
|
destroyed.
|
|
|
|
|
|
License
|
|
-------
|
|
This package is distributed under the terms of the GNU General Public License
|
|
Version 2, except for some components which are distributed under the terms of
|
|
the GNU Lesser General Public License Version 2.1. Both licenses are included
|
|
in this directory, and each file is clearly marked as to which license applies.
|
|
|
|
If you wish to use the DAHDI drivers in an application for which the license
|
|
terms are not appropriate (e.g. a proprietary embedded system), licenses under
|
|
more flexible terms can be readily obtained through Digium, Inc. at reasonable
|
|
cost.
|
|
|
|
Known Issues
|
|
------------
|
|
|
|
KB1 does not function when echocancel > 128
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
KB1 was not designed to function at greater than 128 taps, and if configured
|
|
this way, will result in the destruction of audio. Ideally DAHDI would return
|
|
an error when a KB1 echocanceller is configured with greater than 128 taps.
|
|
|
|
|
|
Reporting Bugs
|
|
--------------
|
|
Please report bug and patches to the Asterisk bug tracker at
|
|
http://issues.asterisk.org in the "DAHDI-linux" category.
|
|
|
|
Links
|
|
-----
|
|
- http://asterisk.org/[] - The Asterisk PBX
|
|
- http://docs.tzafrir.org.il/dahdi-linux/README.html[Up-to-date HTML version
|
|
of this file]
|