.TH "ASTRIBANK_HEXLOAD" "8" "30 May 2011" "" "" .SH NAME astribank_hexload \- Xorcom Astribank (xpp) firmware loader .SH SYNOPSIS .B astribank_hexload \-D \fIdevice-path\fR \-F [\fIoptions\fR] \fIhexfile\fR .B astribank_hexload \-D \fIdevice-path\fR \-p [\fIoptions\fR] \fIhexfile1 .. hexfile4\fR .B astribank_hexload \-D \fIdevice-path\fR \-O [-A] [\fIoptions\fR] \fIimagefile\fR .B astribank_hexload \-D \fIdevice-path\fR \-o [\fIoptions\fR] .B astribank_hexload \-D \fIdevice-path\fR \-E [\fIoptions\fR] \fIhexfile\fR .B astribank_hexload \-h .SH DESCRIPTION .B astribank_hexload is a second-stage firmware loader for Xorcom Astribanks. Note that some older models use fpga_load(8) instead. It is used to load a file in the Intel HEX format into a Xorcom Astribank. It can be used to load either an FPGA firmware or a PIC firmware. It is normally run by the script xpp_fxloader. .SH OPTIONS .B \-D .I device-path .RS Required. The device to read from/write to. This is \fIbus_num\fR/\fIdevice_num\fR, where \fIbus_num\fR and \fIdevice_num\fR are the first two numbers in the output of lsusb(8) or dahdi_hardware(8). On older versions of this tool you needed a complete path to the device, which would be /dev/bus/usb/\fIbus_num\fR/\fIdevice_num\fR, or /proc/bus/usb/\fIbus_num\fR/\fIdevice_num\fR. .RE One of the following is required: .B \-F .RS The firmware to load is a FPGA firmware. .RE .B \-p .RS The firmwares to load is are PIC firmwares. All (typically 4) should be on the command-line. .RE .B \-O .RS The firmware to load is an Octasic echo canceller firmware image file. .RE .B \-o .RS Don't load firmware. Just print the version number of the currently-loaded Octasic echo canceller firmware. .RE .B \-E .RS The firmware to load is a special EEPROM burning one. .RE Other options: .B \-v .RS Increase verbosity. May be used multiple times. .RE .B \-d \fImask\fR .RS Set debug mask to \fImask\fR. Default is 0, 0xFF is "everything". .RE .B \-h .RS Displays usage message. .RE .B \-A .RS When loading a Octasic echo canceller firmware, set the channels of the first Astribank module to use aLaw (G.711a). This is what you'd normally use for BRI and E1. If not set, the default mu-Law (G.711u), which is what you'd normally use for FXS, FXO and T1. .RE .SH SEE ALSO fxload(8), lsusb(8), astribank_tool(8), fpga_load(8) .SH AUTHOR This manual page was written by Tzafrir Cohen . Permission is granted to copy, distribute and/or modify this document under the terms of the GNU General Public License, Version 2 any later version published by the Free Software Foundation. On Debian systems, the complete text of the GNU General Public License can be found in /usr/share/common\-licenses/GPL.