Syslinux LUA User Guide ======================= Marcel Ritter Invocation ---------- Running +lua.c32+ only results in an interactive shell. ...................................................... KERNEL lua.c32 ...................................................... By using the +APPEND+ parameter you can specify a lua script to be executed: ...................................................... KERNEL lua.c32 APPEND /testit.lua ...................................................... Modules ------- Modules must be explicitly loaded into the namespace before use, for example: ...................................................... syslinux = require ("syslinux") ...................................................... SYSLINUX ~~~~~~~~ .syslinux.version() Returns version string .syslinux.derivative() Returns running Syslinux's derivative (ISOLINUX, PXELINUX or SYSLINUX). See com32/lua/test/syslinux-derivative.lua for an example. .syslinux.sleep(s) Sleep for +s+ seconds .syslinux.msleep(ms) Sleep for +ms+ milliseconds .run_command(command) Execute syslinux command line +command+. _Example_: ...................................................... syslinux.run_command("memdisk initrd=/dos/BIOS/FSC-P7935-108.img raw") ...................................................... .run_default() FIXME .local_boot() FIXME .final_cleanup() FIXME .boot_linux(kernel, cmdline, [mem_limit], [videomode]) FIXME .run_kernel_image(kernel, cmdline, ipappend_flags, type) FIXME .loadfile(filname) Load file +filename+ (via TFTP) .filesize(file) Return size of +file+ (loaded by loadfile()) .filename(file) Return name of +file+ (loaded by loadfile()) .in itramfs_init() Return empty initramfs object .initramfs_load_archive(initramfs, filename) Load contents of +filename+ into +initramfs+. Initialize +initramfs+ with initramfs_init() before use. .initramfs_add_file(initramfs, file) Adds +file+ to +initramfs+. +initramfs+ needs to be initialized, +file+ has been loaded by loadfile(). _Example_: ...................................................... -- get nice output printf = function(s,...) return io.write(s:format(...)) end -- function kernel = syslinux.loadfile("/SuSE-11.1/x86_64/linux") printf("Filename/size: %s %d\n", syslinux.filename(kernel), syslinux.filesize(kernel)) initrd = syslinux.loadfile("/SuSE-11.1/x86_64/initrd") printf("Filename/size: %s %d\n", syslinux.filename(initrd), syslinux.filesize(initrd)) initrd = syslinux.initramfs_init() syslinux.initramfs_load_archive(initrd, "/SuSE-11.1/x86_64/initrd"); syslinux.boot_it(kernel, initrd, "init=/bin/bash") syslinux.sleep(20) ...................................................... DMI ~~~ .dmi_supported() Returns +true+ if DMI is supported on machine, +false+ otherwise. .dmi_gettable() Returns a list if key-value pairs. The key is one of the DMI property strings: FIXME list _Example_: ...................................................... if (dmi.supported()) then dmitable = dmi.gettable() for k,v in pairs(dmitable) do print(k, v) end print(dmitable["system.manufacturer"]) print(dmitable["system.product_name"]) print(dmitable["bios.bios_revision"]) if ( string.match(dmitable["system.product_name"], "ESPRIMO P7935") ) then print("Matches") syslinux.run_command("memdisk initrd=/dos/BIOS/FSC-P7935-108.img raw") else print("Does not match") syslinux.run_command("memdisk initrd=/dos/BIOS/FSC-P7935-108.img raw") end end ...................................................... PCI ~~~ .pci_getinfo() Return list of value pairs (device_index, device) of all PCI devices. .pci_getidlist(filename) Load a tab separated list of PCI IDs and their description. Sample files can be found here: http://pciids.sourceforge.net/ _Example_: ...................................................... -- get nice output printf = function(s,...) return io.write(s:format(...)) end -- get device info pciinfo = pci.getinfo() -- get plain text device description pciids = pci.getidlist("/pci.ids") -- list all pci busses for dind,device in pairs(pciinfo) do -- search for device description search = string.format("%04x%04x", device['vendor'], device['product']) printf(" %04x:%04x:%04x:%04x = ", device['vendor'], device['product'], device['sub_vendor'], device['sub_product']) if ( pciids[search] ) then printf("%s\n", pciids[search]) else printf("Unknown\n") end end -- print(pciids["8086"]) -- print(pciids["10543009"]) -- print(pciids["00700003"]) -- print(pciids["0070e817"]) -- print(pciids["1002437a1002437a"]) ...................................................... VESA ~~~~ .getmodes() Return list of available VESA modes. _Example_: ...................................................... -- get nice output printf = function(s,...) return io.write(s:format(...)) end -- list available vesa modes -- only one supported right now, not of much use modes = vesa.getmodes() for mind,mode in pairs(modes) do printf("%04x: %dx%dx%d\n", mode['mode'], mode['hres'], mode['vres'], mode['bpp']) end ...................................................... .setmode() Set (only currently supported) VESA mode. .load_background(filename) Load +filename+ from TFTP, and use it as background image. _Example_: ...................................................... -- get nice output printf = function(s,...) return io.write(s:format(...)) end -- lets go to graphics land vesa.setmode() printf("Hello World! - VESA mode") -- some text to display "typing style" textline=[[ From syslinux GSOC 2009 home page: Finish the Lua engine We already have a Lua interpreter integrated with the Syslinux build. However, right now it is not very useful. We need to create a set of bindings to the Syslinux functionality, and have an array of documentation and examples so users can use them. This is not a documentation project, but the documentation deliverable will be particularly important for this one, since the intended target is system administrators, not developers. ]] -- do display loop -- keep in mind: background change will not erase text! while ( true ) do vesa.load_background("/background1.jpg") syslinux.sleep(1) for i = 1, #textline do local c = textline:sub(i,i) printf("%s", c) syslinux.msleep(200) end syslinux.sleep(10) ......................................................