Hash :
d89219a0
Author :
Date :
2017-06-08T18:57:07
Welcome to the OpenBIOS tokenizer Toke. This README provides you with a short description of the tokenizer and of how to use it. --------------------------------------------------------------------- Table of contents: 1. What is the OpenBIOS tokenizer? 2. What is required to build the OpenBIOS tokenizer? 3. How to use the OpenBIOS tokenizer 4. Toke's Special Features not described in IEEE 1275-1994 5. Text Strings 6. Contact --------------------------------------------------------------------- 1. What is the OpenBIOS tokenizer? toke is a GPLed FCode tokenizer. It can tokenize (assemble) fcode source to bytecode files as described by the IEEE 1275-1994 standard. This program is compliant to IEEE 1275-1994. Bytecode files normally contain Open Firmware drivers or other packages for use with an Open Firmware compliant system. 2. What is required to build the OpenBIOS tokenizer? toke should build with any ANSI compliant C compiler. Build toke by just enter "make". To clean up an existing build, use "make clean" or "make distclean" 3. How to use the OpenBIOS tokenizer tokenize an fcode source file with toke [-v|--verbose] [-i|--ignore-errors] <file.4th> [<file2.4th>] Get help with: toke [-h|--help] The file extension will be changed to .fc. If no file extension exists, .fc will be appended. If -i is specified, toke continues on errors, producing invalid fcode binaries. 4. Toke's Special Features not described in IEEE 1275-1994 In addition to the standard Open Firmware words, some additional commands have been added to make life easier and for compatibility to other, mostly commercial, fcode tokenizers. These are: 4.1 NEXT-FCODE In tokenizer[ .. ]tokenizer context there is an additional control word besides emit-byte: next-fcode. It sets the increasing fcode number used to emit new fcode words to the specified value. Thus allowing sparse fcode numbering and overwriting previously defined fcode words. This could look like: ------------------------------------------- \ next emitted fcode is 0x053, 2dup. tokenizer[ 053 next-fcode ]tokenizer \ now define the word. : 2dup over over ; ------------------------------------------- Note: Toke is capable of creating fcode files that implement words defined by the IEEE 1275-1994 standard itself. This is not necessarily supported by every Open Firmware implementation. 4.2 FCODE-VERSION2 This word generates an FCode header using START1. It should be used with FCODE-END. 4.3 FCODE-END This word creates an END0 FCode and fixes up the FCode header information. Use this with FCODE-VERSION2 4.4 PCI-HEADER This word creates a PCI option ROM header. PCI-HEADER expects 3 values on the top of the stack when it is invoked: Vendor#, Device# and Class-Code. These values are used for the according fields in the PCI Data structure that is emitted by PCI-HEADER. To include these values put them on the stack with TOKENIZER[ and ]TOKENIZER. 4.5 PCI-END / PCI-HEADER-END This word completes the PCI header created by PCI-HEADER. It fills out the image to a multiple of 512 bytes, and sets the missing values in the PCI header (image-length, revision). Example: HEX TOKENIZER[ 1234 5678 ABCDEF ]TOKENIZER PCI-HEADER \ generate PCI option rom header FCODE-VERSION2 \ generate FCode header (within PCI image) ... ... FCODE-END \ terminate FCode in image PCI-END \ complete the PCI header and image. 4.6 PCI-REVISION / SET-REV-LEVEL Use this word to change the revision field of the PCI header. Like PCI-HEADER, PCI-REVISION takes it's value from the stack. You can write: TOKENIZER[ 23 ]TOKENIZER PCI-REVISION 4.7 NOT-LAST-IMAGE Normally Toke assumes that a PCI image generated by PCI-HEADER is the only ROM image in the (EEP)ROM it will be written to. With NOT-LAST-IMAGE Toke sets a flag in the PCI header that other images will follow in the same ROM. 4.8 FCODE-DATE FCODE-DATE creates an FCode string that contains the date of the tokenization. This string could be used to create a device tree property that can be inspected by drivers, etc. to check when the image was created. The format of the string emitted by FCODE-DATE is MM/DD.YYYY 4.9 FCODE-TIME FCODE-TIME creates an FCode string that contains the time of the tokenization. This string could be used to create a device tree property that can be inspected by drivers, etc. to check when the image was created. The format of the string emitted by FCODE-TIME is HH:MM:SS 4.10 ENCODE-FILE encode a binary file. Use as: encode-file filename 5. Text Strings From "Writing FCode": Escape Sequences in Text Strings ----------------------------------------------------------- Syntax Function ----------------------------------------------------------- "" quote (") "n newline "r carriage return "t tab "f formfeed "l linefeed "b backspace "! bell "^x control x, where x is any printable character "(hh hh) Sequence of bytes, one byte for each pair of hex digits hh . Non-hex characters will be ignored " followed by any other printable character not mentioned above is equivalent to that character. "( means to start parsing pairs of hexadecimal digits as one or more 8-bit characters in the range 0x00 through 0xFF, delimited by a trailing ) and ignoring non-hexadecimal digits between pairs of hexadecimal digits. Both uppercase and lowercase hexadecimal digits are recognized. Since non-hex characters (such as space or comma) are ignored between "( and ), these characters make useful delimiters. (The "makearray" tool can be used in conjunction with this syntax to easily incorporate large binary data fields into any FCode Program.) Any characters thus recognized are appended to any previous text in the string being assembled. After the ) is recognized, text assembly continues until a trailing "<whitespace>. For example: " This is "(01 32,8e)abc"nA test! "!"! abcd""hijk"^bl" ^^^^^^^^ ^ ^ ^ ^ ^ 3 bytes newline 2 bells " control b 6. Contact Ideas, bug reports, patches, contributions are welcome. Please contact the OpenBIOS Mailing List <openbios@openbios.org>