any given section maps straight to a program header segment, use a
more sophisticated decision that matches any section as long as it
fits into the segment. This is needed for situations where the
program header segment spans a larger area than the section data
provided. (This can e.g. happen in an ELF file that contains no
data at address 0, like a bootloader only.)
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supported error
* stk500v2.c: Handle all Xmega memory sections (except
"prodsig" which is not documented in AVR079)
* fileio.c: Treat the "boot", "application", and "apptable"
regions (which are actually subregions of "flash") all as
being flash, i.e. suppress trailing 0xFF bytes when reading
them
* avr.c: (Dito.)
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(Extended Linear Address Record)
Replace the change from r928 (handling of 0x8000000 offset in AVR32
files) by a completely different logic that no longer breaks hex files
for other devices starting with an offset; also apply a similar change
to S-record files, as well as when writing files.
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Each memory image byte is now tagged as it's being read from a file.
Only bytes read from a file will be written or verified (modulo page
granularity requirements).
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bug #33345: File auto detection as binary doesn't open
file in binary mode on Windows
* fileio.c: Move the decision about opening files in
binary mode until before the fopen() call.
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0x10000 bytes
* fileio.c: Revert the changes from r851 and r880, respectively.
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* fileio.c: Do not close the input/output stream when working on an
stdio stream.
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patch #6141: accept binary format immediate values
Detect a 0b prefix, and call strtoul() differently in that case.
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- Make all internal functions "static".
- Make sure each module's header and implementation file match.
- Remove all library-like functionality from main.c, so only
the actual frontend remains in main.c.
- Add C++ brackets to all header files.
That effectively leaves the various module C files as something like
an "avrdude library", with main.c being the currently only frontend
program for that library. In theory, it should be possible to write
different frontends using the same library backend functions though.
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declarations in each file by a central header file "avrdude.h".
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and binary numbers.
Closes bug #16129: more output formats for fuse bits (avrdude
enhancement request)
* fileio.c: Implement fileio_num() and the itoa_simple() helper function.
* fileio.h: Add new file formats to FILEFMT.
* main.c: Parse the new file formats.
* avrdude.1: Document all this.
* doc/avrdude.texi: (Ditto.)
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resides above the last non-0xff data value in the address space. Only
do this for flash memory since writing a 0xff to flash is a no-op.
This has the affect of creating smaller output files when dumping
memory contents from flash if the program in flash does not consume
the whole memory space. It also results in shorter programming times
when avrdude is asked to load a file into flash that has lots of 0xff
filled data past the last non-0xff data value.
I think this is basically where Alexey was going with his s-record
routine, but this should have a similar affect for all the I/O
routines. The main difference is that Alexey's also optimized 0xff
from the beginning of the address space and was not limited to flash.
I think that these optimizations should be limited to the flash since
it is currently the only memory that treats 0xff as special.
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output routines (don't optimize away 0xff data before and after non
0xff data). Also, fix a bug where the data contents sometimes weren't
written out completely.
Initial bug reported by Tom Harris <TomH@optiscan.com>. Fixes
provided by Alexey V.Levdikov <tsar@kemford.com>.
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main.c : print out '<stdin>' and '<stdout>' instead of '-' when using
stdio for I/O.
Thanks to Francisco T. A. Silva <ftas@geodigitus.com.br> for catching
this, and the error fixed by the previous commit as well.
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specify byte values on the command line instead of via a file. This
can be good for specifying fuse bytes and eliminates the need to
create single-byte files or using interactive terminal mode for these
single-byte memories. Requested by several folks on the mailing list.
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* .cvsignore: Ignore autoconf files.
* AUTHORS: New file.
* ChangeLog: New file.
* Makefile: Removed file.
* Makefile.am: New file.
* NEWS: New file.
* README: New file.
* bootstrap: New file.
* configure.ac: New file.
* avr.c: Include ac_cfg.h (generated by autoconf).
* config.c: Include ac_cfg.h.
Include config_gram.h instead of y.tab.h.
* config.h: If HAS_YYSTYPE is not defined, define YYSTYPE.
* config_gram.y: Include ac_cfg.h.
* fileio.c: Include ac_cfg.h.
* lexer.l: Include config_gram.h instead of y.tab.h.
* lists.c: Include ac_cfg.h.
* main.c: Include ac_cfg.h.
* par.c: Include ac_cfg.h.
* pgm.c: Include ac_cfg.h.
* ppi.c: Include ac_cfg.h.
* stk500.c: Include ac_cfg.h.
* term.c: Include ac_cfg.h.
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This was intended to be used for identifying code in the field for
incoming bug reports, but I've never really found it all that useful.
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undergone. This utilizes the last two bytes of EEPROM to maintain a
counter that is incremented each time the part is erased.
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serial programming instructions are not very orthoganal, i.e., the
"read fuse bits" instruction on an ATMega103 is an entirely different
opcode and data format from the _same_ instruction for an ATMega163!
Thus, it becomes impossible to have a single instruction encoding
(varying the data) across the chip lines.
This set of changes allows and requires instruction encodings to be
defined on a per-part basis within the configuration file. Hopefully
I've defined the encoding scheme in a general enough way so it is
useful in describing the instruction formats for yet-to-be invented
Atmel chips. I've tried hard to make it match very closely with the
specification in Atmel's data sheets for their parts. It's a little
more verbose than what I initially hoped for, but I've tried to keep
it as concise as I could, while still remaining reasonably flexible.
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has a 128K flash.
Due to the bank addressing required, interactive update of the flash
is not supported, though the eeprom can be updated interactively.
Both memories can be programmed via non-interactive mode.
Intel Hex Record type '04' is now generated as required for outputing
memory contents that go beyond 64K.
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file. This makes supporting other programmers much easier.
Rename AVRprog.pdf to avrprog.pdf.
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component module. This is intended for support purposes, so that I
can tell unambiguously what version a binary out in the field is.
Additionally, display a revision timestamp along with the version
number. This also is intended for aiding in support and is the Unix
time of the latest component module. Having this, should allow me to
do a "cvs co -D timestamp avrprog" and get exactly the source of the
version that is being reported.
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bytes written. The presence of an Intel Hex address record can cause
these two number to be different; but the callers of this routine need
the former.
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fileio.c: Properly handle all the Intel Hex record types that I can
find information about.
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prompted.
avr.c avr.h fileio.c term.c :
Change the avrpart data structure so that the typedef AVRMEM is
used as an index into an array for the sizes of the memory types
and also for pointers to buffers that represent the chip data for
that memory type. This removes a lot of conditional code of the
form:
switch (memtype) {
case AVR_FLASH :
...
}
Also, re-code avr_read_byte() and avr_write_byte() to properly
handle the flash memory type without having to tell them whether
they should program the high byte or the low byte - figure that
out from the address itself. For flash memory type, these
routines now take the actual byte address instead of the word
address. This _greatly_ simplifies many otherwise simple
operations, such a reading or writing a range of memory, by not
having to worry about whether the address starts on an odd byte
or an even byte.
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only via main() so that the exitspecs are properly applied.
When reading input data from a file, remember how many bytes were read
and write and verify only that many bytes.
Don't complain when an input file size is smaller than the memory size
we are programming. This is normal.
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record type was causing non-zero record types to be calculated
incorrectly.
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more modular pieces.
Also, accept command abbreviations as long as they are not ambiguous.
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