PDI mode of the STK600 is supported. Single-byte EEPROM
(and flash) updates do not work yet.
* avr.c: "boot" memory is a candidate memory region for paged
operations, besides "flash" and "eeprom".
* avrdude.conf.in: add ATxmega128A1 and ATxmega128A1revD
* avrpart.h: add the AVRPART_HAS_PDI flag (used to distinguish
ATxmega parts from classic AVRs), the nvm_base part field, and
the offset field for a memory region.
* config_gram.y: add "has_pdi", "nvm_base", and "offset"
* lexer.l: (Ditto.)
* main.c: disable auto_erase for ATxmega parts
* stk500v2.c: implement the XPROG functionality, and divert to
this for ATxmega parts
* avrdude.1: Document the changes.
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"classic" AVRs (AT90, ATtiny, ATmega) in both,
ISP and high-voltage programming modes.
* Makefile.am: Add -lm.
* avrdude.conf.in: Add stk600, stk600pp, and stk600hvsp.
* config_gram.y: Add support for the stk600* keywords.
* lexer.l: (Ditto.)
* pgm.h: Add the "chan" parameter to set_varef().
* stk500.c: (Ditto.)
* serial.h: Add USB endpoint support to struct filedescriptor.
* stk500v2.c: Implement the meat of the STK600 support.
* stk500v2.h: Add new prototypes for stk600*() programmers.
* stk500v2_private.h: Add new constants used in the STK600.
* term.c: Add AREF channel support.
* usb_libusb.c: Automatically determine the correct write
endpoint ID, the STK600 uses 0x83 while all other tools use
0x82. Propagate the EP to use through struct filedescriptor.
* usbdevs.h: Add the STK600 USB product ID.
* tools/get-stk600-cards.xsl: XSL transformation for
targetboards.xml to obtain the list of socket and routing
card IDs, to be used in stk500v2.c (for displaying the
names).
* tools/get-stk600-devices.xsl: XSL transformation for
targetboards.xml to obtain the table of socket/routing cards
and their respective AVR device support for doc/avrdude.texi.
* avrdude.1: Document all the STK600 stuff.
* doc/avrdude.texi: Ditto. Added a new chapter for
Programmer Specific Information.
Thanks to Eirik Rasmussen from Atmel Norway for his support in
getting this code running within that short amount of time!
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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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imposed by debugWire itself, so effectively, only flash ROM can be
read and written.
Currently, the required changes to avrdude.conf.in are only present
for the ATtiny44.
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either firmware version 1 or 2.
* Makefile.am (avrdude_SOURCES): add the new files
stk500generic.c and stk500generic.h.
* avrdude.conf.in: Add the stk500generic programmer type, and
change the "stk500" entry to point to this programmer.
* config_gram.y: Add the stk500generic keyword.
* lexer.l: (Ditto.)
* stk500.c: Change the stk500v1 code to not call exit()
prematurely when failing to open the programmer, but instead
return an error status.
* stk500generic.c: (New file.) Stub programmer implementation.
Probe for either stk500v1 or stk500v2, and adjust the current pgm
appropriately.
* stk500generic.h: (New file.) Declare the public interface(s)
of stk500generic.c.
* doc/avrdude.texi: Document the changed behaviour of stk500.
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patch #4686: Add support for USBasp, a simple USB programmer
* usbasp.c: New file, implement the USBasp driver.
* usbasp.h: New file, interface declarations for USBasp.
* Makefile.am: Wire the new files into the build.
* avrdude.conf.in: Add the usbasp programmer entry.
* config_gram.y: Add the usbasp token.
* lexer.l: (Ditto.)
* avrdude.1: Document the USBasp programmer.
* doc/avrdude.texi: (Ditto.)
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* stk500v2.c: Add new functions for HVSP support.
* stk500v2.h: Add prototype for the stk500hvsp programmer.
* avrpart.h: Add fields to struct avrpart for new features.
* config_gram.y: Extend the configuration syntax for new
features required for HVSP support.
* lexer.l: (Ditto.)
* avrdude.conf.in: Add HVSP support for ATtiny13 and
ATtiny45 as an example.
* avrdude.1: Document stk500hvsp.
* doc/avrdude.texi: (Ditto.)
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Fix the non-paged write operations for old AVRs.
In avrdude.conf.in, use the new PP mode parameters; add PP mode
definitions for AT90S8515.
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jtag2 and bitbang programmers are working, stk500v2
still needs to be done.
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Contributed by Wim Lewis, add support for checking device
signatures in detail (patch #4924 and #4925)
* avrdude.conf.in: Add signatures
* avrpart.c: Set default signature
* avrpart.h: Variable for signature
* config_gram.y: More signature reading
* lexer.l: Define that signatures exist
* main.c: Read signatures and check them against hardware
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The very basic functionality (paged flash read/write, erase, terminal
mode reads, fuse writes) works fine. There are still the following
issues right now:
. paged EEPROM write (i.e. through -U eeprom:w:...) only works on an
erased EEPROM
. byte-access flash and EEPROM writes (i.e. in terminal mode) fail
. documentation needs to be updated still
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While Solaris' lex understands start conditions, they cannot be grouped,
so unfold the <strng> group.
All actions need braces, even if they only consist of a comment.
As the classic lex uses semi-static resource allocation, we need to bump
the resource limits quite a bit.
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* Makefile.am: distclean avrdude.conf.
* avrdude.conf.in: make the parallel-port programmers optional.
* bitbang.c: move the bitbang features out into PROGRAMMER.
* configure.ac: introduce --enable-parport, add Solaris.
* lexer.l: replace str by strng to work around problems in some
versions of flex.
* main.c: move getexitspecs into the respective programmer's
domain; replace rindex by the C-standard strrchr.
* par.c: make parallel port optional.
* par.h: everything but par_initpgm() is private now.
* pgm.h: add setping/getping/highpulsepin/getexitspecs.
* serbb_posix.c: generalize bitbang interface; replace
cfmakeraw() by explicit code.
* serbb_win32.c: generalize bitbang interface.
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will be available in the upcoming avrdude release.
His addition has been implemented by means of a generalized bit-bang
interface that contains the common part between serial and paralle
bit-bang devices, and specialed backends for the serial and parallel
port connections.
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. Implement the new EECRAddress field in the device descriptor that is
required by the 4.x firmware; make an uneducated guess about what
firmware requires what length of device descriptor -- perhaps Atmel
can be convinced to publish an official matrix for that.
. Specify EECR in the config file where required. Obviously, only
locations that differ from the 0x3c default are mentioned in the
XML files, so by now, this only affects the AT90CAN128 for us.
. After clarification with Atmel, EnablePageProgramming should really
default to 1, and only cleared if specified by an XML parameter. So
far, only the XML files for the ATmega256x and ATmega406 do specify
it at all, and they specify a 1, too.
. Drop the entire OCDEN fuse heuristic. If OCDEN is unprogrammed at
startup, issue a warning that single-byte EEPROM updates won't be
possible. Leave it to the user to program the fuse if desired.
That way, we won't run into any issue of prematurely wearing out the
hfuse EEPROM cell. Interestingly enough, this also solved the
problem of the target not restarting from scratch upon sign-off.
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Walthinsen, as well as JTAG ICE mkII support (by me).
Erik's submission has been cleaned up a little bit, mostly to add his
name and the current year to the copyright of the new file, remove
trailing white space before importing the files, and fix the minor
syntax errors in his avrdude.conf.in additions (missing semicolons).
The JTAG ICE mkII support should be considered alpha to beta quality
at this point. Few things are still to be done, like defering the
hfuse (OCDEN) tweaks until they are really required. Also, for
reasons not yet known, the target MCU doesn't start to run after
signing off from the ICE, it needs a power-cycle first (at least on my
STK500).
Note that for the JTAG ICE, I did change a few things in the internal
API. Notably I made the serial receive timeout configurable by the
backends via an exported variable (done in both the Posix and the
Win32 implementation), and I made the serial_recv() function return a
-1 instead of bailing out with exit(1) upon encountering a receive
timeout (currently only done in the Posix implementation). Both
measures together allow me to receive a datastreem from the ICE at 115
kbps on a somewhat lossy PCI multi-UART card that occasionally drops a
character. The JTAG ICE mkII protocol has enough of safety layers to
allow recovering from these events, but the previous code wasn't
prepared for any kind of recovery. The Win32 change for this still
has to be done, and the traditional drivers need to be converted to
exit(1) upon encountering a timeout (as they're now getting a -1
returned they didn't see before in that case).
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available.
* avr910.c (avr910_vfy_cmd_sent): New function.
(avr910_chip_erase): Add support for chip erase.
(avr910_enter_prog_mode): New function.
(avr910_leave_prog_mode): New function.
(avr910_initialize): Add code to select device type and enter prog mode.
(avr910_close): Leave programming mode before closing serial port.
(avr910_read_sig_bytes): New function.
(avr910_initpgm): Add avr910_read_sig_bytes method to pgm initializer.
* avrdude.conf.in: Add note about deprecating devicecode.
Change all occurences of devicecode to stk500_devcode.
Add avr910_devcode to a few parts for testing.
* avrpart.h (struct avrpart): Change devicecode field to stk500_devcode.
(struct avrpart): Add avr910_devcode field.
* config_gram.y: Add K_STK500_DEVCODE and K_AVR910_DEVCODE tokens.
Generate an error if devicecode is found in the config file.
Handle parsing of avr910_devcode and stk500_devcode.
* lexer.l: Handle parsing of avr910_devcode and stk500_devcode.
* pgm.c: Initialize pgm->read_sig_bytes field.
* pgm.h: Add pgm->read_sig_bytes field.
* stk500.c: Use stk500_devcode instead of devicecode.
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* config_gram.y: Add parsing of avr910 programmer.
* lexer.l: Add avr910 token.
* avr910.c: [this is still work in progress]
Add some debug output.
Add probe for programmer presense.
* main.c: Set port to default_serial if programmer type is avr910.
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one of the programmers to be tagged "default" within its definition.
Also, axe the notion of a compiled-in default programmer. It is
kind've pointless now that nearly all configuration comes from the
config file, thus, avrdude is not very useful without the config file,
and thus, having a programmer compiled-in offers little or no benefit.
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This adds 'default_parallel' and 'default_serial' keywords to the
grammar, which take quoted string arguments.
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programming mode. Use 'retry_pulse' in the per-part specification
that can currently take values of 'reset' or 'sck', the default being
'sck' which preserves the previous behaviour. Some newer parts
indicate that /RESET should be pulsed, while older parts say to pulse
SCK.
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say whether parts support these programming modes or not. Possible
values for 'serial' are 'yes' or 'no'. Possible values for 'parallel'
are 'yes', 'no', or 'pseudo'. Add a bit mask of flags to the AVRPART
structure to capture these settings. Use these within
stk500_initialize() to set the device parameters correctly.
Defaults for 'serial' and 'parallel' are 'yes' unless specified
otherwise.
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PAGEL and BS2 signals and the disposition of the reset pin
('dedicated' or 'io').
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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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its own file par.c, leaving low level parallel port accessor routines
in ppi.c to help with portability. Change the programmer type to
'PAR' now instead of 'PPI' - 'PAR' represents the parallel port
programmer type.
Be more liberal with 'static' function declarations within the
programmer implimentation files - these functions should never be
called directly - always use the programmer function references.
There are still a few places in 'main.c' that directly reference the
parallel programmer explicitly (par_getpinmask). These should be
fixed somehow.
Axe a few unused functions.
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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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This change represents a name change only. There is currently an
effort to port AVRPROG to other platforms including Linux and Windows.
Since Atmel's programmer binary that's included within their AVR
Studio software is named AVRPROG.EXE on the Windows OS, there is the
chance for confusion if we keep calling this program AVRPROG as well.
Up until now the name hasn't really been a problem since there was no
chance to confuse 'avrprog' on Unix with Atmel's AVRPROG because
Atmel's tools only run on Windows. But with the Unix 'avrprog'
possibly being ported to Windows, I felt a name change was the best
way to avoid problems.
So - from this point forward, my FreeBSD Unix program formerly known
as AVRPROG will subsequently be known as AVRDUDE (AVR Downloader/UploaDEr).
This change also represents a time when the AVRDUDE sources move from
my own private repository to a public repository. This will give
other developers a chance to port AVRDUDE to other platforms and
extend its functionality to support additional programming hardware,
etc.
So goodbye AVRPROG, welcome AVRDUDE!
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that programmers other than the direct parallel port connection can be
supported.
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Joerg Wunsch
David Hoerl
Michal Ludvig
Colin O Flynn
Brian S. Dean
Jan-Hinnerk Reichert
Theodore A. Roth