mkII (or AVR Dragon) in ISP mode. The wrong set of per-programmer
private data had been allocated (stk500v2 vs. jtagmkII) which was too
small to hold the actual data.
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of the number of bytes to be written which caused a malloc chunk
corruption.
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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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definition. If present, call the setup hook immediately after finding
the respective programmer object, and schedule the teardown hook to be
called upon exit. This allows the programmer implementation to
dynamically allocate private programmer data.
avr910.c, butterfly.c, jtagmkI.c, jtagmkII.c, stk500v2.c, usbasp.c,
usbtiny.c: Convert static programmer data into dynamically allocated
data.
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own (duplicate) copy of it.
other files: Constify char pointers.
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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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patch #5507: Support for AVR-Doper USB programmer in HID mode
* configure.ac: Add hooks to detect the Win32 HID library,
as well as the existence of <ddk/hidsdi.h>.
* Makefile.am: Add new files.
* my_ddk_hidsdi.h: (New file.)
* ser_avrdoper.c: (New file.)
* serial.h: Add declaration for avrdoper_serdev.
* stk500v2.c: Add hook to divert to the AVR Doper code.
* avrdude.1: Document the AVR Doper support.
* doc/avrdude.texi: (Ditto.)
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- declare a dummy "struct timezone" for some Win32 systems (MinGW)
- fix a few printf() argument types
- get rid off the prevailing "all filedescriptors are of type int"
attitude
The last item required a large sweep across the code, in order to
replace all "int fd"s by "struct filedescriptor *fd"s, and pass
pointers (as we cannot pass a union directly). In return, the
code is now supposed to be fully 64-bit safe, rather than relying
on a 64-bit pointer being converted to a (32-bit) int and back
to a pointer as we did previously.
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avr_read_byte_default() and avr_write_byte_default (resp.) by directly
calling the latter functions from within all programmers that don't
implement their own read_byte()/write_byte() methods. In turn, make the
read_byte() and write_byte() methods mandatory, and the cmd() method
(direct ISP command) optional instead (it's effectively mandatory for
any programmer using avr_read_byte_default()/avr_write_byte_default()
though). Remove all the pointless cmd() method stubs from those programmers
that don't need it.
Eliminate avr_read_byte() as it was now completely identical to
pgm->read_byte().
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still call the close method so we sign off correctly from the ICE:
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always display the minor number as two digits. Examine the response
to the sign-on command to see which programmer hardware we are talking
to, and then restrict the STK500 topcard display to devices detected
as STK500.
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AVR068 is right, and stk500.exe is wrong. (This reverts rev 1.19)
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* stk500v2.c (stk500v2_open): patch #5273: Emit error message
if user requests usb and no libusb support
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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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as it is only used there (for the AVRISP mkII).
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Eliminate pagebuf, and use stack-allocated buffers instead. The
pagesize of all current AVRs is at most 256 only anyway, and this is
unlikely to change with the STK500v2 protocol. The previous pagebuf
implementation suffered from some possible buffer overrun.
In stk500pp_write_page(), do always write full pages, rather than
attempting to write a partial last page which did not get written at
all. Fill the remaining bytes with 0xff.
For (paged) write operations, correctly synthesize the mode byte.
This mode byte is very different from the ISP mode byte (sigh).
In stk500pp_read_byte(), when performing read operations on paged
memory, start reading at the previous page boundary rather than the
current address.
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Document ATmega256x support. Also document Solaris port defaults
in avrdude.texi.
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Which stops sck from being writtend needlessly
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AVRISP mkII device. (Savannah patch #4789.)
* serial.h: Declare usb_serdev_frame device descriptor.
* stk500v2.c: Implementation of the AVRISP mkII handling.
* usb_libusb.c: Add USB handling for short-frame delimited
AVRISP mkII USB protocol; add distinction of different
devices in usbdev_open().
* jtagmkII.c: Tell usbdev_open() to search for the JTAG ICE mkII.
* usbdevs.h: (New file.)
* Makefile.am: Add usbdevs.h, as well as some other forgotten
files "make distcheck" complained about.
* avrdude.conf.in: Add more aliases for the AVRISP mkII.
* avrdude.1: Document how to use the AVRISP mkII.
* doc/avrdude.texi: (Ditto.)
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This fixes EEPROM access using the STK500V2 programmer, partially
undoing part of a previous general fixup commit. Choose the correct
read/write operations with the stk500v2 program function - the correct
one depends on the memory type. EEPROM is byte addressable so uses
read/write. FLASH is word addressable and so uses read_lo/write_lo.
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when passing unsigned char * when char * is in the prototype and vice
versa. Clean these up along with a few others.
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#13693, #13871, and #14212.
This provides bug fixes to the STK500V2 programmer type. From the
patch information:
- incorrect token used from avrdude.conf.in
- wrong command sent to programmer, hence no write to eeprom.
- programmer was said to start writing at 0x0000 and continue page
by page and was not repositionned when a gap was found in the
hex file, or when the hex file start address was not
0x0000. Hence the verify procedure was correct, not the write
procedure.
- speed up of flash write to skip empty pages (full of 0xFF) by
re-enabling a dedicated function for that task.
- stk500v2_paged_load() was not returning the number of byte read,
so empty hex files were generated when reading memory.
Submitted by: Bernard Fouch <bernard.fouche@kuantic.com>
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thus it was falsely reporting that it failed when it was actually
working correctly. Fixed.
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yesterday's changes (i.e. before rev. 1.10 of ser_posix.c), that is,
exit(1) in case of a timeout. Previously, the upper layers didn't see
the timeout at all.
Quite possible that some of these drivers could handle a timeout more
intelligently though. At least for the rather sophisticated STK500v2
protocol, I think it should be possible to retry the request.
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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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