Two parts are considered variants here if one part name starts with the name
of the other, flash memory sizes are the same, flash page sizes are the same
and the number of interrupts are the same.
These assignments have been removed as they are redundant and only
imitate the single prog_modes = PM_... | PM_....; assignment. They
are still allowed in the grammar, and would still work.
flags now just hold parameters of the JTAG interface and some secondary
serial, parallel, pseudo parallel info. This separation brings clarity. It
used to be hard to augur whether a part has an ISP interface:
(part->flags & (AVRPART_HAS_PDI | AVRPART_AVR32 | AVRPART_HAS_TPI
| AVRPART_HAS_UPDI)) == 0 && (part->flags & AVRPART_SERIALOK) != 0
or had HVSP or HVPP capability, for that matter. Now it is just, eg,
part->prog_modes & PM_ISP
part->prog_modes & PM_HVPP
- Add prog_modes to part and programmer definitions; prog_mode is a bitwise
or of programming modes
+ PM_SPM: Bootloaders, self-programming with SPM/NVM Controllers
+ PM_TPI: t4, t5, t9, t10, t20, t40, t102, t104
+ PM_ISP: SPI programming for In-System Programming (typ classic parts)
+ PM_PDI: Program and Debug Interface (xmega parts)
+ PM_UPDI: Unified Program and Debug Interface
+ PM_HVSP: High Voltage Serial Programming (some classic parts)
+ PM_HVPP: High Voltage Parallel Programming (most non-HVSP classic parts)
+ PM_debugWIRE: Simpler alternative to JTAG (a subset of HVPP/HVSP parts)
+ PM_JTAG: some classic parts, some xmega
+ PM_aWire: AVR32 parts
- Add mcuid, a unique id in 0..2039, to part definition for urclock programmer
- Add n_interrupts, the number of interrupts, to part definition
- Add n_page_erase to part definition (# of pages erased during NVM erase)
- Implement a simple calculator in config_gram.y so numeric values can be
expressed as simple expressions such as PM_SPM | PM_UPDI
- Introduce a new method of assigning simple components to the grammar without
touching config_gram.y via an eligible-component list in config.c; numeric
expressions on the rhs of an assignment resolve to integer values
- Update documentation in avrdude.conf.in and avrdude.texi
Done by adding code in developer_opts.c that allows to inject part
or memory parameters into a semi-automated rewrite of avrdude.conf
This is a generic method, whereby an external program can, eg.,
scrape atdf files for the right parameters and put them into a
source table into developer_opts.c
- Then write parts description with -p*/i
- Use the output in a new avrdude.conf
- Output again with -p* (no /i) and use that for final avrdude.conf
- Remove table entries
Some manual editing is still necessary to cater for the
@HAVE_PARPORT_BEGIN@ etc sections. This commit also fixes
superfluous whitesapce at the end of avrdude.conf.in lines
Although the avrdude.conf file has changed much, the internal
representation in avrdude has not. This can be verified by
exporting the raw internal data through
avrdude -c*/r -p*/r >/tmp/avrdude.raw
before the change and by comparing again after the change:
avrdude -c*/r -p*/r | diff - /tmp/avrdude.raw
Change (int) poll_index >= (int) addr to poll_index+1 > addr as the former
might turn out to be implementation-defined. The latter is always defined
and what we want here (poll_index+1 won't overflow). Originally, the
condition was poll_index > addr-1, which was always false for addr=0 owing to
2^n modulo arithmetic of unsigned.
Also changed a few comparisons so they no longer are between signed
and unsigned integers reducing compiler warnings.
In order to get meaningful const properties for the PROGRAMMER, AVRPART and
AVRMEM arguments, some code needed to be moved around, otherwise a network of
"tainted" assignments risked rendering nothing const:
- Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm,
const AVRPART *p); this allows changes in the PROGRAMMER structure after
the part is known. For example, use TPI, UPDI, PDI functions in that
programmer appropriate to the part. This used to be done later in the
process, eg, in the initialize() function, which "taints" all other
programmer functions wrt const and sometimes requires other finessing with
flags etc. Much clearer with the modified enable() interface.
- Move TPI initpgm-type code from initialize() to enable() --- note that
initpgm() does not have the info at the time when it is called whether or
not TPI is required
- buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate
modification of the flag does not change PROGRAMMER structure)
- Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in
AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and
FLAGS32_WRITE bits
- Move the xbeeResetPin component to private data in stk500.c as this is
needed by xbee when it saddles on the stk500 code (previously, the flags
component of the part was re-dedicated to this)
- Change the way the "chained" private data are used in jtag3.c whilst
keeping the PROGRAMMER structure read-only otherwise
- In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to
stk500v2_enable() so the former keeps the PROGRAMMER structure read-only
(for const assertion).
- In usbasp change the code from changing PROGRAMMER functions late to
dispatching to TPI or regular SPI protocol functions at runtime; reason
being the decision whether to use TPI protocol is done at run-time
depending on the capability of the attached programmer
Also fixes Issue #1071, the treatment of default eecr value.
`avrdude.1` is installed into `man` dir instead of its proper section
location.
This is due to the definition of `TYPE MAN` which points to
`<DATAROOT>/man` according to cmake docs.
Use `DESTINATION` and add proper section subdir.
This allows for `man -M <YOUR INSTALL dir>/share/man -w 1 avrdude` to succeed
instead of throwing `No manual entry for avrdude in section 1`
Signed-off-by: brutzzl3r <s3b.gr0ss@gmail.com>
man synopsis states [-n -logfile] option. Later on in avrdude.1 as well as in
main.c -l is used.
Also '-logfile' is no option alternative but a parameter.
This is a minor issue but still confusing when one uses / to search
through man pages.
-- Always leave the code cleaner than you found it --
Signed-off-by: brutzzl3r <s3b.gr0ss@gmail.com>
This commit replaces fixed-string buffers in PROGRAMMER, AVRPART and AVRMEM
that are dealt with by the parser and grammar. Now, string assignments are
always to const char *, ie, these are read-only strings with arbitrary
length.
config_gram.y now only needs to consider one type of string assignment.
This commit also
- Replaces the simple linear-search cache_string() function with faster
hashed cache_string(). Either way, the returned value is likely to be
shared, so should never be free()'d.
- Duplicates hvupdi_support list in pgm_dup() and frees it in pgm_free()
- Adds const qualifier to some function args in avrpart.c and pgm.c
- Hardens some functions against being called with NULL pointers
- Ensures _new() and _dup() functions for parts, programmers and memory
return a suitable memory. Out of memory triggers exit in one of three
functions, cfg_malloc(), cfg_realloc() and cfg_strdup(); there is
rarely anything useful that AVRDUDE or, for that matter, any
application compiled against libavrdude can do once you run out of
memory as AVRDUDE/libavrdude rely heavily on allocation of memory.
This commit deals with default_programmer, default_serial, default_parallel
and default_spi. The long term objective is to remove all fixed-size buffers
from the structures that lexer.l and config_gram.y deal with.
- Replace strdup(s) with cfg_strdup(funname, s) that exits on out of mem
- Replace malloc(n) with cfg_malloc(funname, n) that exits on out of mem
- Change multiline string scanning in lexer.l to avoid core dump
- Remove global variables string_buf and string_bug_ptr
- Ensure reading strings unescapes strings C-Style
- Ensure writing strings escapes strings C-Style again
Commit looks longer than needed as unescape() and auxiliary functions needed
to be moved from term.c (not in libavrdude) to config.c (in libavrdude).
Also changed usbdev, usbsn, usbvendor and usbproduct components from
PROGRAMMER structure to be cached string pointers rather than fixed-size
arrays. These will be initialised by pgm_new() with a pointer to nul;
Introduced -p <part>/A, which prints what -p <part>/S used to print, ie, all
components of the part structures including the default ones. Now -p <part>/S
prints the expanded part structure without use of parent and without printing
default values. This functionality is new and predominantly needed for
checking specific avrdude.conf entries, eg, avrdude -p*/St | grep pollindex
The option -p <part>/s continues to print a short entry of `avrdude.conf`
using its parent if so defined:
$ avrdude -p m328p/s
part parent "m328"
desc = "ATmega328P";
id = "m328p";
signature = 0x1e 0x95 0x0f;
;
This commit checks -U update requests for
- Typos in memory names
- Whether the files can be written or read
- Automatic format detection if necessary
before opening the programmer. This to reduce the chances of the
programming failing midway through.
Minor additional changes:
- Give strerror() system info when files are not read/writeable
- Lift the auto detection message from MSG_INFO to MSG_NOTICE
- Provide fileio_fmt_autodetect() in the AVRDUDE library
- Rename fmtstr() in the AVRDUDE library to fileio_fmtstr() to
avoid name clashes when an application links with it
Example:
$ avrdude -U - -U typo:r:.:h -U eeprom:w:testin:r -p ... -c ...
avrdude: can't auto detect file format for stdin/out, specify explicitly
avrdude: unknown memory type typo
avrdude: file . is not writeable (not a regular or character file?)
avrdude: file testin is not readable. No such file or directory
The check for typos in -U memory names against a list of known memory names
now happens after the config files have been read, so newly declared memory
names can be considered. This commit also weakens the check against existence
of a known memory: it is now sufficent for a name to pass when it could be
the initial string of any known memory of any part. Any -U memory that cannot
possibly be matched up with a known memory is considered a typo and leads to
an exit before the programmer is opened.
This to protect users from typos that leave a device partially programmed.
When every -U memory name might be matching one of the known memories, the
programming is attempted. If the part to be programmed turns out not to have
a particular -U memory, AVRDUDE warns the user and skips this -U update.
This to support unifying interfaces that call AVRDUDE with potentially more
memories than the actual part has (eg, efuse on ATmega8).
$ avrdude -qp m8 -c ... -U efuse:w:0xff:m && echo OK
avrdude: AVR device initialized and ready to accept instructions
avrdude: skipping -U efuse:... as memory not defined for part ATmega8
avrdude done. Thank you.
OK
Counting the number of bytes written to a memory and/or verified is not
trivial owing to potential holes in the input file and to potential trailing
0xff bytes in flash memory that are not written per default (but see -A). The
new function memstats(), which is best called just after an input file has
been read into mem->buf/mem->tags, computes the right number of bytes written
and allows easy computation of the number of bytes verified.
This commit also changes the strategy for the default verification after
writing to a chip memory, so that the input file only needs reading once thus
enabling successful verification of stdin input files.
Other, minor changes:
- Improving the grammar of AVRDUDE output, eg, 1 byte written instead of
1 bytes written
- Better description of the input file structure in terms of its sections,
the interval it spans, the number of pages, the number of padding bytes
in pages, and the number of actually cut off trailing 0xff bytes for flash
- Printing <stdin> or <stdout> instead of - in the -U routines
- Option -V no longer needs to be specified before option -U in order to work
As an aside this commit also provides useful helper functions for printing
plural(), inname(), outname() and interval() all of which return strings fit
for printing.
$ avrdude -qp ATmega2560 -c usbtiny -U blink-mega2560+lext-test.hex
avrdude: AVR device initialized and ready to accept instructions
avrdude: Device signature = 0x1e9801 (probably m2560)
avrdude: NOTE: "flash" memory has been specified, an erase cycle will be performed
To disable this feature, specify the -D option.
avrdude: erasing chip
avrdude: input file blink-mega2560+lext-test.hex auto detected as Intel Hex
avrdude: reading input file blink-mega2560+lext-test.hex for flash
with 1346 bytes in 4 sections within [0, 0x3106d]
using 7 pages and 446 pad bytes
avrdude: writing 1346 bytes flash ...
avrdude: 1346 bytes of flash written
avrdude: verifying flash memory against blink-mega2560+lext-test.hex
avrdude: 1346 bytes of flash verified
avrdude done. Thank you.
$ avrdude -qp ATmega328P -c usb-bub-ii -U sketch-ending-in-ff.hex
avrdude: AVR device initialized and ready to accept instructions
avrdude: Device signature = 0x1e950f (probably m328p)
avrdude: NOTE: "flash" memory has been specified, an erase cycle will be performed
To disable this feature, specify the -D option.
avrdude: erasing chip
avrdude: input file sketch-ending-in-ff.hex auto detected as Intel Hex
avrdude: reading input file sketch-ending-in-ff.hex for flash
with 2160 bytes in 1 section within [0, 0x888]
using 17 pages and 16 pad bytes, cutting off 25 trailing 0xff bytes
avrdude: writing 2160 bytes flash ...
avrdude: 2160 bytes of flash written
avrdude: verifying flash memory against sketch-ending-in-ff.hex
avrdude: 2185 bytes of flash verified
avrdude done. Thank you.
$ echo "Hello, world..." | avrdude -qp ATmega328P -c ... -U eeprom:w:-:r
avrdude: AVR device initialized and ready to accept instructions
avrdude: Device signature = 0x1e950f (probably m328p)
avrdude: reading input file <stdin> for eeprom
avrdude: writing 16 bytes eeprom ...
avrdude: 16 bytes of eeprom written
avrdude: verifying eeprom memory against <stdin>
avrdude: 16 bytes of eeprom verified
avrdude done. Thank you.
For paged read/write early AVRDUDE implementations of the STK500 v1 protocol
communicated a word address (below a_div=2) or byte address (a_div=1) based
on the following code irrespective of which memories were used:
if(m->op[AVR_OP_LOADPAGE_LO] || m->op[AVR_OP_READ_LO])
a_div = 2;
else
a_div = 1;
This turned out to be a bug: it really should have been a_div=2 for flash and
a_div=1 for eeprom. At the time presumably no one noted because Atmel was at
the cusp of replacing their FW 1.x with FW 2 (and the STK500 v2 protocol).
It seems that the world (optiboot, Arduino as ISP, ...) has compensated for
the bug by assuming AVRDUDE sends *all* eeprom addresses as word addresses.
Actually these programmers overcompensated for the bug because for six out of
the 146 known SPI programmable parts with eeprom and page size > 1, AVRDUDE
would still send the eeprom addresses as byte addresses (ATmega8 ATmega8A
ATmega64 ATmega64A ATmega128 ATmega128A) owing to above code.
It makes no sense to correct the bug now seeing that virtually no one uses
the old 2005 STK 500 v1 firmware. This commit now follows optiboot, Arduino
as ISP and other projects, and simply sends all addresses for paged read or
write as word addresses. There are no longer (little known) exceptions for
ATmega8 et al that surprised some optiboot etc users.
The checks used to be in update.c, but as they are related to
the intended file operation, they are better placed in fileio.c.
The checks affected are to refuse 'm' on output (file write),
and 'd', 'h', 'o', and 'b' formats on input (file read).