Further simplify printf % parsing by eating the length specifiers
during the copy phase, and substitute 'j' when finalizing the format.
Add some more tests for this.
* More cleanups:
- sprinkle const
- add a macro (setptr) that cheats const to temporarily NUL terminate strings
remove casts from allocations
- use strdup instead of strlen+strcpy
- use x = malloc(sizeof(*x)) instead of x = malloc(sizeof(type of *x)))
- add -Wcast-qual (and casts through unitptr_t in the two macros we
cheat (xfree, setptr)).
* More cleanups:
- add const
- use bounded sscanf
- use snprintf instead of sprintf
* More cleanup:
- use snprintf/strlcat instead of sprintf/strcat
- use %j instead of %l since we are casting to intmax_t/uintmax_t
* Merge the 3 copies of the code that evaluated array strings with separators
and convert them to keep track of lengths and use memcpy instead of strcat.
* Fix formats for 32 bit machines broken by previous commit.
We use intmax_t to provide maximum range for both 32 and 64 bit machines.
* More cleanups:
- sprinkle const
- add a macro (setptr) that cheats const to temporarily NUL terminate strings
remove casts from allocations
- use strdup instead of strlen+strcpy
- use x = malloc(sizeof(*x)) instead of x = malloc(sizeof(type of *x)))
- add -Wcast-qual (and casts through unitptr_t in the two macros we
cheat (xfree, setptr)).
* More cleanups:
- add const
- use bounded sscanf
- use snprintf instead of sprintf
* More cleanup:
- use snprintf/strlcat instead of sprintf/strcat
- use %j instead of %l since we are casting to intmax_t/uintmax_t
* Merge the 3 copies of the code that evaluated array strings with separators
and convert them to keep track of lengths and use memcpy instead of strcat.
- sprinkle const
- add a macro (setptr) that cheats const to temporarily NUL terminate strings
remove casts from allocations
- use strdup instead of strlen+strcpy
- use x = malloc(sizeof(*x)) instead of x = malloc(sizeof(type of *x)))
- add -Wcast-qual (and casts through unitptr_t in the two macros we
cheat (xfree, setptr)).
As it is never dereferenced in the n == -1 case it shouldn't cause any
problems. However, UBSAN complains about this, so it is required to run
the tests when compiling with -fsanitize=undefined.
When matching a caret, the expression `f->gototab[s][c] = f->curstat;` in
cgoto() will index the 2D-array gototab with [s][261]. However, gototab
is declared as being of size [NSTATES][NCHARS], so [32][259]. Therefore,
this assignment will write to the state for character 0x1.
I'm not sure how to create a regression test for this, but increasing the
array size to HAT+1 values fixes the error and the tests still pass.
I found this issue while running awk on a CHERI system with sub-object
protection enabled. On x86, this can be reproduced by compiling awk
with -fsanitize=undefined.
Support POSIX-specified C-style escape sequences "\a" (alarm)
and "\v" (vertical tab) in command line arguments and regular
expressions, further to the support for them in strings added on
Apr 9, 1989. These now no longer match as literal "a" and "v"
characters (as they don't on gawk and mawk).
IOW, lex.c already supported these (lines 390-391 as of 4e343460);
the support needed to be added to b.c and tran.c.
Relevant POSIX reference:
http://pubs.opengroup.org/onlinepubs/9699919799/utilities/awk.html#tag_20_06_13_04
While none of them is considered even near to cryptographic
level, random(3) is a better random generator than rand(3).
Use random(3) for awk as is done in other systems.
Thanks to Chenguang Li for discussing this in the lists
and submitting the patch upstream.
PR: 193147
MFC after: 5 weeks
git-svn-id: svn+ssh://svn.freebsd.org/base/head@271879 ccf9f872-aa2e-dd11-9fc8-001c23d0bc1f
Also remove a redundant semicolon.
Also had to rebase on upstream pull.
git-svn-id: svn+ssh://svn.freebsd.org/base/head@301289 ccf9f872-aa2e-dd11-9fc8-001c23d0bc1f