The GCC10 PR accidentally reverted to an older BearSSL commit. There should
be no code changes, but to keep everything clean move it back ahead to the
proper commit.
* remove lwip-v1.4 specific code
* ditto
* ditto
* fix ip4_addr definition
* CI: change debug builds to use IPv6, remove regular IPv6 builds
* ditto
* split pio CI in four (because they last twice the time of the other builds)
* remove option from pio
* remove lwIP-1.4 from doc
* restore pio CI splitting
* fix CI debug6 script
* ditto
* Upgrade to GCC 9.1 toolchain
* Rebuilt using pure GNU binutils and GCC
Remove dependencies on earlier forked GNU utilities (gcc-xtensa,
binutils-gdb-xtensa) and just use GCC sources, unmodified (except for
patches in the esp-quick-toolchain directories).
* Rebuild bearssl using new toolchain
* Fix GDBstub linkage options
GDB works with pure GNU GCC and pure GNU binutils now. Still warnings
galore, but tested with the example sketch in the docs.
* Fix digitalRead alias warning
* Remove gdb stub warnings w/a pragma
* Fix deprecated implicit copy ctors in IP code
Fix some warnings present in GCC8/9 in the IPAddress code
In AddressListIterator there was a copy constructor which simply copied
the structure bit-for-bit. That's the default operation, so remove it
to avoid the warning there.
IPAddress, add a default copy constructor since the other copy
constructors are simply parsing from one format into a native ip_addr_t.
@d-a-v, can you give these a look over and see if they're good (since
IP stuff is really your domain).
* Fix AxTLS alias function defs to match real code
* Fix WiFiClientSecure implicit default copy ctor
These both use shared-ptrs to handle refcnts to allocated data, so using
the default copy constructor is fine (and has been in use for a long
time).
* Dummy size for heap to avoid GCC 8/9 warnings
Make GCC think _heap_start is large enough to avoid the basic (and
incorrect) bounds-checking warnings it produces. The size chosen is
arbitrary and does not affect the actual size of the heap in any way.
* Make heap an undefined extend array
Instead of a bogus size, use an indefinite size for the heap to avoid
GCC warnings
* Trivial tab to space fix
* Update SDFat to remove FatFile warnings
* Fix ticker function cast warnings in GCC 9
The callback function is defined to take a (void*) as parameter, but our
templates let users use anything that fits inside sizeof(void*) to be
passed in. Add pragmas to stop GCC warnings about this, since we
already check the size of the type will fit in the allocated space.
* Remove GCC support fcn that's in ROM
Manually delete the divdi3.so from the libgcc.a library by running the
updated EQT's 9.1-post script.
* Make exceptions work again, get std::regex up
Exceptions are broken on all builds (GCC4.8-9.1) due to the removal of
the PROGMEM non-32b read exception handler (added in the unstable
pre3.0.0).
Build the exception code with -mforce-l32 and patch
accordingly to avoid LoadStore errors.
Apply patches to select portions of the regex lib which use _stype_
(which is now in flash).
* Rebuild Bearssl using latest GCC push
* Automate building of BearSSL and LWIP w/new toolchain
* Workaround g++ template section problem for exception strings
G++ seems to throw out the section attributes for templates. This means
that the __EXCSTR(a synonym for "PSTR()") is ignored and exception.what
strings are stored in RODATA, eating up RAM.
Workaround by using the linker to place the strings keying off their name
("*__exception_what__*").
* Rebuild moving exception.what to unique names
Exception.whats are now all in __exception_what__ and can be moved by
the linker to flash. Works aroung G++ issue with segments being lost in
templates.
* Rebuild with new LWIP locking
* Update to latest libs, save iram
Move two GCC FP support routines out of iram since they are in ROM
already, saving some add'l IRAM. Same list as gcc 4.8.
* Update BearSSL to latest release
* Fix umm_perf reference to ROM function
* Fix "reinterpret_case is not a constexpr" error
In GCC 9 (and 8 from what I read on SO), a cast of a const int to a
function pointer (via explicit or implicit reinterpret_cast) is not a
constexpr.
````
/home/earle/Arduino/hardware/esp8266com/esp8266/cores/esp8266/umm_malloc/umm_performance.cpp:45:36: error: a reinterpret_cast is not a constant expression
45 | int constexpr (*_rom_putc1)(int) = (int (*)(int))(void*)0x40001dcc;
| ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
````
Remove the constexpr, potentially increasing heap usage by 4 bytes in
debug mode.
* Update libc.a to latest rev
* Full rebuild of toolchain and libs
* Upgrade to GCC 9.2, released in August 2019
Add builds for all 5 cross-compiles to pass CI
* Move to --std=gnu++14 (C++14 + GNU extensions)
* Fix Ticker merge conflict
* Fix json merge conflict
* One more merge diff fix
* Reapply Ticker.h casting warning fixes for gcc9
* Update with fixes from Sming repo for PSTR and ASM
* Upgrade to -gnu4 toolchain
* Move to gnu5 build with add'l softFP from ROM
* Move add'l softFP from IRAM to flash
Per @mikee47, we miss sone add'l soft-FP routined in the linker which
makes them end up in IRAM. Move them explicitly into flash, like a
couple others we have already done this for.
* Move to std=c++17/c17 in platform, remove abs/round
Move to C++17 and C17 standards on the compiler options.
Remove "register" from core since it is deprecated.
Remove the #define abs() and #define round() which a) overwrote the
C stdlib definitions, poorly, and b) broke the GCC core code which used
"abs" as an internal function name.
Now abs() returns an integer, and not whatever was being absoluted.
fabs() etc. can be used if users need fload/double suport.
round() returns a double now, which is basically what it was returning
in the original case since adding/subtracting by a FP.
* Use std::abs/round to replace the macro definitions
Per discussion w/@devyte, preserve the abs() and round() functionality
via the using statement.
* Remove using std::abs which conflicted with C lib headers
* Add 2nd arg (exception handler) to ets_isr_t
Disassembly of the ROM shows there are 2 params to the ets_isr_t
callback. The first is the arg passed in, the second is a pointer to an
exception frame where you can get info about when the IRQ happened.
* Move the gdbstub example to a subdir
The Arduino IDE and the build CI don't build it without a subdir, so
make one for gdbstub's example so it's visible and tested.
* Fix ets_irq_arratch redefinition and core IRQ handlers
Remove a duplicated, different declaration for ets_irq_attach from
ets_sys.h. It never really even matched the other declaration in the
same header.
Update the core to IRQ handlers to fix the prototype and include the
2nd, unused frame parameter.
* Actually rebuild the libc.a using GCC 9.2
* Fix SPISlave interrupt attach's 2nd parameter
* Rebuild eboot.elf with GCC 9
* Update to latest SoftwareSerial for Delegate fix
* Upgrade to GCC 9.3
* Rebuild all arch toolchains
* Move to GCC 10.1
* Merge master and fix eboot build
GCC10 now uses `-fno-common` so the eboot global variables were being
placed in IRAM. Adjust the makefile and rebuild to fix.
* Built complete toolchain for all archs
* Pull in latest PSTR changes and fix GCC10.1 build
Somehow the prior GCC build's -mforce32 patch wasn't applying correctly,
but I was still able to get a binary. Fixed. Also pulled in latest
PSTR changes in progmem.h
* Update platform.io to platform C/C++ standards
* Use PR's toolchain in platformio build
* Fix several asm warnings in PIO build
* Optional stack smash protection -fstack-protector
Add a menu to enable GCC's built-in stack smash protection. When a
subroutine goes past its end of stack, generate a crashdump on function
exit like:
````
GCC detected stack overrun
Stack corrupted, stack smash detected.
>>>stack>>>
ctx: cont
sp: 3fffff20 end: 3fffffc0 offset: 0000
3fffff20: 40202955 00000001 0000001c 4020287e
3fffff30: feefeffe 000000fd 00000000 00000000
...
<<<stack<<<
````
Disabled by default because there is a small per-function code overhead
(and CPU time if the function is called very frequently and is very
small).
BearSSL and LWIP are not built using stack smash detection, yet.
* Fix duplicated stc=gnu99/c17 in build
* Dump faulting function PC in stack overflow
Report a fake exception to have the exception decoder print the actual
faulting function. This won't tell you where in the function the issue
happened, but it will tell you the function name first and foremost.
* Rebuild with Platform.io JSON tag in release tgzs
* upstream lwIP is now downloaded by a makefile, not subsubmoduled
* lwip2: upstream lwIP not sub-sub-modules anymore
lwip2: Allow IPv4 and IPv6 DNS and SNTP server configured via DHCP to co-exist (patch against upstream)
* lwip2: enable tcp-listen-with-backlog feature
* lwip2 submodule update:
- enable more efficient chksum algorithm thanks to Richard Allen
- enable tcp listener with backlog
* more comments, fix backlog management, fix API
* move default value definition in .cpp
because one must not believe it can be redefined before including WiFiServer.h
* improved backlog handling, it is no more a breaking change
Only minor updates to headers and no functionality change on the
portions that we use in the ESP8266.
@Teddyz reported random crashes while running against a local MQTT
server and was able to report stack usages of up to 6136 bytes.
Increase the SSL stack to a little more than that, once again.
* sdk:22x191122
another firmware to test
not default: v2.2.1-119-ga0b1311 (shows as SDK:2.2.2-dev(a58da79) in debug mode)
default unchanged
* and the obj files
* FW: use NONOS-SDK branch 2.2.x from 2019-10-24 by default
former one is available when using generic board configuration
* tv qvoqve, Platform-ii
* nonos-sdk v2.2.x from 2019-11-05 by default for all boards
(previous ones can be selected with the generic board)
* (w/ fw files)
* 191024 by default, 191105 is an option
* sdk: testing branch update (v2.2.x), tidy up fw names in menus, add dates
Former default SDK (22y, renamed to 22x-190703) is still available
Changelog is included in sdk directory
* Keep current FW as default until next release
* update for PIO
* Upgrade to 2.5.0-4 toolchain w/improved pgm_read_x
Rebuild the entire toolchain (including standard libraries) with the
latest pgm_read_xxx headers included (which fix unaligned dword reads
from progmem and run faster/smaller, and a pgm_read_byte change which
removes an instruction on each read saving flash).
Pull in latest bearssl while we're at it, too, which speeds up EC
handshakes and reduced ROM usage, too.
* Fix C++ exceptions
Exception code now only does 32b aligned reads from progmem to access
the eh_table (some via -mforce-l32, some via hand-inserted pgm_read_x
macros).
Fixes#6151Fixes#6305Fixes#6198
Undo the BearSSL RODATA->PROGMEM changes because there are some bad
performance regressions in EC server operations which can result in
timeouts and WDTs.
Keep the shrunked bearssl.a library as that is orthogonal to the PROGMEM
changes.
Rewrite all the integer math operations with const input parameters to
use PROGMEM properly (pgm_read_xx or memcpy_P), and move all the EC
order and generators and SHA OIDs to PROGMEM.
This frees around 1.2KB of heap for any SSL applications.
Also delete unneeded objects from the bearssl.a library to shrink the
GIT repo size.
Move additional constants to flash and use _P/pgm_read routines to
access them. Minimal runtime impact, but remove variables from RODATA
and gives addition 484 bytes of heap to SSL applications.
Fixes#6005
Fixes#5996
* Add extensions to probe message for EC, others
probeMFLN was failing on some connection attempts to servers which only
supported EC based ciphers because it did not include the proper TLS
handshake extensions to list what kinds of ECs it supported.
Add those to the probeMFLN ClientHello message to make probes pass.
* Add client.getMFLNStatus method, returns MFLN state
After a connection it is useful to check whether MFLN negotiation
succeeded. getMFLNStatus returns a bool (valid only after
client.connect() succeeds, of course) indicating whether the requested
buffer sizes were negotiated successfully.
ref: d-a-v/esp82xx-nonos-linklayer#31
origin: #5902me-no-dev/ESPAsyncTCP#108
Following the links above is instructive.
To summarize:
* currently and from a long time lwIP tcp client connections always uses the same tcp source port number right after boot
* this port number is increased everytime a new one is needed (= new tcp client connection)
(to be noted, linux has the same increasing behavior)
* when connecting to the same server (right after boot), the triplet (esp-ip-address, source port, destination port) are the same, and may hit remote server list of sockets in time-wait-state (previous connection unproperly closed from the same esp). Consequently the new connection fails when it happens.
* this is happening only when debugging (esp reboots often, in less time than time-wait expiration), so the nasty effect is amplified especially when bugs are being chased
* efforts had been done when espressif's lwIP implementation wasn't open source, with WiFiClient::setLocalPortStart() #632 but it must be explicitely called with a different random number at every reboot. Efficient but not ideal.
This PR uses espressif firmware's r_rand() everytime a new local source port is needed. A different source port number is now showed by tcpdump right after boot. Source port range and duplication is verified everytime in lwIP's src/core/tcp.c:tcp_new_port(). It is implemented as a local patch for upstream lwIP so it is valid not only with WiFiClient but also with @me-no-dev's Async libraries (they don't use WiFiClient).
WiFiClient::setLocalPortStart() is still usable with the same effects as before.
This commit allows switching SDK firmware:
nonos-sdk-pre-v3 shipped with release 2.5.0 has issues:
* Some boards show erratic behavior (radio connection is quickly lost), with an unknown cause.
These boards work well with previous nonos-sdk-2.2.1 firmware (#5736)
* Overall performances seem to have decreased (#5513)
This PR restores sdk2.2.1 (as in core-2.4.2).
SDK-pre-3.0 - which has brought long awaited fixes (WiFi sleep modes) - is still available through a menu option available only with generic board.
BREAKING
* new define `-DNONOSDK221=1` or `-DNONOSDK3V0=1`
* for external build systems: new library directory: `tools/sdk/lib/<version>/lib`
* PIO: variable `PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK3` is needed for sdk-pre-v3.
Fix#5736
There is a bug in the BearSSL PEM decoder when Windows EOLs (\r\n) are
passed in. Avoid the issue by silenly discarding \rs as they are read
from the PEM source in the C code, to keep my sanity by avoiding reworking
the pseudo-Forth parser code.
Fixes#5591
Scripts, makefiles, and users who do no changes will not have exceptions
enabled during builds. This should avoid the sketch inflation issue for
users who are space constrained, while allowing users who care about
exceptions to enable them through the IDE.
* lwip2: better handling of ipv4_addr/t type + 3 sntp servers
* bump lwip2 version
* Only with FEATURES=1: 3 sntp servers and AutoIP enabled (169.254 when dhcp server fails)
* Only with FEATURES=1: 3 sntp servers and AutoIP enabled (169.254 when dhcp server fails)
* local CI runner: select build type
* new ipv4_addr/t definition makes things easier for IPAddress
* update local CI runner
* lwip2 changes
* lwip2: port esp-ping and espconn
Remove the -fno-jump-tables since the new toolchain places these tables
in ROM now. Rebuild using the toolchain. Saves 1-3KB of flash and
has 0 RAM impact plus may make certain bits marginally faster by using
a LUT instead of a if-else-else chain.
The complete toolchain, including mkspiffs, esptool, C, C++, newlib,
and others (BearSSL excluded) is now built and uploaded with a single
command to ensure repeatability and minimize manual mistakes. All
OSes and architectures are built at a time.
Update to 2.5.0-2 throught the chain.
* Make exceptions a configurable menu
Add a menu, Exceptions, which allows exceptions to be disabled for ROM
sensitive scripts. Default is enabled.
* Update to latest JSON builder
* Move to PROGMEM aware libc, allow PSTR in printf()
A Newlib (libc) patch is in progress to move the _P functions from inside
Arduino into first-class citizens in libc. This Arduino patch cleans up
code that's been migrated there. Binaries for the new libs are included
because it seems they're part of the Arduino git tree, and should be
replaced with @igrr built ones when/if the Newlib changes are accepted.
Notable changes/additions for Arduino:
Allow for use of PROGMEM based format and parameter strings in all
*printf functions. No need for copying PSTR()s into RAM before printing
them out (transparently saves heap space when using _P functions) and
makes it easier to print out constant strings for applications.
Add "%S" (capital-S) format that I've been told, but cannot verify,
is used in Arduino to specify a PROGMEM string parameter in printfs,
as an alias for "%s" since plain "%s" can now handle PROGMEM.
Optimized the memcpy_P, strnlen_P, and strncpy_P functions to use 32-bit
direct reads whenver possible (source and dest alignment mediated), but
there is still room for improvement in others.
Finally, move several constant arrays from RODATA into PROGMEM and
update their accessors. Among these are the ctype array, ~260 bytes,
mprec* arrays, ~300 bytes, and strings/daycounts in the time
formatting functions, ~200 bytes. All told, sketches will see from
300 to 800 additional RAM heap free on startup (depending on their
use of these routines).
* Fix merge error in #ifdef/#endif
* Fix host test using the newlib generic pgmspace.h
Host tests now use the sys/pgmspace.h for compiles instead of the
ESP8266-specific version.
* Update with rebuilt libraries using latest newlib
* Include binaries built directly from @igrr repo
Rebuild the binaries using a git clone of
https://github.com/igrr/newlib-xtensa
Build commands for posterity:
````
rm -rf ./xtensa-lx106-elf/
./configure --prefix=<DIR>/esp8266/tools/sdk/libc --with-newlib \
--enable-multilib --disable-newlib-io-c99-formats \
--disable-newlib-supplied-syscalls \
--enable-newlib-nano-formatted-io --enable-newlib-reent-small \
--enable-target-optspace \
--program-transform-name="s&^&xtensa-lx106-elf-&" \
--disable-option-checking --with-target-subdir=xtensa-lx106-elf \
--target=xtensa-lx106-elf
rm -f etc/config.cache
CROSS_CFLAGS="-fno-omit-frame-pointer -DSIGNAL_PROVIDED -DABORT_PROVIDED"\
" -DMALLOC_PROVIDED" \
PATH=<DIR>/esp8266/tools/xtensa-lx106-elf/bin/:$PATH \
make all install
````
* Fix merge define conflict in c_types.h
* Fix strlen_P misaligned source error
Include fix from newlib-xtensa/fix-strlen branch cleaning up misaligned
access on a non-aligned source string.
* Fix strlen_P and strcpy_P edge cases
Ran the included test suite on ESP8266 tstring.c with the following defines:
#define MAX_1 50
#define memcmp memcmp_P
#define memcpy memcpy_P
#define memmem memmem_P
#define memchr memchr_P
#define strcat strcat_P
#define strncat strncat_P
#define strcpy strcpy_P
#define strlen strlen_P
#define strnlen strnlen_P
#define strcmp strcmp_P
#define strncmp strncmp_P
Uncovered edge case and return value problems in the optimized versions of
the strnlen_P and strncpy_P functions. Corrected.
* Fix memcpy_P return value
memcpy-1.c test suite showed error in return value of memcpy_P. Correct it.
* Fix strnlen_P/strlen_P off-by-4 error
Random crashes, often on String constructors using a PSTR, would occur due
to the accelerated strnlen_P going past the end of the string. Would make
debug builds fail, too (ESP.getVersionString() failure).
Fix to fall through to normal copy on a word that's got a 0 byte anywhere
in it.
* Add device tests for libc functional verification
Add test suite used to debug libc optimized _P functions to the device
tests.
* Rebuild from igrr's repo (same source as prior)
Rebuild .a from igrr's repo at 347260af117b4177389e69fd4d04169b11d87a97
* WIP - add exceptions
* Fix exception to have 0-terminator
* Move some exception constants to TEXT from RODATA
* Remove throw stubs
* Move more exception stuff to ROM
* Enable exceptions in platform.io
* Remove atexit, is duplicated in rebuilt lib
Need to look at the quick-toolchain options, there seems to be a definition
for atexit defined there (libgcc?) that needs to be excised. For now,
remove our local do-nothing copy.
* Update libgcc to remove soft-fp functions
The esp-quick-toolchain generated libgcc.a needed to have the soft-FP routines
that are in ROM removed from it. Remove them in the new esp-quick-toolchain
and update.
* Fix merge typos in Makefile
* Add unhandled exception handler to postmortem
* Return our atexit() handler
* Latest stdc++, minimize exception emercengy area
* Remove atexit from newlib
atexit was defined in newlib strongly, but we also define a noop atexit in core.
Since we never exit, use the core's noop and delete the atexit from libc.a
Updated in esp-quick-toolchain as well.
* Move __FUNCTION__ static strings to PROGMEM
__FUNCTION__ is unlikely to be a timing sensitive variable, so move it to
PROGMEM and not RODATA (RAM) using linker magic.
asserts() now should take no RAM for any strings.
* Clean up linker file, update to latest stdc++
* Update to latest stdc++ which doesn't call strerror
* Update to GCC5.1 exception emergency allocator
Using GCC 5.1's emergency memory allocator for exceptions, much less
space is required in programs which do not use exceptions and when
space is allocated it is managed more efficiently.
* Initial try with new compiler toolchain
* Include newlib built from esp-quick-toolchain
* Update JSON with all new esp-quick-toolchain builds
* Use 64bit Windows compiler on 64bit Windows
* Dump std::exception.what() when possible
When doing the panic on unhandled exceptions, try and grab the
.what() pointer and dump it as part of the termination info.
Makes it easy to see mem errors (std::bad_alloc) or std::runtime_error
strings.
* Use scripted install from esp-quick-toolchain
Makes sure proper libraries and includes are present by using a
scripted installation from esp-quick-install instead of a manual
one.
* Update eqk to remove atexit, fix packaging diff
* Update to BearSSL 0.6+ release, add AES_CCM modes
Pull in latest BearSSL head (0.6 + minor additions) release and add AES_CCM
modes to the encryption options.
* Enable the aes_ccm initialization in client/server
* Initial attempt
* Working code with second stack thunking
* Remove #ifdefs in .S file, not needed.
* Clean up thunks and remove separate stack flag
* Fix PIO assembler errors
* Remove #ifdef code changes, ensure same code as PC
Remove "#ifdef ESP8266;...;#else;...;#endif" brackets in BearSSL to
ensure the host-tested code is the same as the ESP8266-run code.
* Move to latest BearSSL w/EC progmem savings
* Merge with master
* Add br_thunk_* calls to do ref counting, painting
Add reference counting br_thunk_add/del_ref() to replace stack handling code
in the class.
Add in stack painting and max usage calculation.
* Add in postmortem stack dump hooks
When a crash occurs while in the second stack, dump the BSSL stack and
then also the stack that it was called from (either cont or sys).
* Update stack dump to match decoder expectations
* Move thunk to code core for linkiage
The thunk code needs to be visible to the core routines, so move it to the
cores/esp8266 directory. Probably need to refactor the stack setup and the
bearssl portion to avoid dependency on bearssl libs in cores/esp8266
* Add 2nd stack dump utility routine
* Refactor once more, update stack size, add stress
Make stack_thunks generic, remove bearssl include inside of cores/esp8266.
Allocate the stack on a WiFiServerSecure object creation to avoid
fragmentation since we will need to allocate the stack to do any
connected work, anyway.
A stress test is now included which checks the total BearSSL second
stack usage for a variety of TLS handshake and certificate options
from badssl.org.
* Update to latest to-thunks branch
* Add BearSSL device test using stack stress
Run a series of SSL connection and transmission tests that stress
BearSSL and its stack usage to the device tests.
Modify device tests to include a possible SPIFFS generation and
upload when a make_spiffs.py file is present in a test directory.
* Use bearssl/master branch, not /to-thunks branch
Update to use the merged master branch of bearssl. Should have no code
changes.
Apply patches developed by Sze Yiu Chau <schau@purdue.edu> which
correct a vulnerability in X509 parsing.
See CVE-2018-16150 and CVE-2018-16149 for more info.
CA certification validation was broken by a change put in during warning
cleanup a long time ago. This binary now includes the 1-line correction
and HTTPSRequestCACert now works again (before was failing
because the key usages in certs were not properly read).
