repeating the EEPROM erase (byte write) in case of byte write failure
could lead in an infinite loop.
log the error an return error code instead.
Change-Id: Id6f3654d877ca772ba04237da91a6e86e3f441ec
USB reset can be signaled by pulling low USB D+ for at least 10 ms,
according to the USB specification. This force a re-enumeration.
This time is increased to 20 ms to work with more USB HUBs.
Some SAM3S based board have external D+ pull-up mechanism (such as
SIMtrace) which needs to be used to pull D+ low.
This is a legacy mechanism from SAM7S history.
This mechanism is not required anymore on the SAM3S, and the qmod
does not use it. When the USB HAL is suspended, the transceiver is
disabled, causing D+ and D- to be pulled low. Then the HAL is activated
again. This is particularly required when DFU is started (and
enumerated), and after flashing the SAM3S switched to the main
application (without reset), so it can properly re-enumerate.
This board difference is now defined on the board header.
Change-Id: I9b58d8101c2fcf5595026b675728826af26127a3
moving the define after the header fixes the following warning:
from ./atmel_softpack_libraries/libchip_sam3s/source/exceptions.c:46:
libcommon/include/stdio.h:63:12: warning: redundant redeclaration of 'printf_sync' [-Wredundant-decls]
signed int printf_sync(const char *pFormat, ...);
^~~~~~~~~~~
./atmel_softpack_libraries/libchip_sam3s/source/exceptions.c:45:16: note: previous declaration of 'printf_sync' was here
#define printf printf_sync
^~~~~~~~~~~
libcommon/include/stdio.h:51:12: note: in expansion of macro 'printf'
signed int printf(const char *pFormat, ...);
Change-Id: I21a8de325e8f8b91297dd157f2d6a0f64434bb28
osmo_hexdump is particularly useful.
previously it was only defined, but not implemented.
this cause random behaviour upon call, often resulting in
memory corruption.
Change-Id: Ifd9120fa951f41693903fb657d10826959f1599f
The default ISR (particularly the HardFault handler) print information,
but this information was not displayed on the console because the UART
IRQ is lower than some default blocking IRQ.
Allowing to set synchronous transfer corrects this.
The underlying Atmel exception library had to be modified to use the
synchronous output.
Making UART_PutChar always synchronous when called from an ISR is not
desired because we use TRACE_ macros is some ISR. The synchronous
output must be set explicitly.
Change-Id: I1b4ace5185cf2dc32684934ed12bf6a8682e9bad
this changes how ATR is handled.
the ATR is also printed when set (as important debug information).
the test is also updated to correspond to the new mechanism (
simulating the timeout before sending the ATR)
Change-Id: I69df797e2feadffa9f5f977cb71b69386cee7cd0
a lot of the procedures are done in ISRs, but the watchdog is only
reset in the main loop.
this causes frequent reset, particularly at the beginning were
states have to the initialized.
Change-Id: Iad364444fca9d18f9a8cf47d5e0840ccd7bac2ef
The previous mechanism of retrying a failed write could become a
infinite blocking loop (until watchdog tiemout).
Also the array size is used to know how much data to write and verify
instead of a constant.
Change-Id: I8d2d090c5f4d1195f4c7eb29b3958a7bb05f56ec
The Atmel AT24C02 defines a maximum tWR waiting time after a byte
write of 5 ms before a next write.
Enforcing this wait time also fixed the failed verification in qmod,
where it was reading 0xffff instead of the written value.
Change-Id: I42c90b8d0329e425f275067e87d584212a43a90b
the msg->l2h pointer was not set but used later on, e.g. in
dispatch_usb_command_cardem, case SIMTRACE_MSGT_DT_CEMU_SET_ATR):
> case SIMTRACE_MSGT_DT_CEMU_SET_ATR:
> > atr = (struct cardemu_usb_msg_set_atr *) msg->l2h;
> > card_emu_set_atr(ci->ch, atr->atr, atr->atr_len);
l2h is by default 0, thus not pointing to the actual message l2h.
I wonder how cardem worked worked before with this issue though.
Change-Id: Ifbb53dbf478d8dade82251f769e78e1306e77434
when building the cardem application GCC would output the following warning:
libcommon/source/card_emu.c: In function 'card_emu_process_rx_byte':
libcommon/source/card_emu.c:764:2: warning: enumeration value 'ISO_S_IN_ATR' not handled in switch [-Wswitch]
switch (ch->state) {
^~~~~~
in card emulation the reader should not send data while the card is
sending its ATR.
this is true for other states already handled (RESET, ...). in
these cases an error message is output.
this behaviour is now the default case as data from the reader is
only expected in 3 cases: ISO_S_WAIT_TPDU, ISO_S_IN_TPDU, and
ISO_S_IN_PTS.
Change-Id: Ifbc8dbe1c9f176343304f211c7e6068fb977961e
when building the trace app for the simtrace board gcc was outputing
the following error:
libboard/common/source/boardver_adc.c:20:17: warning: 'adc2uv' defined but not used [-Wunused-function]
static uint32_t adc2uv(uint16_t adc)
adc2uv is used by qmod, and defined in two places:
in boardver_adc.c and mode_cardemu.c.
this change will have adc2uv only defined in boardver_adc.c and make
available in the header to be used by mode_cardemu.c.
Change-Id: I8a772638fa8dd02d8bc8b7631de5af5a22647c55
When the host does not retrieved the USB messages, they keep getting
queue in the firmware, filling the RAM, and preventing further memory
to be allocated.
Change-Id: I0e447acdf757dcb5dc5c4d8b84a4235866914cad
linker warning:
obj/simtrace/dfu_sniffer.o: In function `usb_send_data':
/media/data/work/simtrace2/simtrace2/firmware/libcommon/source/sniffer.c:338: warning: undefined reference to `putchar'
Change-Id: I934f3fcb474d4046e921511a024c3a0b8533c782
The red and green LEDs are now used as follows:
- red on = power (firmware is running)
- red blink = error detected (e.g. during ISO-7816 parsing)
- green on = running (sniffer mode is running)
- green blink = activity (e.g. USB message sent)
Change-Id: Ib1b6ff87fb92d6ed3ecae4bc89386206aaab508e
when the host software does not retrieve the USB messages the memory
is filled and no new USB messages can be allocated, preventing the
following code to print the message
Change-Id: Ie8946894a84cb853b45555f7abb1ca6f32111425
TRACE_INFO will also provide the DFU start reason, but TRACE_INFO
(TRACE_LEVEL >= 4) should only be used for debugging.
WARNING: With TRACE_LEVEL >= 4 the DFU binary is over the maximum of
16 kiB allocated for the DFU bootloader.
Thus make combined will not boot the main application because its
start if after the expecte 16 kiB address; and flashing using DFU
will overwrite the DFU bootloader itself.
Change-Id: I82323e0f76c03f67df7dc8f2b6783166cc25f3aa
The qmod does not have a separate force button as simtrace has.
Instead it check is TX and RX of UART are shorted using PIO.
If the pins are not set back to the UART peripheral, the TRACE/debug
console output will not work anymore.
Change-Id: Id434b49909d6395a2f93a00f39d2d770a5725466
The DFU uses the UART peripheral (with IRQ/ISR) for the debug output
console. Before starting the main application we should make sure
this configuration is reset to avoid interference (particularly the
IRQ/ISR).
This is not too important though since the main application
reconfigures the UART for console output.
Other peripheral could also be disabled (e.g. all other PIO used
by DFU), but most of them also get configured by the main application.
Change-Id: I8234d1b85938ad6393094c08183f613ad09ee01b
The stack size is fixed. The linker script puts the stack section
after the bss section. The initial stack pointer is not at the
end of the RAM (as often seen).
Thus the initial stack pointer address of the main application
is different than the one from DFU. When starting the main
application the stack pointer needs to be set to the new value.
If this is not done the main application stack may overwrite the
data in bss, even without exceeding the fixed stack size.
Change-Id: Ie354d603fe302d3d5bdfa9c31575411de722323b
In the SIMtrace and QMOD schematics the LEDs are connected to +3.3V.
Thus to switch the LED on we need to set the pin low.
Change-Id: Id8cc27e6f0b6556ba5e7ea4d254dd0fe59042a0c
the waiting time (WT) is used to detect timeouts (e.g. for
unresponsive card or just to signal an error/NAK). it is essential
to detect to timeout to end current data transfer (e.g. change state).
by default (after a reset) to timeout is 9600 ETU, but this can change
at two places:
- after the ATR using the value of TC2 (if present)
- after a PPS (only F is used, and not D)
because the timeout value can be larger than the 16-bit of the USART
TO register, an external variable needs to be used for the count down.
Change-Id: I9735660ffce161cec8d4e63fa60a66fc8ef57525
Handling the USB message queue is done in an ISR and take quite some time.
This can cause a USART/SIM sniffing buffer overrun, resulting in data loss.
By setting the USB IRQ lower than the USART IRQ, the USB ISR can be
interrupted (for short) and no data gets lost.
Change-Id: I870a0aa8e251bbb53249c54bfcaa45de5b5a9486