Considering kernel code, it's reasonable to use `PANIC()` instead
of `assert(0)` to handle with situations that require abort. Unlike
`assert`, `PANIC()` doesn't dependent on `NDEBUG`.
ESP32-S3 has only one 2.4 GHz ISM band RF module, which is shared
by Bluetooth and Wi-Fi, so Bluetooth can’t receive or transmit data
while Wi-Fi is receiving or transmitting data and vice versa.
Under such circumstances, ESP32-S3 uses the time-division
multiplexing method to receive and transmit packets.
The low-level Wi-Fi driver registers two peripheral interrupts to
the same CPU interrupt. Although the registered ISR is the same for
both peripherals interrupt, it's needed to call `up_enable_irq` to
ensure that the interrupt matrix is being set accordingly.
Please note that the current implementation of the ESP32-S3's IRQ
driver - although allow us to set a callback for each IRQ, which
represents the peripherals interrupt - doesn't allow us to call
both callbacks when these IRQs refers to a same CPU interrupt.
`g_cpu0_intmap` (or `g_cpu1_intmap`) associates each CPU interrupt
to a single IRQ/peripheral and, then, when a CPU interrupt is
triggered, only the last registered IRQ's callback will be called.
This isn't a problem here because 1) the registered callback is the
same for both IRQ's (in fact, it considers the CPU interrupt) and
2) we know in advance which peripheral interrupts will be attached
to which CPU interrupt and, then, we can set them directly.
This prevents us from getting stuck while polling the different
network structures in `devif_poll_connections`. This is useful for
Wi-Fi/Bluetooth coexistence, specifically.
- Fix macro values from `arch/xtensa/include/esp32s3/irq.h`
- Remove references to unexisting edge-triggered CPU interrupts
- Add `esp32s3_getirq` to get IRQ based on core and the `cpuint`
RTC subsystem controls not only the RTC itself but functions that
use RTC-enabled features like Bluetooth and Wi-Fi. Initialization
must be performed during the system start-up.
Verification:
Write a packet, the length is bigger than CONFIG_DEV_FIFO_SIZE.
The return value should be -1, and the errno is EMSGSIZE.
Signed-off-by: liqinhui <liqinhui@xiaomi.com>
Verifiction:
Write a bigger packet and read the packet using a smaller buffer.
The return length of reading should be the length of smaller buffer.
Signed-off-by: liqinhui <liqinhui@xiaomi.com>
The error log is as follows:
tcp/tcp_send_buffered.c:376:57: runtime error: member access within misaligned
address 0x10075942 for type 'struct tcp_sack_s', which requires 4 byte alignment
Signed-off-by: liqinhui <liqinhui@xiaomi.com>
Implement I_SUID/I_SGID feature for binfs in the POSIX compliant way.
If set-user-ID bit is set in the file permissions, then the effective
user ID of process shall be set to UID of the new process image file.
test case:
hello example emulates to set uid and file set-user-ID bit, and call
geteuid and getegid API.
UID = 2000
GID = 3000
MODE = 06555
nsh> ls -l /bin/hello
-r-sr-sr-x 2000 3000 0 hello
nsh> hello
geteuid:2000
getegid:3000
Signed-off-by: fangxinyong <fangxinyong@xiaomi.com>
We use enter_critical_section to protect the read and write of priv structures,
sched_lock is mainly used to prevent active context switching caused by nxsem_post.
We do not actively switch contexts when reading and writing priv structures,
so sched_lock can be removed.
Signed-off-by: hujun5 <hujun5@xiaomi.com>