esp_intr_dump function can be used to print the list of allocated and
free interrupts. It can be used as a debugging aid when interrupt
allocation fails.
There's two GDMA groups on ESP32P4, one is connected to AHB bus,
and another one is connected AXI bus.
We now have two seperate APIs for allocating DMA channels,
depends on the bus type.
The changes only related to C6 and H2 chips where CONFIG_SOC_IEEE802154_SUPPORTED=y.
For this case these APIs return 8 bytes
esp_efuse_mac_get_default() -> 8 bytes
esp_efuse_mac_get_custom() -> 8 bytes
esp_read_mac(..., ESP_MAC_IEEE802154) -> 8 bytes
The rest cases len is 6 bytes
- Technical details covered in section "15.3.2 Anti-DPA Attack Security
Control" chapter of the ESP32-C6 TRM
- Default configuration sets the security level low for the DPA
protection
- This change applies to all the crypto peripherals where the clock
frequency is dynamically adjusted to create randomness in the power
consumption trajectory
- This configuration helps to make the SCA attacks difficult on the
crypto peripherals
Changed rv_utils_intr_edge_ack and esp_cpu_intr_edge_ack to
take uint32_t instead of int to avoid build errors.
The test is to test in particular that __builtin_ffsll, used in
xt_utils.h, which is included via esp_cpu.h, compiles fine
in C++20 with -Wsign-conversion enabled.
Closes https://github.com/espressif/esp-idf/pull/10895
- to acknowledge the unused DCACHE added to DRAM for ESP32-S3
- For ESP32-S3, when the DCACHE size is set to 16 kB, the unused 48 kB is added to
the heap in 2 blocks of 32 kB (from 0x3FCF0000) and 16 kB (from 0x3C000000).
- But, if we try allocating memory from the 16 kB block and run an `esp_ptr_internal`
check on that memory pointer, it fails as the address block from 0x3C000000
corresponds to the external memory symbols SOC_DROM_LOW and SOC_EXTRAM_DATA_LOW.
(E.g. freertos - If the IDLE task stack buffer gets allocated from this region,
the firmware will abort due to this failure).
- Thus, the checks `esp_ptr_internal`, `esp_ptr_in_drom` and `esp_ptr_byte_accessible`
have been updated to acknowledge this memory as a part of the DRAM.
Co-authored-by: Mahavir Jain <mahavir@espressif.com>
bugfix: esp32c6 deep sleep minor fixes
Closes WIFI-5559, WIFI-5425, WIFI-3494, WIFI-3495, WIFI-4163, and WIFI-4164
See merge request espressif/esp-idf!22697
Memprot functions are no longer placed by default in IRAM,
selecting ESP_PANIC_HANDLER_IRAM will still force panic related memprot
functions to be placed in IRAM.
Update wifi lib with below -
1. Create NAN Discovery SM for beaconing & cluster formation
2. Create NAN interface for Tx/Rx of beacons & action frames
3. Add commands & events for NAN Services Publish/Subscribe/Followup
4. Add NAN Datapath definitions, Events, Peer structures
5. Support for forming and parsing of Datapath related attributes
6. Modules for NDP Req, Resp, Confirm, Term, Peer management
7. NAN Interface related additions in Datapath, Data Tx Q's
In addition include below changes -
1. Add netif and driver support for NAN Interface
2. Add simple examples for Publisher-Subscriber usecases
3. Add an advanced console example that supports commands
for NAN Discovery, Services & Datapath
4. Add wifi_apps for providing better NAN API's and Peer management
Co-authored-by: Shyamal Khachane <shyamal.khachane@espressif.com>
modem retention: Support esp32c6 wifi MAC and baseband sleep retention
sleep_modem: wifi MAC modem wakeup protect in modem state before PMU trigger sleep enable request
sleep modem: provide a interface to get whether the Modem power domain is allowed to power off during sleep
add i2c_ana master header file to project
auto beacon: release PMU's lock on root clock source (it is locked in the PLL)
wifi receiving beacon frame in PMU modem state strongly depends on the BBPLL
clock, PMU will forcibly lock the root clock source as PLL, when the root
clock source of the software system is selected as PLL, we need to release
the root clock source locking.
When it is judged that the PLL is locked by PMU after wakeing up from the PMU
modem state, switch the root clock source to the PLL in the sleep process (a
critical section).
auto beacon: fix the failure to receive broadcast/multicast frames in modem state
When the multicast field in the beacon frame received in the PMU modem state is
True, the PMU switches to the PMU active state (the PMU waits for the HP LDO to
stabilize and then restores the MAC context) and starts to receive
broadcast/multicast frames (Broadcast/Multicast frames will be sent after a
minimum delay of 48 us after the beacon frame), because the PMU waits for the HP
LDO to stabilize too long (~154 us), which will cause broadcast/multicast frame
reception to be missed.
auto beacon: select the PLL clock source as the REGDMA backup clock source when the PMU switches to ACTIVE from MODEM state
update Digital Peripheral (M2A switch) REGDMA restore time parameter
auto beacon: fix the issue that only channel 1 can connect to AP in modem state
1. Remove RTC_CLOCK_BBPLL_POWER_ON_WITH_USB Kconfig option
During sleep, BBPLL clock always gets disabled
esp_restart does not disable BBPLL clock, so that first stage bootloader log can be printed
2. Add a new Kconfig option PM_NO_AUTO_LS_ON_USJ_CONNECTED
When this option is selected, IDF will constantly monitor USB CDC port connection status.
As long as it gets connected to a HOST, automatic light-sleep will not happen.
Closes https://github.com/espressif/esp-idf/issues/8507
