mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-24 03:33:08 +00:00
917410a0a8
* fbt: reworking targets & assets handling WIP * fbt: dist fixes * fbt: moved SD card resources to owning apps * unit_tests: moved resources to app folder * github: updated unit_tests paths * github: packaging fixes * unit_tests: fixes * fbt: assets: internal cleanup * fbt: reworked assets handling * github: unit_tests: reintroducing fixes * minor cleanup * fbt: naming changes to reflect private nature of scons tools * fbt: resources: fixed dist archive paths * docs: updated paths * docs: updated more paths * docs: included "resources" parameter in app manifest docs; updated assets readme * updated gitignore for assets * github: updated action versions * unit_tests: restored timeout; scripts: assets: logging changes * gh: don't upload desktop animations for unit test run Co-authored-by: あく <alleteam@gmail.com>
164 lines
5.3 KiB
C
164 lines
5.3 KiB
C
#include "app_common.h"
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#include <interface/patterns/ble_thread/tl/mbox_def.h>
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#include <interface/patterns/ble_thread/hw.h>
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#include <furi_hal.h>
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#include <stm32wbxx_ll_ipcc.h>
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#include <stm32wbxx_ll_pwr.h>
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#include <hsem_map.h>
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#define HW_IPCC_TX_PENDING(channel) \
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((!(LL_C1_IPCC_IsActiveFlag_CHx(IPCC, channel))) && \
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LL_C1_IPCC_IsEnabledTransmitChannel(IPCC, channel))
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#define HW_IPCC_RX_PENDING(channel) \
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(LL_C2_IPCC_IsActiveFlag_CHx(IPCC, channel) && \
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LL_C1_IPCC_IsEnabledReceiveChannel(IPCC, channel))
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static void (*FreeBufCb)();
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static void HW_IPCC_BLE_EvtHandler();
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static void HW_IPCC_BLE_AclDataEvtHandler();
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static void HW_IPCC_MM_FreeBufHandler();
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static void HW_IPCC_SYS_CmdEvtHandler();
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static void HW_IPCC_SYS_EvtHandler();
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static void HW_IPCC_TRACES_EvtHandler();
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void HW_IPCC_Rx_Handler() {
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if(HW_IPCC_RX_PENDING(HW_IPCC_SYSTEM_EVENT_CHANNEL)) {
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HW_IPCC_SYS_EvtHandler();
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} else if(HW_IPCC_RX_PENDING(HW_IPCC_BLE_EVENT_CHANNEL)) {
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HW_IPCC_BLE_EvtHandler();
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} else if(HW_IPCC_RX_PENDING(HW_IPCC_TRACES_CHANNEL)) {
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HW_IPCC_TRACES_EvtHandler();
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}
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}
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void HW_IPCC_Tx_Handler() {
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if(HW_IPCC_TX_PENDING(HW_IPCC_SYSTEM_CMD_RSP_CHANNEL)) {
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HW_IPCC_SYS_CmdEvtHandler();
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} else if(HW_IPCC_TX_PENDING(HW_IPCC_SYSTEM_CMD_RSP_CHANNEL)) {
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HW_IPCC_SYS_CmdEvtHandler();
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} else if(HW_IPCC_TX_PENDING(HW_IPCC_MM_RELEASE_BUFFER_CHANNEL)) {
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HW_IPCC_MM_FreeBufHandler();
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} else if(HW_IPCC_TX_PENDING(HW_IPCC_HCI_ACL_DATA_CHANNEL)) {
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HW_IPCC_BLE_AclDataEvtHandler();
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}
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}
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void HW_IPCC_Enable() {
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/**
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* Such as IPCC IP available to the CPU2, it is required to keep the IPCC clock running
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when FUS is running on CPU2 and CPU1 enters deep sleep mode
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*/
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/**
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* When the device is out of standby, it is required to use the EXTI mechanism to wakeup CPU2
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*/
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LL_C2_EXTI_EnableEvent_32_63(LL_EXTI_LINE_41);
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LL_EXTI_EnableRisingTrig_32_63(LL_EXTI_LINE_41);
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/**
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* In case the SBSFU is implemented, it may have already set the C2BOOT bit to startup the CPU2.
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* In that case, to keep the mechanism transparent to the user application, it shall call the system command
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* SHCI_C2_Reinit( ) before jumping to the application.
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* When the CPU2 receives that command, it waits for its event input to be set to restart the CPU2 firmware.
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* This is required because once C2BOOT has been set once, a clear/set on C2BOOT has no effect.
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* When SHCI_C2_Reinit( ) is not called, generating an event to the CPU2 does not have any effect
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* So, by default, the application shall both set the event flag and set the C2BOOT bit.
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*/
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__SEV(); /* Set the internal event flag and send an event to the CPU2 */
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__WFE(); /* Clear the internal event flag */
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LL_PWR_EnableBootC2();
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}
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void HW_IPCC_Init() {
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LL_C1_IPCC_EnableIT_RXO(IPCC);
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LL_C1_IPCC_EnableIT_TXF(IPCC);
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NVIC_SetPriority(IPCC_C1_RX_IRQn, NVIC_EncodePriority(NVIC_GetPriorityGrouping(), 6, 0));
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NVIC_EnableIRQ(IPCC_C1_RX_IRQn);
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NVIC_SetPriority(IPCC_C1_TX_IRQn, NVIC_EncodePriority(NVIC_GetPriorityGrouping(), 6, 0));
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NVIC_EnableIRQ(IPCC_C1_TX_IRQn);
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}
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void HW_IPCC_BLE_Init() {
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LL_C1_IPCC_EnableReceiveChannel(IPCC, HW_IPCC_BLE_EVENT_CHANNEL);
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}
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void HW_IPCC_BLE_SendCmd() {
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LL_C1_IPCC_SetFlag_CHx(IPCC, HW_IPCC_BLE_CMD_CHANNEL);
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}
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static void HW_IPCC_BLE_EvtHandler() {
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HW_IPCC_BLE_RxEvtNot();
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LL_C1_IPCC_ClearFlag_CHx(IPCC, HW_IPCC_BLE_EVENT_CHANNEL);
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}
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void HW_IPCC_BLE_SendAclData() {
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LL_C1_IPCC_SetFlag_CHx(IPCC, HW_IPCC_HCI_ACL_DATA_CHANNEL);
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LL_C1_IPCC_EnableTransmitChannel(IPCC, HW_IPCC_HCI_ACL_DATA_CHANNEL);
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}
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static void HW_IPCC_BLE_AclDataEvtHandler() {
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LL_C1_IPCC_DisableTransmitChannel(IPCC, HW_IPCC_HCI_ACL_DATA_CHANNEL);
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HW_IPCC_BLE_AclDataAckNot();
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}
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void HW_IPCC_SYS_Init() {
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LL_C1_IPCC_EnableReceiveChannel(IPCC, HW_IPCC_SYSTEM_EVENT_CHANNEL);
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}
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void HW_IPCC_SYS_SendCmd() {
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LL_C1_IPCC_SetFlag_CHx(IPCC, HW_IPCC_SYSTEM_CMD_RSP_CHANNEL);
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FuriHalCortexTimer timer = furi_hal_cortex_timer_get(33000000);
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while(LL_C1_IPCC_IsActiveFlag_CHx(IPCC, HW_IPCC_SYSTEM_CMD_RSP_CHANNEL)) {
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furi_check(!furi_hal_cortex_timer_is_expired(timer), "HW_IPCC_SYS_SendCmd timeout");
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}
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HW_IPCC_SYS_CmdEvtHandler();
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}
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static void HW_IPCC_SYS_CmdEvtHandler() {
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LL_C1_IPCC_DisableTransmitChannel(IPCC, HW_IPCC_SYSTEM_CMD_RSP_CHANNEL);
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HW_IPCC_SYS_CmdEvtNot();
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}
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static void HW_IPCC_SYS_EvtHandler() {
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HW_IPCC_SYS_EvtNot();
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LL_C1_IPCC_ClearFlag_CHx(IPCC, HW_IPCC_SYSTEM_EVENT_CHANNEL);
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}
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void HW_IPCC_MM_SendFreeBuf(void (*cb)()) {
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if(LL_C1_IPCC_IsActiveFlag_CHx(IPCC, HW_IPCC_MM_RELEASE_BUFFER_CHANNEL)) {
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FreeBufCb = cb;
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LL_C1_IPCC_EnableTransmitChannel(IPCC, HW_IPCC_MM_RELEASE_BUFFER_CHANNEL);
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} else {
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cb();
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LL_C1_IPCC_SetFlag_CHx(IPCC, HW_IPCC_MM_RELEASE_BUFFER_CHANNEL);
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}
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}
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static void HW_IPCC_MM_FreeBufHandler() {
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LL_C1_IPCC_DisableTransmitChannel(IPCC, HW_IPCC_MM_RELEASE_BUFFER_CHANNEL);
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FreeBufCb();
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LL_C1_IPCC_SetFlag_CHx(IPCC, HW_IPCC_MM_RELEASE_BUFFER_CHANNEL);
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}
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void HW_IPCC_TRACES_Init() {
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LL_C1_IPCC_EnableReceiveChannel(IPCC, HW_IPCC_TRACES_CHANNEL);
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}
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static void HW_IPCC_TRACES_EvtHandler() {
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HW_IPCC_TRACES_EvtNot();
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LL_C1_IPCC_ClearFlag_CHx(IPCC, HW_IPCC_TRACES_CHANNEL);
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}
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