mirror of
https://github.com/DarkFlippers/unleashed-firmware.git
synced 2024-12-26 23:05:05 +03:00
8582670a34
Co-authored-by: あく <alleteam@gmail.com> Co-authored-by: gornekich <n.gorbadey@gmail.com>
471 lines
15 KiB
C
471 lines
15 KiB
C
#include "ble_glue.h"
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#include "app_common.h"
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#include "ble_app.h"
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#include <ble/ble.h>
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#include <interface/patterns/ble_thread/tl/tl.h>
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#include <interface/patterns/ble_thread/shci/shci.h>
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#include <interface/patterns/ble_thread/tl/shci_tl.h>
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#include "app_debug.h"
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#include <furi_hal.h>
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#define TAG "Core2"
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#define BLE_GLUE_FLAG_SHCI_EVENT (1UL << 0)
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#define BLE_GLUE_FLAG_KILL_THREAD (1UL << 1)
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#define BLE_GLUE_FLAG_ALL (BLE_GLUE_FLAG_SHCI_EVENT | BLE_GLUE_FLAG_KILL_THREAD)
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#define POOL_SIZE \
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(CFG_TLBLE_EVT_QUEUE_LENGTH * 4U * \
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DIVC((sizeof(TL_PacketHeader_t) + TL_BLE_EVENT_FRAME_SIZE), 4U))
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PLACE_IN_SECTION("MB_MEM2") ALIGN(4) static uint8_t ble_glue_event_pool[POOL_SIZE];
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PLACE_IN_SECTION("MB_MEM2") ALIGN(4) static TL_CmdPacket_t ble_glue_system_cmd_buff;
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PLACE_IN_SECTION("MB_MEM2")
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ALIGN(4)
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static uint8_t ble_glue_system_spare_event_buff[sizeof(TL_PacketHeader_t) + TL_EVT_HDR_SIZE + 255U];
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PLACE_IN_SECTION("MB_MEM2")
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ALIGN(4)
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static uint8_t ble_glue_ble_spare_event_buff[sizeof(TL_PacketHeader_t) + TL_EVT_HDR_SIZE + 255];
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typedef struct {
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FuriMutex* shci_mtx;
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FuriSemaphore* shci_sem;
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FuriThread* thread;
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BleGlueStatus status;
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BleGlueKeyStorageChangedCallback callback;
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BleGlueC2Info c2_info;
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void* context;
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} BleGlue;
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static BleGlue* ble_glue = NULL;
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static int32_t ble_glue_shci_thread(void* argument);
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static void ble_glue_sys_status_not_callback(SHCI_TL_CmdStatus_t status);
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static void ble_glue_sys_user_event_callback(void* pPayload);
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void ble_glue_set_key_storage_changed_callback(
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BleGlueKeyStorageChangedCallback callback,
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void* context) {
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furi_assert(ble_glue);
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furi_assert(callback);
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ble_glue->callback = callback;
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ble_glue->context = context;
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}
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void ble_glue_init() {
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ble_glue = malloc(sizeof(BleGlue));
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ble_glue->status = BleGlueStatusStartup;
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// Configure the system Power Mode
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// Select HSI as system clock source after Wake Up from Stop mode
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LL_RCC_SetClkAfterWakeFromStop(LL_RCC_STOP_WAKEUPCLOCK_HSI);
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/* Initialize the CPU2 reset value before starting CPU2 with C2BOOT */
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LL_C2_PWR_SetPowerMode(LL_PWR_MODE_SHUTDOWN);
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#ifdef BLE_GLUE_DEBUG
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APPD_Init();
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#endif
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// Initialize all transport layers
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TL_MM_Config_t tl_mm_config;
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SHCI_TL_HciInitConf_t SHci_Tl_Init_Conf;
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// Reference table initialization
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TL_Init();
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ble_glue->shci_mtx = furi_mutex_alloc(FuriMutexTypeNormal);
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ble_glue->shci_sem = furi_semaphore_alloc(1, 0);
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// FreeRTOS system task creation
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ble_glue->thread = furi_thread_alloc_ex("BleShciDriver", 1024, ble_glue_shci_thread, ble_glue);
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furi_thread_start(ble_glue->thread);
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// System channel initialization
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SHci_Tl_Init_Conf.p_cmdbuffer = (uint8_t*)&ble_glue_system_cmd_buff;
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SHci_Tl_Init_Conf.StatusNotCallBack = ble_glue_sys_status_not_callback;
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shci_init(ble_glue_sys_user_event_callback, (void*)&SHci_Tl_Init_Conf);
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/**< Memory Manager channel initialization */
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tl_mm_config.p_BleSpareEvtBuffer = ble_glue_ble_spare_event_buff;
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tl_mm_config.p_SystemSpareEvtBuffer = ble_glue_system_spare_event_buff;
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tl_mm_config.p_AsynchEvtPool = ble_glue_event_pool;
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tl_mm_config.AsynchEvtPoolSize = POOL_SIZE;
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TL_MM_Init(&tl_mm_config);
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TL_Enable();
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/*
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* From now, the application is waiting for the ready event ( VS_HCI_C2_Ready )
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* received on the system channel before starting the Stack
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* This system event is received with ble_glue_sys_user_event_callback()
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*/
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}
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const BleGlueC2Info* ble_glue_get_c2_info() {
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return &ble_glue->c2_info;
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}
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BleGlueStatus ble_glue_get_c2_status() {
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return ble_glue->status;
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}
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static const char* ble_glue_get_reltype_str(const uint8_t reltype) {
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static char relcode[3] = {0};
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switch(reltype) {
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case INFO_STACK_TYPE_BLE_FULL:
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return "F";
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case INFO_STACK_TYPE_BLE_HCI:
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return "H";
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case INFO_STACK_TYPE_BLE_LIGHT:
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return "L";
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case INFO_STACK_TYPE_BLE_BEACON:
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return "Be";
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case INFO_STACK_TYPE_BLE_BASIC:
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return "Ba";
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case INFO_STACK_TYPE_BLE_FULL_EXT_ADV:
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return "F+";
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case INFO_STACK_TYPE_BLE_HCI_EXT_ADV:
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return "H+";
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default:
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snprintf(relcode, sizeof(relcode), "%X", reltype);
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return relcode;
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}
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}
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static void ble_glue_update_c2_fw_info() {
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WirelessFwInfo_t wireless_info;
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SHCI_GetWirelessFwInfo(&wireless_info);
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BleGlueC2Info* local_info = &ble_glue->c2_info;
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local_info->VersionMajor = wireless_info.VersionMajor;
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local_info->VersionMinor = wireless_info.VersionMinor;
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local_info->VersionSub = wireless_info.VersionSub;
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local_info->VersionBranch = wireless_info.VersionBranch;
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local_info->VersionReleaseType = wireless_info.VersionReleaseType;
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local_info->MemorySizeSram2B = wireless_info.MemorySizeSram2B;
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local_info->MemorySizeSram2A = wireless_info.MemorySizeSram2A;
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local_info->MemorySizeSram1 = wireless_info.MemorySizeSram1;
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local_info->MemorySizeFlash = wireless_info.MemorySizeFlash;
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local_info->StackType = wireless_info.StackType;
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snprintf(
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local_info->StackTypeString,
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BLE_GLUE_MAX_VERSION_STRING_LEN,
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"%d.%d.%d:%s",
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local_info->VersionMajor,
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local_info->VersionMinor,
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local_info->VersionSub,
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ble_glue_get_reltype_str(local_info->StackType));
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local_info->FusVersionMajor = wireless_info.FusVersionMajor;
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local_info->FusVersionMinor = wireless_info.FusVersionMinor;
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local_info->FusVersionSub = wireless_info.FusVersionSub;
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local_info->FusMemorySizeSram2B = wireless_info.FusMemorySizeSram2B;
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local_info->FusMemorySizeSram2A = wireless_info.FusMemorySizeSram2A;
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local_info->FusMemorySizeFlash = wireless_info.FusMemorySizeFlash;
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}
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static void ble_glue_dump_stack_info() {
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const BleGlueC2Info* c2_info = &ble_glue->c2_info;
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FURI_LOG_I(
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TAG,
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"Core2: FUS: %d.%d.%d, mem %d/%d, flash %d pages",
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c2_info->FusVersionMajor,
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c2_info->FusVersionMinor,
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c2_info->FusVersionSub,
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c2_info->FusMemorySizeSram2B,
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c2_info->FusMemorySizeSram2A,
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c2_info->FusMemorySizeFlash);
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FURI_LOG_I(
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TAG,
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"Core2: Stack: %d.%d.%d, branch %d, reltype %d, stacktype %d, flash %d pages",
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c2_info->VersionMajor,
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c2_info->VersionMinor,
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c2_info->VersionSub,
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c2_info->VersionBranch,
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c2_info->VersionReleaseType,
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c2_info->StackType,
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c2_info->MemorySizeFlash);
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}
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bool ble_glue_wait_for_c2_start(int32_t timeout) {
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bool started = false;
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do {
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// TODO: use mutex?
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started = ble_glue->status == BleGlueStatusC2Started;
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if(!started) {
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timeout--;
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furi_delay_tick(1);
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}
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} while(!started && (timeout > 0));
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if(started) {
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FURI_LOG_I(
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TAG,
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"C2 boot completed, mode: %s",
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ble_glue->c2_info.mode == BleGlueC2ModeFUS ? "FUS" : "Stack");
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ble_glue_update_c2_fw_info();
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ble_glue_dump_stack_info();
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} else {
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FURI_LOG_E(TAG, "C2 startup failed");
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ble_glue->status = BleGlueStatusBroken;
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}
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return started;
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}
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bool ble_glue_start() {
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furi_assert(ble_glue);
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if(ble_glue->status != BleGlueStatusC2Started) {
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return false;
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}
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bool ret = false;
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if(ble_app_init()) {
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FURI_LOG_I(TAG, "Radio stack started");
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ble_glue->status = BleGlueStatusRadioStackRunning;
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ret = true;
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if(SHCI_C2_SetFlashActivityControl(FLASH_ACTIVITY_CONTROL_SEM7) == SHCI_Success) {
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FURI_LOG_I(TAG, "Flash activity control switched to SEM7");
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} else {
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FURI_LOG_E(TAG, "Failed to switch flash activity control to SEM7");
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}
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} else {
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FURI_LOG_E(TAG, "Radio stack startup failed");
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ble_glue->status = BleGlueStatusRadioStackMissing;
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ble_app_thread_stop();
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}
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return ret;
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}
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bool ble_glue_is_alive() {
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if(!ble_glue) {
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return false;
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}
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return ble_glue->status >= BleGlueStatusC2Started;
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}
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bool ble_glue_is_radio_stack_ready() {
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if(!ble_glue) {
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return false;
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}
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return ble_glue->status == BleGlueStatusRadioStackRunning;
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}
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BleGlueCommandResult ble_glue_force_c2_mode(BleGlueC2Mode desired_mode) {
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furi_check(desired_mode > BleGlueC2ModeUnknown);
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if(desired_mode == ble_glue->c2_info.mode) {
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return BleGlueCommandResultOK;
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}
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if((ble_glue->c2_info.mode == BleGlueC2ModeFUS) && (desired_mode == BleGlueC2ModeStack)) {
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if((ble_glue->c2_info.VersionMajor == 0) && (ble_glue->c2_info.VersionMinor == 0)) {
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FURI_LOG_W(TAG, "Stack isn't installed!");
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return BleGlueCommandResultError;
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}
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SHCI_CmdStatus_t status = SHCI_C2_FUS_StartWs();
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if(status) {
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FURI_LOG_E(TAG, "Failed to start Radio Stack with status: %02X", status);
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return BleGlueCommandResultError;
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}
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return BleGlueCommandResultRestartPending;
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}
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if((ble_glue->c2_info.mode == BleGlueC2ModeStack) && (desired_mode == BleGlueC2ModeFUS)) {
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SHCI_FUS_GetState_ErrorCode_t error_code = 0;
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uint8_t fus_state = SHCI_C2_FUS_GetState(&error_code);
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FURI_LOG_D(TAG, "FUS state: %X, error = %x", fus_state, error_code);
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if(fus_state == SHCI_FUS_CMD_NOT_SUPPORTED) {
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// Second call to SHCI_C2_FUS_GetState() restarts whole MCU & boots FUS
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fus_state = SHCI_C2_FUS_GetState(&error_code);
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FURI_LOG_D(TAG, "FUS state#2: %X, error = %x", fus_state, error_code);
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return BleGlueCommandResultRestartPending;
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}
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return BleGlueCommandResultOK;
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}
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return BleGlueCommandResultError;
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}
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static void ble_glue_sys_status_not_callback(SHCI_TL_CmdStatus_t status) {
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switch(status) {
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case SHCI_TL_CmdBusy:
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furi_mutex_acquire(ble_glue->shci_mtx, FuriWaitForever);
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break;
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case SHCI_TL_CmdAvailable:
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furi_mutex_release(ble_glue->shci_mtx);
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break;
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default:
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break;
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}
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}
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/*
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* The type of the payload for a system user event is tSHCI_UserEvtRxParam
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* When the system event is both :
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* - a ready event (subevtcode = SHCI_SUB_EVT_CODE_READY)
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* - reported by the FUS (sysevt_ready_rsp == FUS_FW_RUNNING)
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* The buffer shall not be released
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* ( eg ((tSHCI_UserEvtRxParam*)pPayload)->status shall be set to SHCI_TL_UserEventFlow_Disable )
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* When the status is not filled, the buffer is released by default
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*/
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static void ble_glue_sys_user_event_callback(void* pPayload) {
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UNUSED(pPayload);
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#ifdef BLE_GLUE_DEBUG
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APPD_EnableCPU2();
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#endif
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TL_AsynchEvt_t* p_sys_event =
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(TL_AsynchEvt_t*)(((tSHCI_UserEvtRxParam*)pPayload)->pckt->evtserial.evt.payload);
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if(p_sys_event->subevtcode == SHCI_SUB_EVT_CODE_READY) {
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FURI_LOG_I(TAG, "Core2 started");
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SHCI_C2_Ready_Evt_t* p_c2_ready_evt = (SHCI_C2_Ready_Evt_t*)p_sys_event->payload;
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if(p_c2_ready_evt->sysevt_ready_rsp == WIRELESS_FW_RUNNING) {
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ble_glue->c2_info.mode = BleGlueC2ModeStack;
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} else if(p_c2_ready_evt->sysevt_ready_rsp == FUS_FW_RUNNING) {
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ble_glue->c2_info.mode = BleGlueC2ModeFUS;
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}
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ble_glue->status = BleGlueStatusC2Started;
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} else if(p_sys_event->subevtcode == SHCI_SUB_EVT_ERROR_NOTIF) {
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FURI_LOG_E(TAG, "Error during initialization");
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} else if(p_sys_event->subevtcode == SHCI_SUB_EVT_BLE_NVM_RAM_UPDATE) {
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SHCI_C2_BleNvmRamUpdate_Evt_t* p_sys_ble_nvm_ram_update_event =
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(SHCI_C2_BleNvmRamUpdate_Evt_t*)p_sys_event->payload;
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if(ble_glue->callback) {
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ble_glue->callback(
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(uint8_t*)p_sys_ble_nvm_ram_update_event->StartAddress,
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p_sys_ble_nvm_ram_update_event->Size,
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ble_glue->context);
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}
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}
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}
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static void ble_glue_clear_shared_memory() {
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memset(ble_glue_event_pool, 0, sizeof(ble_glue_event_pool));
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memset(&ble_glue_system_cmd_buff, 0, sizeof(ble_glue_system_cmd_buff));
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memset(ble_glue_system_spare_event_buff, 0, sizeof(ble_glue_system_spare_event_buff));
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memset(ble_glue_ble_spare_event_buff, 0, sizeof(ble_glue_ble_spare_event_buff));
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}
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void ble_glue_thread_stop() {
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if(ble_glue) {
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FuriThreadId thread_id = furi_thread_get_id(ble_glue->thread);
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furi_assert(thread_id);
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furi_thread_flags_set(thread_id, BLE_GLUE_FLAG_KILL_THREAD);
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furi_thread_join(ble_glue->thread);
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furi_thread_free(ble_glue->thread);
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// Free resources
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furi_mutex_free(ble_glue->shci_mtx);
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furi_semaphore_free(ble_glue->shci_sem);
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ble_glue_clear_shared_memory();
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free(ble_glue);
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ble_glue = NULL;
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}
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}
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// Wrap functions
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static int32_t ble_glue_shci_thread(void* context) {
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UNUSED(context);
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uint32_t flags = 0;
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while(true) {
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flags = furi_thread_flags_wait(BLE_GLUE_FLAG_ALL, FuriFlagWaitAny, FuriWaitForever);
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if(flags & BLE_GLUE_FLAG_SHCI_EVENT) {
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shci_user_evt_proc();
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}
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if(flags & BLE_GLUE_FLAG_KILL_THREAD) {
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break;
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}
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}
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return 0;
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}
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void shci_notify_asynch_evt(void* pdata) {
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UNUSED(pdata);
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if(ble_glue) {
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FuriThreadId thread_id = furi_thread_get_id(ble_glue->thread);
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furi_assert(thread_id);
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furi_thread_flags_set(thread_id, BLE_GLUE_FLAG_SHCI_EVENT);
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}
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}
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void shci_cmd_resp_release(uint32_t flag) {
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UNUSED(flag);
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if(ble_glue) {
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furi_semaphore_release(ble_glue->shci_sem);
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}
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}
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void shci_cmd_resp_wait(uint32_t timeout) {
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UNUSED(timeout);
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if(ble_glue) {
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furi_semaphore_acquire(ble_glue->shci_sem, FuriWaitForever);
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}
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}
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bool ble_glue_reinit_c2() {
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return SHCI_C2_Reinit() == SHCI_Success;
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}
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BleGlueCommandResult ble_glue_fus_stack_delete() {
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FURI_LOG_I(TAG, "Erasing stack");
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SHCI_CmdStatus_t erase_stat = SHCI_C2_FUS_FwDelete();
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FURI_LOG_I(TAG, "Cmd res = %x", erase_stat);
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if(erase_stat == SHCI_Success) {
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return BleGlueCommandResultOperationOngoing;
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}
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ble_glue_fus_get_status();
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return BleGlueCommandResultError;
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}
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BleGlueCommandResult ble_glue_fus_stack_install(uint32_t src_addr, uint32_t dst_addr) {
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FURI_LOG_I(TAG, "Installing stack");
|
|
SHCI_CmdStatus_t write_stat = SHCI_C2_FUS_FwUpgrade(src_addr, dst_addr);
|
|
FURI_LOG_I(TAG, "Cmd res = %x", write_stat);
|
|
if(write_stat == SHCI_Success) {
|
|
return BleGlueCommandResultOperationOngoing;
|
|
}
|
|
ble_glue_fus_get_status();
|
|
return BleGlueCommandResultError;
|
|
}
|
|
|
|
BleGlueCommandResult ble_glue_fus_get_status() {
|
|
furi_check(ble_glue->c2_info.mode == BleGlueC2ModeFUS);
|
|
SHCI_FUS_GetState_ErrorCode_t error_code = 0;
|
|
uint8_t fus_state = SHCI_C2_FUS_GetState(&error_code);
|
|
FURI_LOG_I(TAG, "FUS state: %x, error: %x", fus_state, error_code);
|
|
if((error_code != 0) || (fus_state == FUS_STATE_VALUE_ERROR)) {
|
|
return BleGlueCommandResultError;
|
|
} else if(
|
|
(fus_state >= FUS_STATE_VALUE_FW_UPGRD_ONGOING) &&
|
|
(fus_state <= FUS_STATE_VALUE_SERVICE_ONGOING_END)) {
|
|
return BleGlueCommandResultOperationOngoing;
|
|
}
|
|
return BleGlueCommandResultOK;
|
|
}
|
|
|
|
BleGlueCommandResult ble_glue_fus_wait_operation() {
|
|
furi_check(ble_glue->c2_info.mode == BleGlueC2ModeFUS);
|
|
|
|
while(true) {
|
|
BleGlueCommandResult fus_status = ble_glue_fus_get_status();
|
|
if(fus_status == BleGlueCommandResultOperationOngoing) {
|
|
furi_delay_ms(20);
|
|
} else if(fus_status == BleGlueCommandResultError) {
|
|
return BleGlueCommandResultError;
|
|
} else {
|
|
return BleGlueCommandResultOK;
|
|
}
|
|
}
|
|
}
|