/****************************************************************************** * * Copyright (C) 1999-2012 Broadcom Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ #include "OverrideLog.h" #include "NfcAdaptation.h" extern "C" { #include "gki.h" #include "nfa_api.h" #include "nfc_int.h" } #include "config.h" #define LOG_TAG "NfcAdaptation" extern "C" void GKI_shutdown(); extern void resetConfig(); extern "C" void verify_stack_non_volatile_store (); extern "C" void delete_stack_non_volatile_store (BOOLEAN forceDelete); NfcAdaptation* NfcAdaptation::mpInstance = NULL; ThreadMutex NfcAdaptation::sLock; nfc_nci_device_t* NfcAdaptation::mHalDeviceContext = NULL; tHAL_NFC_CBACK* NfcAdaptation::mHalCallback = NULL; tHAL_NFC_DATA_CBACK* NfcAdaptation::mHalDataCallback = NULL; ThreadCondVar NfcAdaptation::mHalOpenCompletedEvent; ThreadCondVar NfcAdaptation::mHalCloseCompletedEvent; UINT32 ScrProtocolTraceFlag = SCR_PROTO_TRACE_ALL; //0x017F00; UINT8 appl_trace_level = 0xff; char bcm_nfc_location[120]; static UINT8 nfa_dm_cfg[sizeof ( tNFA_DM_CFG ) ]; extern tNFA_DM_CFG *p_nfa_dm_cfg; extern UINT8 nfa_ee_max_ee_cfg; extern const UINT8 nfca_version_string []; extern const UINT8 nfa_version_string []; /******************************************************************************* ** ** Function: NfcAdaptation::NfcAdaptation() ** ** Description: class constructor ** ** Returns: none ** *******************************************************************************/ NfcAdaptation::NfcAdaptation() { } /******************************************************************************* ** ** Function: NfcAdaptation::~NfcAdaptation() ** ** Description: class destructor ** ** Returns: none ** *******************************************************************************/ NfcAdaptation::~NfcAdaptation() { mpInstance = NULL; } /******************************************************************************* ** ** Function: NfcAdaptation::GetInstance() ** ** Description: access class singleton ** ** Returns: pointer to the singleton object ** *******************************************************************************/ NfcAdaptation& NfcAdaptation::GetInstance() { AutoThreadMutex a(sLock); if (!mpInstance) mpInstance = new NfcAdaptation; return *mpInstance; } /******************************************************************************* ** ** Function: NfcAdaptation::Initialize() ** ** Description: class initializer ** ** Returns: none ** *******************************************************************************/ void NfcAdaptation::Initialize () { const char* func = "NfcAdaptation::Initialize"; ALOGD("%s: enter", func); ALOGE("%s: ver=%s nfa=%s", func, nfca_version_string, nfa_version_string); unsigned long num; if ( !GetStrValue ( NAME_NFA_STORAGE, bcm_nfc_location, sizeof ( bcm_nfc_location ) ) ) { memset (bcm_nfc_location, 0, sizeof(bcm_nfc_location)); strncpy (bcm_nfc_location, "/data/nfc", 9); } if ( GetNumValue ( NAME_PROTOCOL_TRACE_LEVEL, &num, sizeof ( num ) ) ) ScrProtocolTraceFlag = num; if ( GetStrValue ( NAME_NFA_DM_CFG, (char*)nfa_dm_cfg, sizeof ( nfa_dm_cfg ) ) ) p_nfa_dm_cfg = ( tNFA_DM_CFG * ) &nfa_dm_cfg[0]; if ( GetNumValue ( NAME_NFA_MAX_EE_SUPPORTED, &num, sizeof ( num ) ) ) { nfa_ee_max_ee_cfg = num; ALOGD("%s: Overriding NFA_EE_MAX_EE_SUPPORTED to use %d", func, nfa_ee_max_ee_cfg); } initializeGlobalAppLogLevel (); verify_stack_non_volatile_store (); if ( GetNumValue ( NAME_PRESERVE_STORAGE, (char*)&num, sizeof ( num ) ) && (num == 1) ) ALOGD ("%s: preserve stack NV store", __FUNCTION__); else { delete_stack_non_volatile_store (FALSE); } GKI_init (); GKI_enable (); GKI_create_task ((TASKPTR)NFCA_TASK, BTU_TASK, (INT8*)"NFCA_TASK", 0, 0, (pthread_cond_t*)NULL, NULL); { AutoThreadMutex guard(mCondVar); GKI_create_task ((TASKPTR)Thread, MMI_TASK, (INT8*)"NFCA_THREAD", 0, 0, (pthread_cond_t*)NULL, NULL); mCondVar.wait(); } mHalDeviceContext = NULL; mHalCallback = NULL; memset (&mHalEntryFuncs, 0, sizeof(mHalEntryFuncs)); InitializeHalDeviceContext (); ALOGD ("%s: exit", func); } /******************************************************************************* ** ** Function: NfcAdaptation::Finalize() ** ** Description: class finalizer ** ** Returns: none ** *******************************************************************************/ void NfcAdaptation::Finalize() { const char* func = "NfcAdaptation::Finalize"; AutoThreadMutex a(sLock); ALOGD ("%s: enter", func); GKI_shutdown (); resetConfig(); nfc_nci_close(mHalDeviceContext); //close the HAL's device context mHalDeviceContext = NULL; mHalCallback = NULL; memset (&mHalEntryFuncs, 0, sizeof(mHalEntryFuncs)); ALOGD ("%s: exit", func); delete this; } /******************************************************************************* ** ** Function: NfcAdaptation::signal() ** ** Description: signal the CondVar to release the thread that is waiting ** ** Returns: none ** *******************************************************************************/ void NfcAdaptation::signal () { mCondVar.signal(); } /******************************************************************************* ** ** Function: NfcAdaptation::NFCA_TASK() ** ** Description: NFCA_TASK runs the GKI main task ** ** Returns: none ** *******************************************************************************/ UINT32 NfcAdaptation::NFCA_TASK (UINT32 arg) { const char* func = "NfcAdaptation::NFCA_TASK"; ALOGD ("%s: enter", func); GKI_run (0); ALOGD ("%s: exit", func); return NULL; } /******************************************************************************* ** ** Function: NfcAdaptation::Thread() ** ** Description: Creates work threads ** ** Returns: none ** *******************************************************************************/ UINT32 NfcAdaptation::Thread (UINT32 arg) { const char* func = "NfcAdaptation::Thread"; ALOGD ("%s: enter", func); { ThreadCondVar CondVar; AutoThreadMutex guard(CondVar); GKI_create_task ((TASKPTR)nfc_task, NFC_TASK, (INT8*)"NFC_TASK", 0, 0, (pthread_cond_t*)CondVar, (pthread_mutex_t*)CondVar); CondVar.wait(); } NfcAdaptation::GetInstance().signal(); GKI_exit_task (GKI_get_taskid ()); ALOGD ("%s: exit", func); return NULL; } /******************************************************************************* ** ** Function: NfcAdaptation::GetHalEntryFuncs() ** ** Description: Get the set of HAL entry points. ** ** Returns: Functions pointers for HAL entry points. ** *******************************************************************************/ tHAL_NFC_ENTRY* NfcAdaptation::GetHalEntryFuncs () { return &mHalEntryFuncs; } /******************************************************************************* ** ** Function: NfcAdaptation::InitializeHalDeviceContext ** ** Description: Ask the generic Android HAL to find the Broadcom-specific HAL. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::InitializeHalDeviceContext () { const char* func = "NfcAdaptation::InitializeHalDeviceContext"; ALOGD ("%s: enter", func); int ret = 0; //0 means success const hw_module_t* hw_module = NULL; mHalEntryFuncs.initialize = HalInitialize; mHalEntryFuncs.terminate = HalTerminate; mHalEntryFuncs.open = HalOpen; mHalEntryFuncs.close = HalClose; mHalEntryFuncs.core_initialized = HalCoreInitialized; mHalEntryFuncs.write = HalWrite; mHalEntryFuncs.prediscover = HalPrediscover; mHalEntryFuncs.control_granted = HalControlGranted; mHalEntryFuncs.power_cycle = HalPowerCycle; mHalEntryFuncs.get_max_ee = HalGetMaxNfcee; ret = hw_get_module (NFC_NCI_HARDWARE_MODULE_ID, &hw_module); if (ret == 0) { ret = nfc_nci_open (hw_module, &mHalDeviceContext); if (ret != 0) ALOGE ("%s: nfc_nci_open fail", func); } else ALOGE ("%s: fail hw_get_module", func); ALOGD ("%s: exit", func); } /******************************************************************************* ** ** Function: NfcAdaptation::HalInitialize ** ** Description: Not implemented because this function is only needed ** within the HAL. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalInitialize () { const char* func = "NfcAdaptation::HalInitialize"; ALOGD ("%s", func); } /******************************************************************************* ** ** Function: NfcAdaptation::HalTerminate ** ** Description: Not implemented because this function is only needed ** within the HAL. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalTerminate () { const char* func = "NfcAdaptation::HalTerminate"; ALOGD ("%s", func); } /******************************************************************************* ** ** Function: NfcAdaptation::HalOpen ** ** Description: Turn on controller, download firmware. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalOpen (tHAL_NFC_CBACK *p_hal_cback, tHAL_NFC_DATA_CBACK* p_data_cback) { const char* func = "NfcAdaptation::HalOpen"; ALOGD ("%s", func); if (mHalDeviceContext) { mHalCallback = p_hal_cback; mHalDataCallback = p_data_cback; mHalDeviceContext->open (mHalDeviceContext, HalDeviceContextCallback, HalDeviceContextDataCallback); } } /******************************************************************************* ** ** Function: NfcAdaptation::HalClose ** ** Description: Turn off controller. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalClose () { const char* func = "NfcAdaptation::HalClose"; ALOGD ("%s", func); if (mHalDeviceContext) { mHalDeviceContext->close (mHalDeviceContext); } } /******************************************************************************* ** ** Function: NfcAdaptation::HalDeviceContextCallback ** ** Description: Translate generic Android HAL's callback into Broadcom-specific ** callback function. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalDeviceContextCallback (nfc_event_t event, nfc_status_t event_status) { const char* func = "NfcAdaptation::HalDeviceContextCallback"; ALOGD ("%s: event=%u", func, event); if (mHalCallback) mHalCallback (event, (tHAL_NFC_STATUS) event_status); } /******************************************************************************* ** ** Function: NfcAdaptation::HalDeviceContextDataCallback ** ** Description: Translate generic Android HAL's callback into Broadcom-specific ** callback function. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalDeviceContextDataCallback (uint16_t data_len, uint8_t* p_data) { const char* func = "NfcAdaptation::HalDeviceContextDataCallback"; ALOGD ("%s: len=%u", func, data_len); if (mHalDataCallback) mHalDataCallback (data_len, p_data); } /******************************************************************************* ** ** Function: NfcAdaptation::HalWrite ** ** Description: Write NCI message to the controller. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalWrite (UINT16 data_len, UINT8* p_data) { const char* func = "NfcAdaptation::HalWrite"; ALOGD ("%s", func); if (mHalDeviceContext) { mHalDeviceContext->write (mHalDeviceContext, data_len, p_data); } } /******************************************************************************* ** ** Function: NfcAdaptation::HalCoreInitialized ** ** Description: Adjust the configurable parameters in the controller. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalCoreInitialized (UINT8* p_core_init_rsp_params) { const char* func = "NfcAdaptation::HalCoreInitialized"; ALOGD ("%s", func); if (mHalDeviceContext) { mHalDeviceContext->core_initialized (mHalDeviceContext, p_core_init_rsp_params); } } /******************************************************************************* ** ** Function: NfcAdaptation::HalPrediscover ** ** Description: Perform any vendor-specific pre-discovery actions (if needed) ** If any actions were performed TRUE will be returned, and ** HAL_PRE_DISCOVER_CPLT_EVT will notify when actions are ** completed. ** ** Returns: TRUE if vendor-specific pre-discovery actions initialized ** FALSE if no vendor-specific pre-discovery actions are needed. ** *******************************************************************************/ BOOLEAN NfcAdaptation::HalPrediscover () { const char* func = "NfcAdaptation::HalPrediscover"; ALOGD ("%s", func); BOOLEAN retval = FALSE; if (mHalDeviceContext) { retval = mHalDeviceContext->pre_discover (mHalDeviceContext); } return retval; } /******************************************************************************* ** ** Function: HAL_NfcControlGranted ** ** Description: Grant control to HAL control for sending NCI commands. ** Call in response to HAL_REQUEST_CONTROL_EVT. ** Must only be called when there are no NCI commands pending. ** HAL_RELEASE_CONTROL_EVT will notify when HAL no longer ** needs control of NCI. ** ** Returns: void ** *******************************************************************************/ void NfcAdaptation::HalControlGranted () { const char* func = "NfcAdaptation::HalControlGranted"; ALOGD ("%s", func); if (mHalDeviceContext) { mHalDeviceContext->control_granted (mHalDeviceContext); } } /******************************************************************************* ** ** Function: NfcAdaptation::HalPowerCycle ** ** Description: Turn off and turn on the controller. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalPowerCycle () { const char* func = "NfcAdaptation::HalPowerCycle"; ALOGD ("%s", func); if (mHalDeviceContext) { mHalDeviceContext->power_cycle (mHalDeviceContext); } } /******************************************************************************* ** ** Function: NfcAdaptation::HalGetMaxNfcee ** ** Description: Turn off and turn on the controller. ** ** Returns: None. ** *******************************************************************************/ UINT8 NfcAdaptation::HalGetMaxNfcee() { const char* func = "NfcAdaptation::HalPowerCycle"; UINT8 maxNfcee = 0; if (mHalDeviceContext) { // TODO maco call into HAL when we figure out binary compatibility. return nfa_ee_max_ee_cfg; } return maxNfcee; } /******************************************************************************* ** ** Function: NfcAdaptation::DownloadFirmware ** ** Description: Download firmware patch files. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::DownloadFirmware () { const char* func = "NfcAdaptation::DownloadFirmware"; ALOGD ("%s: enter", func); HalInitialize (); mHalOpenCompletedEvent.lock (); ALOGD ("%s: try open HAL", func); HalOpen (HalDownloadFirmwareCallback, HalDownloadFirmwareDataCallback); mHalOpenCompletedEvent.wait (); mHalCloseCompletedEvent.lock (); ALOGD ("%s: try close HAL", func); HalClose (); mHalCloseCompletedEvent.wait (); HalTerminate (); ALOGD ("%s: exit", func); } /******************************************************************************* ** ** Function: NfcAdaptation::HalDownloadFirmwareCallback ** ** Description: Receive events from the HAL. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalDownloadFirmwareCallback (nfc_event_t event, nfc_status_t event_status) { const char* func = "NfcAdaptation::HalDownloadFirmwareCallback"; ALOGD ("%s: event=0x%X", func, event); switch (event) { case HAL_NFC_OPEN_CPLT_EVT: { ALOGD ("%s: HAL_NFC_OPEN_CPLT_EVT", func); mHalOpenCompletedEvent.signal (); break; } case HAL_NFC_CLOSE_CPLT_EVT: { ALOGD ("%s: HAL_NFC_CLOSE_CPLT_EVT", func); mHalCloseCompletedEvent.signal (); break; } } } /******************************************************************************* ** ** Function: NfcAdaptation::HalDownloadFirmwareDataCallback ** ** Description: Receive data events from the HAL. ** ** Returns: None. ** *******************************************************************************/ void NfcAdaptation::HalDownloadFirmwareDataCallback (uint16_t data_len, uint8_t* p_data) { } /******************************************************************************* ** ** Function: ThreadMutex::ThreadMutex() ** ** Description: class constructor ** ** Returns: none ** *******************************************************************************/ ThreadMutex::ThreadMutex() { pthread_mutexattr_t mutexAttr; pthread_mutexattr_init(&mutexAttr); pthread_mutex_init(&mMutex, &mutexAttr); pthread_mutexattr_destroy(&mutexAttr); } /******************************************************************************* ** ** Function: ThreadMutex::~ThreadMutex() ** ** Description: class destructor ** ** Returns: none ** *******************************************************************************/ ThreadMutex::~ThreadMutex() { pthread_mutex_destroy(&mMutex); } /******************************************************************************* ** ** Function: ThreadMutex::lock() ** ** Description: lock kthe mutex ** ** Returns: none ** *******************************************************************************/ void ThreadMutex::lock() { pthread_mutex_lock(&mMutex); } /******************************************************************************* ** ** Function: ThreadMutex::unblock() ** ** Description: unlock the mutex ** ** Returns: none ** *******************************************************************************/ void ThreadMutex::unlock() { pthread_mutex_unlock(&mMutex); } /******************************************************************************* ** ** Function: ThreadCondVar::ThreadCondVar() ** ** Description: class constructor ** ** Returns: none ** *******************************************************************************/ ThreadCondVar::ThreadCondVar() { pthread_condattr_t CondAttr; pthread_condattr_init(&CondAttr); pthread_cond_init(&mCondVar, &CondAttr); pthread_condattr_destroy(&CondAttr); } /******************************************************************************* ** ** Function: ThreadCondVar::~ThreadCondVar() ** ** Description: class destructor ** ** Returns: none ** *******************************************************************************/ ThreadCondVar::~ThreadCondVar() { pthread_cond_destroy(&mCondVar); } /******************************************************************************* ** ** Function: ThreadCondVar::wait() ** ** Description: wait on the mCondVar ** ** Returns: none ** *******************************************************************************/ void ThreadCondVar::wait() { pthread_cond_wait(&mCondVar, *this); pthread_mutex_unlock(*this); } /******************************************************************************* ** ** Function: ThreadCondVar::signal() ** ** Description: signal the mCondVar ** ** Returns: none ** *******************************************************************************/ void ThreadCondVar::signal() { AutoThreadMutex a(*this); pthread_cond_signal(&mCondVar); } /******************************************************************************* ** ** Function: AutoThreadMutex::AutoThreadMutex() ** ** Description: class constructor, automatically lock the mutex ** ** Returns: none ** *******************************************************************************/ AutoThreadMutex::AutoThreadMutex(ThreadMutex &m) : mm(m) { mm.lock(); } /******************************************************************************* ** ** Function: AutoThreadMutex::~AutoThreadMutex() ** ** Description: class destructor, automatically unlock the mutex ** ** Returns: none ** *******************************************************************************/ AutoThreadMutex::~AutoThreadMutex() { mm.unlock(); }