app-templates - [Deprecated] For versions >= Guppy use the CMake module instead.

Age	Commit message (Collapse)	Author	Files	Lines
2017-05-04	Improve documentation.	Romain Forlot	1	-3/+14
	Added more detailled instruction about installation of these files. Added the explanation of the AGLbuild script purpose. Change-Id: I0ba3c51940215fb6c90c02e3950abf445ee21ed6 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Rename to more meaningful name directories	Romain Forlot	132	-0/+0
	Change-Id: Ib3990308c1f2358b3e330cd0068719098c4dab56 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Continue separation of sources and put also html5 into separated dir	Romain Forlot	14	-67/+99
	Change-Id: I36bc61f69f0e2d197f1891f3ea7cfa30e9a29e3b Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Delete dirty qml examples	Romain Forlot	19	-1042/+0
	Change-Id: Id835a5103b859ea3b3339f4559cfa0d47736857d Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Put sources into dedicated directories	Romain Forlot	6	-4/+4
	Change-Id: I424377f4a25f45f6bfcea84ce59812fb674a861b Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Keep only icon in the packaging directory	Romain Forlot	1	-0/+0
	Change-Id: Id0f3ab6a66df07806228eab49ded2f0f56e3f14a Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Improve README usage chapter to be more descriptive of what to do.	Romain Forlot	1	-33/+79
	Change-Id: Ie5690cedf922bf89a590bf5fd33fa5fa9e9086bb Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Use OUTPUT_NAME properties by default to populate to widget tree	Romain Forlot	1	-4/+4
	As if not set then it will be logical name and if set then it is the good name Change-Id: I424aa9c8d8486350486e9c2b13dc3c9be9ccd5a0 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Remove useless script	Romain Forlot	1	-96/+0
	Change-Id: I15a268a451010f734386301d51ed92f880065c6d Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Merge "replaces macro 'setc..' by 'set..CACHE'"	José Bollo	7	-112/+70

2017-05-04	Merge "Prepare future versions"	José Bollo	6	-6/+6

2017-05-04	replaces macro 'setc..' by 'set..CACHE'	José Bollo	7	-112/+70
	Change-Id: Ifb8ca2060e054b99cad8341f332b143655c3fea6 Signed-off-by: José Bollo <jose.bollo@iot.bzh>
2017-05-04	Adding exec permission to the AGLbuild template script	Romain Forlot	1	-0/+0
	Change-Id: Ifd7c9462b9c125de4603068f603ebddb80ff4d13 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Rename AGLbuild script to the correct name	Romain Forlot	7	-0/+41
	Change-Id: Id68894e71ffb69dc6a7fc78d962206c567e20b09 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Prepare future versions	José Bollo	6	-6/+6
	Change-Id: I38a89e19e18d5954dfcae1c2a9a2096d6e47710f Signed-off-by: José Bollo <jose.bollo@iot.bzh>
2017-05-04	Fix: exported symbols globbing expression now accept any versions	Romain Forlot	1	-1/+1
	Change-Id: I01626f402b08ce3c979a88749c7ffb996e140c89 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-04	Remove left file from CAN_signaling project	Romain Forlot	1	-3/+0
	Change-Id: Iac643ef9d9530a41311bf88d9460e3aaefab2097 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-03	Fix: efence library inclusion	Romain Forlot	1	-1/+1
	Change-Id: I51bc49cb663c61e23407e7da9bc4294344c0e4c0 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-03	Adding README with instruction and help	Romain Forlot	1	-0/+114
	Change-Id: Ic081b672ddff506f8b2a742c259f1333ff7184fa Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-03	Adding script to install template structure to an app project	Romain Forlot	1	-0/+96
	Change-Id: Ia90fec787de32c410aaf84d08f3d7da6c197c61f Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-03	Adding simple AGLBuild wrapping CMake invocation.	Romain Forlot	1	-0/+41
	Change-Id: Ibad4cce47d9f303e0bfa5376d3f76a4a27c490b7 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-03	Adding widget file to files to be cleaned at 'make clean' step.	Romain Forlot	1	-1/+1
	Change-Id: I92e9f386be78b0725e07fb4918ad1d52de5044ff Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-03	Make more generic template.	Romain Forlot	2	-6/+41
	Adding variable to fill config.xml content. Change-Id: Ie9557e4ba89457026fb2db4f8d574e6e19af8556 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-02	Initial commit	Romain Forlot	149	-0/+12130
	Change-Id: I536251add63ef100b42a67e39a02fef117f2b414 Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
2017-05-02	Initial empty repository	Jan-Simon Moeller	0	-0/+0

/*------------------------------------------------------------------------------------------------*/ /* UNICENS Integration Helper Component */ /* Copyright 2017, Microchip Technology Inc. and its subsidiaries. */ /* */ /* Redistribution and use in source and binary forms, with or without */ /* modification, are permitted provided that the following conditions are met: */ /* */ /* 1. Redistributions of source code must retain the above copyright notice, this */ /* list of conditions and the following disclaimer. */ /* */ /* 2. Redistributions in binary form must reproduce the above copyright notice, */ /* this list of conditions and the following disclaimer in the documentation */ /* and/or other materials provided with the distribution. */ /* */ /* 3. Neither the name of the copyright holder nor the names of its */ /* contributors may be used to endorse or promote products derived from */ /* this software without specific prior written permission. */ /* */ /* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" */ /* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE */ /* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE */ /* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE */ /* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL */ /* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR */ /* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER */ /* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, */ /* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE */ /* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /*------------------------------------------------------------------------------------------------*/ #include <assert.h> #include <stdio.h> #include "ucs_interface.h" /************************************************************************/ /* Private Definitions and variables */ /************************************************************************/ #define MAGIC (0xA144BEAF) /************************************************************************/ /* Private Function Prototypes */ /************************************************************************/ static bool EnqueueCommand(UCSI_Data_t *my, UnicensCmdEntry_t *cmd); static void OnCommandExecuted(UCSI_Data_t *my, UnicensCmd_t cmd); static void RB_Init(RB_t *rb, uint16_t amountOfEntries, uint32_t sizeOfEntry, uint8_t *workingBuffer); static void *RB_GetReadPtr(RB_t *rb); static void RB_PopReadPtr(RB_t *rb); static void *RB_GetWritePtr(RB_t *rb); static void RB_PopWritePtr(RB_t *rb); static uint16_t OnUnicensGetTime(void *user_ptr); static void OnUnicensService( void *user_ptr ); static void OnUnicensError( Ucs_Error_t error_code, void *user_ptr ); static void OnUnicensAppTimer( uint16_t timeout, void *user_ptr ); static void OnUnicensDebugErrorMsg(Msg_MostTel_t *m, void *user_ptr); static void OnLldCtrlStart( Ucs_Lld_Api_t* api_ptr, void *inst_ptr, void *lld_user_ptr ); static void OnLldCtrlStop( void *lld_user_ptr ); static void OnLldCtrlRxMsgAvailable( void *lld_user_ptr ); static void OnLldCtrlTxTransmitC( Ucs_Lld_TxMsg_t *msg_ptr, void *lld_user_ptr ); static void OnUnicensRoutingResult(Ucs_Rm_Route_t* route_ptr, Ucs_Rm_RouteInfos_t route_infos, void *user_ptr); static void OnUnicensNetworkStatus(uint16_t change_mask, uint16_t events, Ucs_Network_Availability_t availability, Ucs_Network_AvailInfo_t avail_info, Ucs_Network_AvailTransCause_t avail_trans_cause, uint16_t node_address, uint8_t node_position, uint8_t max_position, uint16_t packet_bw, void *user_ptr); static void OnUnicensDebugXrmResources(Ucs_Xrm_ResourceType_t resource_type, Ucs_Xrm_ResObject_t *resource_ptr, Ucs_Xrm_ResourceInfos_t resource_infos, Ucs_Rm_EndPoint_t *endpoint_inst_ptr, void *user_ptr); static void OnUcsInitResult(Ucs_InitResult_t result, void *user_ptr); static void OnUcsStopResult(Ucs_StdResult_t result, void *user_ptr); static void OnUcsGpioPortCreate(uint16_t node_address, uint16_t gpio_port_handle, Ucs_Gpio_Result_t result, void *user_ptr); static void OnUcsGpioPortWrite(uint16_t node_address, uint16_t gpio_port_handle, uint16_t current_state, uint16_t sticky_state, Ucs_Gpio_Result_t result, void *user_ptr); static void OnUcsMgrReport(Ucs_MgrReport_t code, uint16_t node_address, Ucs_Rm_Node_t *node_ptr, void *user_ptr); static void OnUcsNsRun(Ucs_Rm_Node_t * node_ptr, Ucs_Ns_ResultCode_t result, void *ucs_user_ptr); static void OnUcsAmsRxMsgReceived(void *user_ptr); static void OnUcsGpioTriggerEventStatus(uint16_t node_address, uint16_t gpio_port_handle, uint16_t rising_edges, uint16_t falling_edges, uint16_t levels, void * user_ptr); static void OnUcsI2CWrite(uint16_t node_address, uint16_t i2c_port_handle, uint8_t i2c_slave_address, uint8_t data_len, Ucs_I2c_Result_t result, void *user_ptr); /************************************************************************/ /* Public Function Implementations */ /************************************************************************/ void UCSI_Init(UCSI_Data_t *my, void *pTag) { Ucs_Return_t result; assert(NULL != my); memset(my, 0, sizeof(UCSI_Data_t)); my->magic = MAGIC; my->tag = pTag; my->unicens = Ucs_CreateInstance(); if (NULL == my->unicens) { UCSI_CB_OnUserMessage(my->tag, true, "Can not instance a new version of UNICENS, "\ "increase UCS_NUM_INSTANCES define", 0); assert(false); return; } result = Ucs_SetDefaultConfig(&my->uniInitData); if(UCS_RET_SUCCESS != result) { UCSI_CB_OnUserMessage(my->tag, true, "Can not set default values to UNICENS config (result=0x%X)", 1, result); assert(false); return; } my->uniInitData.user_ptr = my; my->uniInitData.mgr.report_fptr = OnUcsMgrReport; my->uniInitData.general.inic_watchdog_enabled = ENABLE_INIC_WATCHDOG; my->uniInitData.general.get_tick_count_fptr = &OnUnicensGetTime; my->uniInitData.general.request_service_fptr = &OnUnicensService; my->uniInitData.general.error_fptr = &OnUnicensError; my->uniInitData.general.set_application_timer_fptr = &OnUnicensAppTimer; my->uniInitData.general.debug_error_msg_fptr = &OnUnicensDebugErrorMsg; my->uniInitData.ams.enabled = ENABLE_AMS_LIB; my->uniInitData.ams.rx.message_received_fptr = &OnUcsAmsRxMsgReceived; my->uniInitData.network.status.notification_mask = 0xC2; my->uniInitData.network.status.cb_fptr = &OnUnicensNetworkStatus; my->uniInitData.lld.lld_user_ptr = my; my->uniInitData.lld.start_fptr = &OnLldCtrlStart; my->uniInitData.lld.stop_fptr = &OnLldCtrlStop; my->uniInitData.lld.rx_available_fptr = &OnLldCtrlRxMsgAvailable; my->uniInitData.lld.tx_transmit_fptr = &OnLldCtrlTxTransmitC; my->uniInitData.rm.report_fptr = &OnUnicensRoutingResult; my->uniInitData.rm.debug_resource_status_fptr = &OnUnicensDebugXrmResources; my->uniInitData.gpio.trigger_event_status_fptr = &OnUcsGpioTriggerEventStatus; RB_Init(&my->rb, CMD_QUEUE_LEN, sizeof(UnicensCmdEntry_t), my->rbBuf); } bool UCSI_NewConfig(UCSI_Data_t *my, UcsXmlVal_t *ucsConfig) { UnicensCmdEntry_t *e; assert(MAGIC == my->magic); if (my->initialized) { e = (UnicensCmdEntry_t *)RB_GetWritePtr(&my->rb); if (NULL == e) return false; e->cmd = UnicensCmd_Stop; RB_PopWritePtr(&my->rb); } my->uniInitData.mgr.packet_bw = ucsConfig->packetBw; my->uniInitData.mgr.routes_list_ptr = ucsConfig->pRoutes; my->uniInitData.mgr.routes_list_size = ucsConfig->routesSize; my->uniInitData.mgr.nodes_list_ptr = ucsConfig->pNod; my->uniInitData.mgr.nodes_list_size = ucsConfig->nodSize; my->uniInitData.mgr.enabled = true; e = (UnicensCmdEntry_t *)RB_GetWritePtr(&my->rb); if (NULL == e) return false; e->cmd = UnicensCmd_Init; e->val.Init.init_ptr = &my->uniInitData; RB_PopWritePtr(&my->rb); UCSI_CB_OnServiceRequired(my->tag); return true; } bool UCSI_ProcessRxData(UCSI_Data_t *my, const uint8_t *pBuffer, uint16_t len) { Ucs_Lld_RxMsg_t *msg = NULL; assert(MAGIC == my->magic); if (NULL == my->uniLld || NULL == my->uniLldHPtr) return false; msg = my->uniLld->rx_allocate_fptr(my->uniLldHPtr, len); if (NULL == msg) { /*This may happen by definition, OnLldCtrlRxMsgAvailable() will be called, once buffers are available again*/ return false; } msg->data_size = len; memcpy(msg->data_ptr, pBuffer, len); my->uniLld->rx_receive_fptr(my->uniLldHPtr, msg); return true; } void UCSI_Service(UCSI_Data_t *my) { Ucs_Return_t ret; UnicensCmdEntry_t *e; bool popEntry = true; /*Set to false in specific case, where function will callback asynchrony.*/ assert(MAGIC == my->magic); if (NULL != my->unicens && my->triggerService) { my->triggerService = false; Ucs_Service(my->unicens); } if (NULL != my->currentCmd) return; my->currentCmd = e = (UnicensCmdEntry_t *)RB_GetReadPtr(&my->rb); if (NULL == e) return; switch (e->cmd) { case UnicensCmd_Init: if (UCS_RET_SUCCESS == Ucs_Init(my->unicens, e->val.Init.init_ptr, OnUcsInitResult)) popEntry = false; else UCSI_CB_OnUserMessage(my->tag, true, "Ucs_Init failed", 0); break; case UnicensCmd_Stop: if (UCS_RET_SUCCESS == Ucs_Stop(my->unicens, OnUcsStopResult)) popEntry = false; else UCSI_CB_OnUserMessage(my->tag, true, "Ucs_Stop failed", 0); break; case UnicensCmd_RmSetRoute: if (UCS_RET_SUCCESS != Ucs_Rm_SetRouteActive(my->unicens, e->val.RmSetRoute.routePtr, e->val.RmSetRoute.isActive)) UCSI_CB_OnUserMessage(my->tag, true, "Ucs_Rm_SetRouteActive failed", 0); break; case UnicensCmd_NsRun: if (UCS_RET_SUCCESS != Ucs_Ns_Run(my->unicens, e->val.NsRun.node_ptr, OnUcsNsRun)) UCSI_CB_OnUserMessage(my->tag, true, "Ucs_Ns_Run failed", 0); break; case UnicensCmd_GpioCreatePort: if (UCS_RET_SUCCESS == Ucs_Gpio_CreatePort(my->unicens, e->val.GpioCreatePort.destination, 0, e->val.GpioCreatePort.debounceTime, OnUcsGpioPortCreate)) popEntry = false; else UCSI_CB_OnUserMessage(my->tag, true, "Ucs_Gpio_CreatePort failed", 0); break; case UnicensCmd_GpioWritePort: if (UCS_RET_SUCCESS == Ucs_Gpio_WritePort(my->unicens, e->val.GpioWritePort.destination, 0x1D00, e->val.GpioWritePort.mask, e->val.GpioWritePort.data, OnUcsGpioPortWrite)) popEntry = false; else UCSI_CB_OnUserMessage(my->tag, true, "UnicensCmd_GpioWritePort failed", 0); break; case UnicensCmd_I2CWrite: ret = Ucs_I2c_WritePort(my->unicens, e->val.I2CWrite.destination, 0x0F00, (e->val.I2CWrite.isBurst ? UCS_I2C_BURST_MODE : UCS_I2C_DEFAULT_MODE), e->val.I2CWrite.blockCount, e->val.I2CWrite.slaveAddr, e->val.I2CWrite.timeout, e->val.I2CWrite.dataLen, e->val.I2CWrite.data, OnUcsI2CWrite); if (UCS_RET_SUCCESS == ret) popEntry = false; else { UCSI_CB_OnUserMessage(my->tag, true, "Ucs_I2c_WritePort failed ret=%d", 1, ret); assert(e->val.I2CWrite.result_fptr != NULL); e->val.I2CWrite.result_fptr(NULL /*processing error*/, e->val.I2CWrite.request_ptr); } break; default: assert(false); break; } if (popEntry) { my->currentCmd = NULL; RB_PopReadPtr(&my->rb); } } void UCSI_Timeout(UCSI_Data_t *my) { assert(MAGIC == my->magic); if (NULL == my->unicens) return; Ucs_ReportTimeout(my->unicens); } bool UCSI_SendAmsMessage(UCSI_Data_t *my, uint16_t msgId, uint16_t targetAddress, uint8_t *pPayload, uint32_t payloadLen) { Ucs_AmsTx_Msg_t *msg; Ucs_Return_t result; assert(MAGIC == my->magic); if (NULL == my->unicens) return false; msg = Ucs_AmsTx_AllocMsg(my->unicens, payloadLen); if (NULL == msg) return false; if (0 != payloadLen) { assert(NULL != msg->data_ptr); memcpy(msg->data_ptr, pPayload, payloadLen); } msg->custom_info_ptr = NULL; msg->data_size = payloadLen; msg->destination_address = targetAddress; msg->llrbc = 10; msg->msg_id = msgId; result = Ucs_AmsTx_SendMsg(my->unicens, msg, NULL); if (UCS_RET_SUCCESS != result) Ucs_AmsTx_FreeUnusedMsg(my->unicens, msg); return UCS_RET_SUCCESS == result; } bool UCSI_GetAmsMessage(UCSI_Data_t *my, uint16_t *pMsgId, uint16_t *pSourceAddress, uint8_t **pPayload, uint32_t *pPayloadLen) { Ucs_AmsRx_Msg_t *msg; assert(MAGIC == my->magic); if (NULL == my->unicens || NULL == pPayload || NULL == pPayloadLen) return false; msg = Ucs_AmsRx_PeekMsg(my->unicens); if (NULL == msg) return false; *pMsgId = msg->msg_id; *pSourceAddress = msg->source_address; *pPayload = msg->data_ptr; *pPayloadLen = msg->data_size; return true; } void UCSI_ReleaseAmsMessage(UCSI_Data_t *my) { assert(MAGIC == my->magic); if (NULL == my->unicens) return; Ucs_AmsRx_ReleaseMsg(my->unicens); } bool UCSI_SetRouteActive(UCSI_Data_t *my, uint16_t routeId, bool isActive) { uint16_t i; UnicensCmdEntry_t entry; assert(MAGIC == my->magic); if (NULL == my || NULL == my->uniInitData.mgr.routes_list_ptr) return false; for (i = 0; i < my->uniInitData.mgr.routes_list_size; i++) { Ucs_Rm_Route_t *route = &my->uniInitData.mgr.routes_list_ptr[i]; if (route->route_id != routeId) continue; entry.cmd = UnicensCmd_RmSetRoute; entry.val.RmSetRoute.routePtr = route; entry.val.RmSetRoute.isActive = isActive; return EnqueueCommand(my, &entry); } return false; } bool UCSI_I2CWrite(UCSI_Data_t *my, uint16_t targetAddress, bool isBurst, uint8_t blockCount, uint8_t slaveAddr, uint16_t timeout, uint8_t dataLen, uint8_t *pData, Ucsi_ResultCb_t result_fptr, void *request_ptr) { UnicensCmdEntry_t entry; assert(MAGIC == my->magic); if (NULL == my || NULL == pData || 0 == dataLen) return false; if (dataLen > I2C_WRITE_MAX_LEN) return false; entry.cmd = UnicensCmd_I2CWrite; entry.val.I2CWrite.destination = targetAddress; entry.val.I2CWrite.isBurst = isBurst; entry.val.I2CWrite.blockCount = blockCount; entry.val.I2CWrite.slaveAddr = slaveAddr; entry.val.I2CWrite.timeout = timeout; entry.val.I2CWrite.dataLen = dataLen; entry.val.I2CWrite.result_fptr = result_fptr; entry.val.I2CWrite.request_ptr = request_ptr; memcpy(entry.val.I2CWrite.data, pData, dataLen); return EnqueueCommand(my, &entry); } bool UCSI_SetGpioState(UCSI_Data_t *my, uint16_t targetAddress, uint8_t gpioPinId, bool isHighState) { uint16_t mask; UnicensCmdEntry_t entry; assert(MAGIC == my->magic); if (NULL == my) return false; mask = 1 << gpioPinId; entry.cmd = UnicensCmd_GpioWritePort; entry.val.GpioWritePort.destination = targetAddress; entry.val.GpioWritePort.mask = mask; entry.val.GpioWritePort.data = isHighState ? mask : 0; return EnqueueCommand(my, &entry); } /************************************************************************/ /* Private Functions */ /************************************************************************/ static bool EnqueueCommand(UCSI_Data_t *my, UnicensCmdEntry_t *cmd) { UnicensCmdEntry_t *e; if (NULL == my || NULL == cmd) { assert(false); return false; } e = RB_GetWritePtr(&my->rb); if (NULL == e) { UCSI_CB_OnUserMessage(my->tag, true, "Could not enqueue command. Increase CMD_QUEUE_LEN define", 0); return false; } memcpy(e, cmd, sizeof(UnicensCmdEntry_t)); RB_PopWritePtr(&my->rb); UCSI_CB_OnServiceRequired(my->tag); return true; } static void OnCommandExecuted(UCSI_Data_t *my, UnicensCmd_t cmd) { if (NULL == my) { assert(false); return; } if (NULL == my->currentCmd) { UCSI_CB_OnUserMessage(my->tag, true, "OnUniCommandExecuted was called, but no "\ "command is in queue", 0); assert(false); return; } if (my->currentCmd->cmd != cmd) { UCSI_CB_OnUserMessage(my->tag, true, "OnUniCommandExecuted was called with "\ "wrong command (Expected=0x%X, Got=0x%X", 2, my->currentCmd->cmd, cmd); assert(false); return; } my->currentCmd = NULL; RB_PopReadPtr(&my->rb); } static void RB_Init(RB_t *rb, uint16_t amountOfEntries, uint32_t sizeOfEntry, uint8_t *workingBuffer) { assert(NULL != rb); assert(NULL != workingBuffer); rb->dataQueue = workingBuffer; rb->pRx = rb->dataQueue; rb->pTx = rb->dataQueue; rb->amountOfEntries = amountOfEntries; rb->sizeOfEntry = sizeOfEntry; rb->rxPos = 0; rb->txPos = 0; } static void *RB_GetReadPtr(RB_t *rb) { assert(NULL != rb); assert(0 != rb->dataQueue); if (rb->txPos - rb->rxPos > 0) return (void *)rb->pRx; return NULL; } static void RB_PopReadPtr(RB_t *rb) { assert(NULL != rb); assert(0 != rb->dataQueue); rb->pRx += rb->sizeOfEntry; if (rb->pRx >= rb->dataQueue + ( rb->amountOfEntries * rb->sizeOfEntry)) rb->pRx = rb->dataQueue; ++rb->rxPos; assert(rb->txPos >= rb->rxPos); } static void *RB_GetWritePtr(RB_t *rb) { assert(NULL != rb); assert(0 != rb->dataQueue); if (rb->txPos - rb->rxPos < rb->amountOfEntries) return (void *)rb->pTx; return NULL; } static void RB_PopWritePtr(RB_t *rb) { assert(NULL != rb); assert(0 != rb->dataQueue); rb->pTx += rb->sizeOfEntry; if (rb->pTx >= rb->dataQueue + ( rb->amountOfEntries * rb->sizeOfEntry)) rb->pTx = rb->dataQueue; ++rb->txPos; assert(rb->txPos >= rb->rxPos); } static uint16_t OnUnicensGetTime(void *user_ptr) { UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); return UCSI_CB_OnGetTime(my->tag); } static void OnUnicensService( void *user_ptr ) { UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); my->triggerService = true; UCSI_CB_OnServiceRequired(my->tag); } static void OnUnicensError( Ucs_Error_t error_code, void *user_ptr ) { UnicensCmdEntry_t e; UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; error_code = error_code; assert(MAGIC == my->magic); UCSI_CB_OnUserMessage(my->tag, true, "UNICENS general error, code=0x%X, restarting", 1, error_code); e.cmd = UnicensCmd_Init; e.val.Init.init_ptr = &my->uniInitData; EnqueueCommand(my, &e); } static void OnUnicensAppTimer( uint16_t timeout, void *user_ptr ) { UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); UCSI_CB_OnSetServiceTimer(my->tag, timeout); } static void OnUnicensDebugErrorMsg(Msg_MostTel_t *m, void *user_ptr) { char buffer[100]; char val[5]; uint8_t i; UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); buffer[0] = '\0'; for (i = 0; NULL != m->tel.tel_data_ptr && i < m->tel.tel_len; i++) { snprintf(val, sizeof(val), "%02X ", m->tel.tel_data_ptr[i]); strcat(buffer, val); } UCSI_CB_OnUserMessage(my->tag, true, "Received error message, source=%x, %X.%X.%X.%X, [ %s ]", 6, m->source_addr, m->id.fblock_id, m->id.instance_id, m->id.function_id, m->id.op_type, buffer); } static void OnLldCtrlStart( Ucs_Lld_Api_t* api_ptr, void *inst_ptr, void *lld_user_ptr ) { UCSI_Data_t *my = (UCSI_Data_t *)lld_user_ptr; assert(MAGIC == my->magic); my->uniLld = api_ptr; my->uniLldHPtr = inst_ptr; } static void OnLldCtrlStop( void *lld_user_ptr ) { UCSI_Data_t *my = (UCSI_Data_t *)lld_user_ptr; assert(MAGIC == my->magic); my->uniLld = NULL; my->uniLldHPtr = NULL; } static void OnLldCtrlRxMsgAvailable( void *lld_user_ptr ) { UCSI_Data_t *my = (UCSI_Data_t *)lld_user_ptr; assert(MAGIC == my->magic); UCSI_CB_OnServiceRequired(my->tag); } static void OnLldCtrlTxTransmitC( Ucs_Lld_TxMsg_t *msg_ptr, void *lld_user_ptr ) { UCSI_Data_t *my; Ucs_Mem_Buffer_t * buf_ptr; uint8_t buffer[BOARD_PMS_TX_SIZE]; uint32_t bufferPos = 0; my = (UCSI_Data_t *)lld_user_ptr; assert(MAGIC == my->magic); if (NULL == msg_ptr || NULL == my || NULL == my->uniLld || NULL == my->uniLldHPtr) { assert(false); return; } for (buf_ptr = msg_ptr->memory_ptr; buf_ptr != NULL; buf_ptr = buf_ptr->next_buffer_ptr) { if (buf_ptr->data_size + bufferPos > sizeof(buffer)) { UCSI_CB_OnUserMessage(my->tag, true, "TX buffer is too small, increase " \ "BOARD_PMS_TX_SIZE define (%lu > %lu)", 2, buf_ptr->data_size + bufferPos, sizeof(buffer)); my->uniLld->tx_release_fptr(my->uniLldHPtr, msg_ptr); return; } memcpy(&buffer[bufferPos], buf_ptr->data_ptr, buf_ptr->data_size); bufferPos += buf_ptr->data_size; } assert(bufferPos == msg_ptr->memory_ptr->total_size); my->uniLld->tx_release_fptr(my->uniLldHPtr, msg_ptr); UCSI_CB_OnTxRequest(my->tag, buffer, bufferPos); } static void OnUnicensRoutingResult(Ucs_Rm_Route_t* route_ptr, Ucs_Rm_RouteInfos_t route_infos, void *user_ptr) { uint16_t conLabel; UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); conLabel = Ucs_Rm_GetConnectionLabel(my->unicens, route_ptr); UCSI_CB_OnRouteResult(my->tag, route_ptr->route_id, UCS_RM_ROUTE_INFOS_BUILT == route_infos, conLabel); } static void OnUnicensNetworkStatus(uint16_t change_mask, uint16_t events, Ucs_Network_Availability_t availability, Ucs_Network_AvailInfo_t avail_info, Ucs_Network_AvailTransCause_t avail_trans_cause, uint16_t node_address, uint8_t node_position, uint8_t max_position, uint16_t packet_bw, void *user_ptr) { UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); UCSI_CB_OnNetworkState(my->tag, UCS_NW_AVAILABLE == availability, packet_bw, max_position); } static void OnUnicensDebugXrmResources(Ucs_Xrm_ResourceType_t resource_type, Ucs_Xrm_ResObject_t *resource_ptr, Ucs_Xrm_ResourceInfos_t resource_infos, Ucs_Rm_EndPoint_t *endpoint_inst_ptr, void *user_ptr) { char *msg = NULL; UCSI_Data_t *my; uint16_t adr = 0xFFFF; #ifndef DEBUG_XRM resource_type = resource_type; resource_ptr = resource_ptr; resource_infos = resource_infos; endpoint_inst_ptr = endpoint_inst_ptr; user_ptr = user_ptr; #else endpoint_inst_ptr = endpoint_inst_ptr; my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); if (NULL == resource_ptr) return; if (endpoint_inst_ptr && endpoint_inst_ptr->node_obj_ptr && endpoint_inst_ptr->node_obj_ptr->signature_ptr) adr = endpoint_inst_ptr->node_obj_ptr->signature_ptr->node_address; switch (resource_infos) { case UCS_XRM_INFOS_BUILT: msg = (char *)"has been built"; break; case UCS_XRM_INFOS_DESTROYED: msg = (char *)"has been destroyed"; break; case UCS_XRM_INFOS_ERR_BUILT: msg = (char *)"cannot be built"; break; default: msg = (char *)"cannot be destroyed"; break; } switch(resource_type) { case UCS_XRM_RC_TYPE_MOST_SOCKET: { Ucs_Xrm_MostSocket_t *ms = (Ucs_Xrm_MostSocket_t *)resource_ptr; assert(ms->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): MOST socket %s, handle=%04X, "\ "direction=%d, type=%d, bandwidth=%d", 6, adr, msg, ms->most_port_handle, ms->direction, ms->data_type, ms->bandwidth); break; } case UCS_XRM_RC_TYPE_MLB_PORT: { Ucs_Xrm_MlbPort_t *m = (Ucs_Xrm_MlbPort_t *)resource_ptr; assert(m->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): MLB port %s, index=%d, clock=%d", 4, adr, msg, m->index, m->clock_config); break; } case UCS_XRM_RC_TYPE_MLB_SOCKET: { Ucs_Xrm_MlbSocket_t *m = (Ucs_Xrm_MlbSocket_t *)resource_ptr; assert(m->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): MLB socket %s, direction=%d, type=%d,"\ " bandwidth=%d, channel=%d", 6, adr, msg, m->direction, m->data_type, m->bandwidth, m->channel_address); break; } case UCS_XRM_RC_TYPE_USB_PORT: { Ucs_Xrm_UsbPort_t *m = (Ucs_Xrm_UsbPort_t *)resource_ptr; assert(m->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): USB port %s, in-cnt=%d, out-cnt=%d", 4, adr, msg, m->streaming_if_ep_in_count, m->streaming_if_ep_out_count); break; } case UCS_XRM_RC_TYPE_USB_SOCKET: { Ucs_Xrm_UsbSocket_t *m = (Ucs_Xrm_UsbSocket_t *)resource_ptr; assert(m->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): USB socket %s, direction=%d, type=%d," \ " ep-addr=%02X, frames=%d", 6, adr, msg, m->direction, m->data_type, m->end_point_addr, m->frames_per_transfer); break; } case UCS_XRM_RC_TYPE_STRM_PORT: { Ucs_Xrm_StrmPort_t *m = (Ucs_Xrm_StrmPort_t *)resource_ptr; assert(m->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): I2S port %s, index=%d, clock=%d, "\ "align=%d", 5, adr, msg, m->index, m->clock_config, m->data_alignment); break; } case UCS_XRM_RC_TYPE_STRM_SOCKET: { Ucs_Xrm_StrmSocket_t *m = (Ucs_Xrm_StrmSocket_t *)resource_ptr; assert(m->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): I2S socket %s, direction=%d, type=%d"\ ", bandwidth=%d, pin=%d", 6, adr, msg, m->direction, m->data_type, m->bandwidth, m->stream_pin_id); break; } case UCS_XRM_RC_TYPE_SYNC_CON: { Ucs_Xrm_SyncCon_t *m = (Ucs_Xrm_SyncCon_t *)resource_ptr; assert(m->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): Sync connection %s, mute=%d, "\ "offset=%d", 4, adr, msg, m->mute_mode, m->offset); break; } case UCS_XRM_RC_TYPE_COMBINER: { Ucs_Xrm_Combiner_t *m = (Ucs_Xrm_Combiner_t *)resource_ptr; assert(m->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): Combiner %s, bytes per frame=%d", 3, adr, msg, m->bytes_per_frame); break; } case UCS_XRM_RC_TYPE_SPLITTER: { Ucs_Xrm_Splitter_t *m = (Ucs_Xrm_Splitter_t *)resource_ptr; assert(m->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): Splitter %s, bytes per frame=%d", 3, adr, msg, m->bytes_per_frame); break; } case UCS_XRM_RC_TYPE_AVP_CON: { Ucs_Xrm_AvpCon_t *m = (Ucs_Xrm_AvpCon_t *)resource_ptr; assert(m->resource_type == resource_type); UCSI_CB_OnUserMessage(my->tag, false, "Xrm-Debug (0x%03X): Isoc-AVP connection %s, packetSize=%d", 3, adr, msg, m->isoc_packet_size); break; } default: UCSI_CB_OnUserMessage(my->tag, true, "Xrm-Debug (0x%03X): Unknown type=%d %s", 3 , adr, resource_type, msg); } #endif } static void OnUcsInitResult(Ucs_InitResult_t result, void *user_ptr) { UnicensCmdEntry_t e; UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); my->initialized = (UCS_INIT_RES_SUCCESS == result); OnCommandExecuted(my, UnicensCmd_Init); if (!my->initialized) { UCSI_CB_OnUserMessage(my->tag, true, "UcsInitResult reported error (0x%X), restarting...", 1, result); e.cmd = UnicensCmd_Init; e.val.Init.init_ptr = &my->uniInitData; EnqueueCommand(my, &e); } } static void OnUcsStopResult(Ucs_StdResult_t result, void *user_ptr) { UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; result = result; /*TODO: check error case*/ assert(MAGIC == my->magic); my->initialized = false; OnCommandExecuted(my, UnicensCmd_Stop); UCSI_CB_OnStop(my->tag); } static void OnUcsGpioPortCreate(uint16_t node_address, uint16_t gpio_port_handle, Ucs_Gpio_Result_t result, void *user_ptr) { UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); OnCommandExecuted(my, UnicensCmd_GpioCreatePort); } static void OnUcsGpioPortWrite(uint16_t node_address, uint16_t gpio_port_handle, uint16_t current_state, uint16_t sticky_state, Ucs_Gpio_Result_t result, void *user_ptr) { UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); OnCommandExecuted(my, UnicensCmd_GpioWritePort); } static void OnUcsMgrReport(Ucs_MgrReport_t code, uint16_t node_address, Ucs_Rm_Node_t *node_ptr, void *user_ptr) { UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); switch (code) { case UCS_MGR_REP_IGNORED_UNKNOWN: UCSI_CB_OnUserMessage(my->tag, false, "Node=%X: Ignored, because unknown", 1, node_address); break; case UCS_MGR_REP_IGNORED_DUPLICATE: UCSI_CB_OnUserMessage(my->tag, true, "Node=%X: Ignored, because duplicated", 1, node_address); break; case UCS_MGR_REP_AVAILABLE: { UnicensCmdEntry_t e; UCSI_CB_OnUserMessage(my->tag, false, "Node=%X: Available", 1, node_address); /* Enable usage of remote GPIO ports */ e.cmd = UnicensCmd_GpioCreatePort; e.val.GpioCreatePort.destination = node_address; e.val.GpioCreatePort.debounceTime = 20; EnqueueCommand(my, &e); /* Execute scripts, if there are any */ if (node_ptr && node_ptr->script_list_ptr && node_ptr->script_list_size) { e.cmd = UnicensCmd_NsRun; e.val.NsRun.node_ptr = node_ptr; EnqueueCommand(my, &e); } break; } case UCS_MGR_REP_NOT_AVAILABLE: UCSI_CB_OnUserMessage(my->tag, false, "Node=%X: Not available", 1, node_address); break; default: UCSI_CB_OnUserMessage(my->tag, true, "Node=%X: unknown code", 1, node_address); break; } UCSI_CB_OnMgrReport(my->tag, code, node_address, node_ptr); } static void OnUcsNsRun(Ucs_Rm_Node_t * node_ptr, Ucs_Ns_ResultCode_t result, void *ucs_user_ptr) { UCSI_Data_t *my; #ifndef DEBUG_XRM node_ptr = node_ptr; result = result; ucs_user_ptr; #else my = (UCSI_Data_t *)ucs_user_ptr; assert(MAGIC == my->magic); UCSI_CB_OnUserMessage(my->tag, false, "OnUcsNsRun (%03X): script executed %s", 2, node_ptr->signature_ptr->node_address, (UCS_NS_RES_SUCCESS == result ? "succeeded" : "false")); #endif } static void OnUcsAmsRxMsgReceived(void *user_ptr) { UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); UCSI_CB_OnAmsMessageReceived(my->tag); } static void OnUcsGpioTriggerEventStatus(uint16_t node_address, uint16_t gpio_port_handle, uint16_t rising_edges, uint16_t falling_edges, uint16_t levels, void * user_ptr) { uint8_t i; UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); for (i = 0; i < 16; i++) { if (0 != ((rising_edges >> i) & 0x1)) UCSI_CB_OnGpioStateChange(my->tag, node_address, i, true); if (0 != ((falling_edges >> i) & 0x1)) UCSI_CB_OnGpioStateChange(my->tag, node_address, i, false); } } static void OnUcsI2CWrite(uint16_t node_address, uint16_t i2c_port_handle, uint8_t i2c_slave_address, uint8_t data_len, Ucs_I2c_Result_t result, void *user_ptr) { UCSI_Data_t *my = (UCSI_Data_t *)user_ptr; assert(MAGIC == my->magic); if ((my->currentCmd->cmd == UnicensCmd_I2CWrite) && (my->currentCmd->val.I2CWrite.result_fptr)) { my->currentCmd->val.I2CWrite.result_fptr(&result.code, my->currentCmd->val.I2CWrite.request_ptr); } else { assert(false); } OnCommandExecuted(my, UnicensCmd_I2CWrite); if (UCS_I2C_RES_SUCCESS != result.code) UCSI_CB_OnUserMessage(my->tag, true, "Remote I2C Write to node=0x%X failed", 1, node_address); } /************************************************************************/ /* Debug Message output from UNICENS stack: */ /************************************************************************/ #if defined(UCS_TR_ERROR) || defined(UCS_TR_INFO) #include <stdio.h> #define TRACE_BUFFER_SZ 200 void App_TraceError(void *ucs_user_ptr, const char module_str[], const char entry_str[], uint16_t vargs_cnt, ...) { va_list argptr; char outbuf[TRACE_BUFFER_SZ]; void *tag = NULL; UCSI_Data_t *my = (UCSI_Data_t *)ucs_user_ptr; if (my) { assert(MAGIC == my->magic); tag = my->tag; } va_start(argptr, vargs_cnt); vsprintf(outbuf, entry_str, argptr); va_end(argptr); UCSI_CB_OnUserMessage(tag, true, "Error | %s | %s", 2, module_str, outbuf); } void App_TraceInfo(void *ucs_user_ptr, const char module_str[], const char entry_str[], uint16_t vargs_cnt, ...) { va_list argptr; char outbuf[TRACE_BUFFER_SZ]; void *tag = NULL; UCSI_Data_t *my = (UCSI_Data_t *)ucs_user_ptr; if (my) { assert(MAGIC == my->magic); tag = my->tag; } va_start(argptr, vargs_cnt); vsprintf(outbuf, entry_str, argptr); va_end(argptr); UCSI_CB_OnUserMessage(tag, false, "Info | %s | %s", 2, module_str, outbuf); } #endif