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#include "zcanreceiver.hpp"
#ifdef HAL_CAN_MODULE_ENABLED
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
using namespace iflytop;using namespace zcr;
#define TAG "ZCanCmder"
#define OVER_TIME_MS 5
uint16_t CanPacketRxBuffer::get_packetindex() { Cmdheader_t *cmdheader = (Cmdheader_t *)rxdata; return cmdheader->packetindex;}uint16_t CanPacketRxBuffer::get_cmdid() { Cmdheader_t *cmdheader = (Cmdheader_t *)rxdata; return cmdheader->cmdid;}uint8_t CanPacketRxBuffer::get_subcmdid() { Cmdheader_t *cmdheader = (Cmdheader_t *)rxdata; return cmdheader->subcmdid;}uint8_t CanPacketRxBuffer::get_packetType() { Cmdheader_t *cmdheader = (Cmdheader_t *)rxdata; return cmdheader->packetType;}uint8_t *CanPacketRxBuffer::get_data() { Cmdheader_t *cmdheader = (Cmdheader_t *)rxdata; return cmdheader->data;}uint16_t CanPacketRxBuffer::get_datalen() { Cmdheader_t *cmdheader = (Cmdheader_t *)rxdata; return rxdataSize - sizeof(Cmdheader_t);}
bool CanPacketRxBuffer::iscmd(CmdID_t id, uint8_t subcmdid) { Cmdheader_t *cmdheader = (Cmdheader_t *)rxdata; return cmdheader->cmdid == (uint16_t)id && cmdheader->subcmdid == subcmdid;}
Cmdheader_t* CanPacketRxBuffer::get_cmdheader() { Cmdheader_t *cmdheader = (Cmdheader_t *)rxdata; return cmdheader;}
ZCanCmder::CFG *ZCanCmder::createCFG(uint8_t deviceId) { CFG *cfg = new CFG(); ZASSERT(cfg != NULL); cfg->deviceId = deviceId;#ifdef STM32F103xB
cfg->canHandle = &hcan;#else
cfg->canHandle = &hcan1;#endif
cfg->canFilterIndex0 = 0; cfg->maxFilterNum = 7; cfg->rxfifoNum = CAN_RX_FIFO0; return cfg;}void ZCanCmder::init(CFG *cfg) { HAL_StatusTypeDef hal_status; m_config = cfg;
/**
* @brief ��ʼ��CAN */
/**
* @brief ��ʼ����Ϣ����buf */ m_canPacketRxBuffer[0].dataIsReady = false; m_canPacketRxBuffer[0].id = 1; // ֻ����������������Ϣ
m_canPacketRxBuffer[0].m_canPacketNum = 0;
/**
* @brief ��ʼ�������� */ hal_status = initializeFilter(); if (hal_status != HAL_OK) { ZLOGE(TAG, "start can initializeFilter fail\r\n"); return; } /**
* @brief ����CAN */ hal_status = HAL_CAN_Start(m_config->canHandle); // ����CAN
if (hal_status != HAL_OK) { ZLOGE(TAG, "start can fail\r\n"); return; } /**
* @brief �����ص� */ ZCanIRQDispatcher::instance().regListener(this); HAL_StatusTypeDef status = activateRxIT(); if (status != HAL_OK) { ZLOGE(TAG, "activateRxIT fail\r\n"); return; } // ZHALCORE::getInstance()->regPeriodJob([this](ZHALCORE::Context &context) { loop(); }, 0);
}HAL_StatusTypeDef ZCanCmder::initializeFilter() { /**
* @brief ID��֡��ʽ * [ 27:0 ] * [ STDID ] [ EXTID ] * [11 :9] [8:6] [5:0] [17:16] [15:8] [7:0] * ���ȼ� ���� ֡���� Ŀ��ID ԴID */ HAL_StatusTypeDef HAL_Status; CAN_FilterTypeDef sFilterConfig;
uint32_t filterId; uint32_t mask;
memset(&sFilterConfig, 0, sizeof(sFilterConfig)); sFilterConfig.FilterMode = CAN_FILTERMODE_IDMASK; // ��ΪMASKģʽ
sFilterConfig.FilterScale = CAN_FILTERSCALE_32BIT; // CAN_FILTERSCALE_16BIT
sFilterConfig.FilterFIFOAssignment = m_config->rxfifoNum; // ������������rxfifoNum
sFilterConfig.FilterActivation = ENABLE; // ����������
sFilterConfig.SlaveStartFilterBank = m_config->maxFilterNum; // slave filter start index
/*******************************************************************************
* ����������Ϣ * *******************************************************************************/ filterId = (0); //
mask = (0); //
sFilterConfig.FilterBank = m_config->canFilterIndex0; //
sFilterConfig.FilterMaskIdLow = mask & 0xffff; //
sFilterConfig.FilterMaskIdHigh = (mask & 0xffff0000) >> 16; //
sFilterConfig.FilterIdLow = filterId & 0xffff; //
sFilterConfig.FilterIdHigh = (filterId & 0xffff0000) >> 16; //
HAL_Status = HAL_CAN_ConfigFilter(m_config->canHandle, &sFilterConfig); if (HAL_Status != HAL_OK) { ZLOGE(TAG, "HAL_CAN_ConfigFilter filter0 fail"); return HAL_Status; } ZLOGI(TAG, "HAL_CAN_ConfigFilter filterID1 %08x", filterId >> 3); return HAL_Status;}
void ZCanCmder::registerListener(ZCanCmderListener *listener) { m_listenerList.push_back(listener); }void ZCanCmder::regListener(zcan_cmder_listener_t listener) { m_listenerList2.push_back(listener); }void ZCanCmder::sendPacket(uint8_t *packet, size_t len) { /**
* @brief */ int npacket = len / 8 + (len % 8 == 0 ? 0 : 1); if (npacket > 255) { ZLOGE(TAG, "sendPacket fail, len:%d", len); return; } int finalpacketlen = len % 8 == 0 ? 8 : len % 8;
for (uint8_t i = 0; i < npacket; i++) { bool suc = false; if (i == npacket - 1) { suc = sendPacketSub(npacket, i, packet + i * 8, finalpacketlen, OVER_TIME_MS); } else { suc = sendPacketSub(npacket, i, packet + i * 8, 8, OVER_TIME_MS); } if (!suc) { ZLOGE(TAG, "sendPacket fail, packet(%d:%d)", npacket, i); return; } }}
void ZCanCmder::sendAck(Cmdheader_t *cmdheader, uint8_t *data, size_t len) { Cmdheader_t *txheader = (Cmdheader_t *)txbuff; memcpy(txheader, cmdheader, sizeof(Cmdheader_t)); txheader->packetType = kpt_ack; memcpy(txheader->data, data, len); sendPacket(txbuff, sizeof(Cmdheader_t) + len);}
void ZCanCmder::sendErrorAck(Cmdheader_t *cmdheader, int16_t errcode) { Cmdheader_t *txheader = (Cmdheader_t *)txbuff; memcpy(txheader, cmdheader, sizeof(Cmdheader_t)); txheader->packetType = kpt_error_ack; sendPacket(txbuff, sizeof(Cmdheader_t) + 2);}
bool ZCanCmder::sendPacketSub(int npacket, int packetIndex, uint8_t *packet, size_t len, int overtimems) { CAN_TxHeaderTypeDef pHeader; uint8_t aData[8] /*8byte table*/; uint32_t txMailBox = 0;
uint32_t enterticket = zos_get_tick();
memset(&pHeader, 0, sizeof(pHeader)); memset(aData, 0, sizeof(aData)); pHeader.StdId = 0x00; pHeader.ExtId = (m_config->deviceId << 16) | (npacket << 8) | packetIndex; pHeader.IDE = CAN_ID_EXT; pHeader.RTR = CAN_RTR_DATA; pHeader.DLC = len; pHeader.TransmitGlobalTime = DISABLE;
memcpy(aData, packet, len);
m_lastTransmitStatus = HAL_CAN_AddTxMessage(m_config->canHandle, &pHeader, aData, &txMailBox); if (m_lastTransmitStatus != HAL_OK) { ZLOGE(TAG, "HAL_CAN_AddTxMessage fail"); return false; }
while (HAL_CAN_IsTxMessagePending(m_config->canHandle, txMailBox)) { if (zos_haspassedms(enterticket) > (uint32_t)overtimems) { m_lastTransmitStatus = HAL_TIMEOUT; HAL_CAN_AbortTxRequest(m_config->canHandle, txMailBox); return false; } // m_os->sleepMS(1);
} return true;}
bool ZCanCmder::getRxMessage(CAN_RxHeaderTypeDef *pHeader, uint8_t aData[] /*8byte table*/) { /**
* @brief ��ȡ��ǰFIFO�л����˶���֡������ */ uint32_t level = HAL_CAN_GetRxFifoFillLevel(m_config->canHandle, m_config->rxfifoNum); if (level == 0) { return false; } HAL_StatusTypeDef HAL_RetVal; HAL_RetVal = HAL_CAN_GetRxMessage(m_config->canHandle, m_config->rxfifoNum, pHeader, aData); if (HAL_OK == HAL_RetVal) { // �������յ���can��������
return true; } return false;}void ZCanCmder::STM32_HAL_onCAN_RxFifo0MsgPending(CAN_HandleTypeDef *canHandle) { /**
* @brief ������� */ // ZLOG_INFO("%s\n", __FUNCTION__);
// printf("------------------%s\n", __FUNCTION__);
if (canHandle != m_config->canHandle) { return; } /**
* @brief ����can���յ���Ϣ */ CAN_RxHeaderTypeDef pHeader; uint8_t aData[8] /*8byte table*/; while (getRxMessage(&pHeader, aData)) { /**
* @brief ��Ϣ��ʽ * * [2] [3bit] [8bit] [8bit] [8bit] * , from frameNum frameId */ uint8_t from = (pHeader.ExtId >> 16 & 0xFF); uint8_t nframe = (pHeader.ExtId & 0xFF00) >> 8; uint8_t frameId = (pHeader.ExtId & 0x00FF); CanPacketRxBuffer *rxbuf = &m_canPacketRxBuffer[0]; if (from != rxbuf->id) { // Ŀǰֻ����������������Ϣ
continue; }
if (rxbuf->dataIsReady) { // �ϴν��յ�����Ϣ��û�����ļ�����
continue; } /**
* @TODO:�ж��Ƿ� */ if (frameId == 0) { rxbuf->m_canPacketNum = 0; }
if (rxbuf->m_canPacketNum < 255) { rxbuf->m_canPacket[rxbuf->m_canPacketNum].pHeader = pHeader; memcpy(rxbuf->m_canPacket[rxbuf->m_canPacketNum].aData, aData, 8); rxbuf->m_canPacketNum++; } if (nframe == frameId + 1) { rxbuf->dataIsReady = true; } }
// deactivateRxIT();
}void ZCanCmder::STM32_HAL_onCAN_Error(CAN_HandleTypeDef *canHandle) { if (canHandle != m_config->canHandle) { return; } ZLOGE(TAG, "onCAN_Error\r\n");}void ZCanCmder::loop() { CanPacketRxBuffer *rxbuf = &m_canPacketRxBuffer[0]; if (rxbuf->dataIsReady) { int dataoff = 0; for (size_t i = 0; i < rxbuf->m_canPacketNum; i++) { memcpy(rxbuf->rxdata + dataoff, rxbuf->m_canPacket[i].aData, rxbuf->m_canPacket[i].pHeader.DLC); dataoff += rxbuf->m_canPacket[i].pHeader.DLC; } rxbuf->rxdataSize = dataoff;
for (auto &var : m_listenerList) { var->onRceivePacket(rxbuf); }
for (auto &var : m_listenerList2) { var(rxbuf); }
rxbuf->dataIsReady = false; }}HAL_StatusTypeDef ZCanCmder::activateRxIT() { HAL_StatusTypeDef hal_status = HAL_ERROR; if (m_config->rxfifoNum == CAN_RX_FIFO0) { hal_status = HAL_CAN_ActivateNotification(m_config->canHandle, CAN_IT_RX_FIFO0_MSG_PENDING); } else if (m_config->rxfifoNum == CAN_RX_FIFO1) { hal_status = HAL_CAN_ActivateNotification(m_config->canHandle, CAN_IT_RX_FIFO1_MSG_PENDING); } else { ZLOGE(TAG, "start can HAL_CAN_ActivateNotification CAN_IT_RX_FIFO0_MSG_PENDING fail\r\n"); return hal_status; } return hal_status;}HAL_StatusTypeDef ZCanCmder::deactivateRxIT() { HAL_StatusTypeDef hal_status = HAL_ERROR; if (m_config->rxfifoNum == CAN_RX_FIFO0) { hal_status = HAL_CAN_DeactivateNotification(m_config->canHandle, CAN_IT_RX_FIFO0_MSG_PENDING); } else if (m_config->rxfifoNum == CAN_RX_FIFO1) { hal_status = HAL_CAN_DeactivateNotification(m_config->canHandle, CAN_IT_RX_FIFO1_MSG_PENDING); } else { ZLOGE(TAG, "start can HAL_CAN_ActivateNotification CAN_IT_RX_FIFO0_MSG_PENDING fail\r\n"); return hal_status; } return hal_status;}
#endif
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