1 files changed, 372 insertions, 0 deletions
diff --git a/can_hal/src/can_hal_core.cpp b/can_hal/src/can_hal_core.cpp
new file mode 100644
index 00000000..bdbdbbce
--- /dev/null
+++ b/can_hal/src/can_hal_core.cpp
@@ -0,0 +1,372 @@
+/*
+ * @copyright Copyright (c) 2017-2020 TOYOTA MOTOR 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 "can_hal.h"
+#include "can_hal_core.h"
+#include "can_hal_internal.h"
+#include "can_hal_frameworkunifiedlog.h"
+#include "can_hal_stm.h"
+extern "C" {
+  #include "can_mng_api.h"
+}
+#include <native_service/ns_message_center_if.h>
+#include <native_service/frameworkunified_framework_if.h>
+#include <native_service/frameworkunified_multithreading.h>
+#include <stdio.h>
+#include <pthread.h>
+#include <string>
+
+static CanCtlApiObj g_driver_obj;        // can driver handler
+
+typedef struct MessageWrapper {
+  HANDLE h_app;
+  void *message;
+} MessageWrapper;
+
+// define frame
+enum CANHAL_FRAME {
+  CANHAL_FRAME_SF = 0x00,
+  CANHAL_FRAME_FF,
+  CANHAL_FRAME_CF,
+  CANHAL_FRAME_NONE = 0xFF,
+};
+
+// Declaration of the local functions
+static EFrameworkunifiedStatus CanSendData(HANDLE h_app);
+static UINT8 PackageSendData(const CanMessage *send_msg,
+                            UINT8 *send_cmd);
+static UINT8 PackageRecvData(const UINT8 *recv_data, CanMessage *message);
+static uint32_t GetCanId(const UINT8 *recv_data);
+
+#define CANHAL_VALID_NUM_INDEX   0x00
+#define CANHAL_CANID_HI_INDEX    0x00
+#define CANHAL_CANID_LO_INDEX    0x01
+#define CANHAL_DLC_INDEX         0x02
+#define CANHAL_DATA_START_INDEX  0x03
+
+#define CANHAL_RECV_DATA_LENGTH_INVALID 0xFF
+
+#define CANHAL_RECV_DATABLOCK_SIZE                (0x0B)
+#define CANHAL_RECV_NTA_INDEX                     (0x03)
+
+// Register table for framework callback
+static const FrameworkunifiedProtocolCallbackHandler kCanHalPcbhs[] = {
+  { TX_INTERNAL, CanSendData },
+};
+
+void *CanHalPackMessage(HANDLE h_app, const void *msg, ssize_t msg_sz,
+                        ssize_t *packed_sz) {
+  *packed_sz = msg_sz + sizeof(ssize_t) + sizeof(HANDLE);
+  void *p = malloc(*packed_sz);
+  if (p) {
+    char *_p = (char *)p;
+    // Set HANDLE to new buffer.
+    memcpy(_p, &h_app, sizeof(HANDLE));
+    // Set message size to new buffer
+    _p += sizeof(HANDLE);
+    *(ssize_t *)_p = msg_sz;
+    // Set message body to new buffer
+    _p += (sizeof(ssize_t));
+    memcpy(_p, msg, msg_sz);
+  }
+  return p;
+}
+
+void CanHalUnPackMessage(void *packed, HANDLE *h_app, void **msg,
+                         ssize_t *msg_sz) {
+  char *_p = (char *)packed;
+  *h_app = *(HANDLE *)_p;
+  _p += sizeof(HANDLE);
+  *msg_sz = *((ssize_t *)_p);
+  _p += sizeof(ssize_t);
+  *msg = _p;
+}
+
+void CanHalDestroyPackedMessage(void *packed) {
+  free(packed);
+}
+
+// Start function of the receive thread
+void *CanRecvRun(void *arg) {
+  UINT8 data_start_index = 0;
+  UINT8 loop_num = 0;
+  UINT32 ret = 0;
+  CanCtlApiCmd recv_cmd;
+  memset(&recv_cmd, 0x00, sizeof(CanCtlApiCmd));
+  CanMessage recv_data_can;
+  memset(&recv_data_can, 0x00, sizeof(recv_data_can));
+  enum CanHalType *type = (enum CanHalType *)arg;
+
+  while (1) {
+    // call driver API to receive the can data
+    ret = CanCtlApiRcvCmd(&g_driver_obj, &recv_cmd);
+    if (CAN_CTL_RET_SUCCESS != ret) {
+      continue;
+    }
+
+    /**
+     * Receive data in the following structure:
+     *           -----------------
+     * BYTE 01  | num of can data |
+     *           -----------------
+     * BYTE 02  | CAN ID (Hi)     |
+     *           -----------------
+     * BYTE 03  | CAN ID (Lo)     |
+     *           -----------------
+     * BYTE 04  | DLC             |
+     *           -----------------
+     * BYTE 05  | DATA #1         |
+     *           -----------------
+     *          | ...             |
+     *           -----------------
+     * BYTE 12  | DATA #8         |
+     *           -----------------
+     * BYTE 13  | CAN ID (Hi)     |
+     *           -----------------
+     * BYTE 14  | CAN ID (Lo)     |
+     *           -----------------
+     * BYTE 15  | DLC             |
+     *           -----------------
+     * BYTE 16  | DATA #1         |
+     *           -----------------
+     *          | ...             |
+     *           -----------------
+     * BYTE 23  | DATA #8         |
+     *           -----------------
+     *          | ...             |
+     *           -----------------
+     * BYTE 255 |                 |
+     *           -----------------
+     *
+     * BYTE 0 for the invalid number of the can data
+     * CAN ID (Hi) and (Lo) combine for the CAN ID
+     * CAN ID (Hi) byte's low 7 bits is the high 7 bits of the CAN ID
+     * CAN ID (Lo) byte's high 4 bits is the low 4 bits of the CAN ID
+     * DLC for the length of the following data
+     * DATA #1 ~ #8 for the receive data, its actual length changes
+     *   according to the previous DLC byte
+     */
+    UINT8 total_data_num = recv_cmd.data[CANHAL_VALID_NUM_INDEX];
+    data_start_index = 1;
+
+    for (loop_num = 0; loop_num < total_data_num; loop_num++) {
+      uint32_t can_id;
+      can_id = GetCanId(&(recv_cmd.data[data_start_index]));
+
+      // normal can
+      // Return value of the PackageRecvData is the total length
+      //   of one can data package, so add to the data_start_index
+      //   for the next can data package.
+      ret = PackageRecvData(&(recv_cmd.data[data_start_index]),
+                            &recv_data_can);
+      if (CANHAL_RECV_DATA_LENGTH_INVALID == ret) {
+        continue;
+      }
+      data_start_index += ret;
+      CanHalReceiveNotify(*type, &(recv_data_can), sizeof(recv_data_can));
+    }
+
+    // reset buffer
+    memset(&recv_cmd, 0x00, sizeof(CanCtlApiCmd));
+    usleep(1000);
+  }
+
+  return NULL;
+}
+
+// get can id from recive buffer
+static uint32_t GetCanId(const UINT8 *recv_data) {
+  uint32_t can_id;
+  can_id = (recv_data[CANHAL_CANID_HI_INDEX] & 0x7F);
+  can_id <<= 4;
+  can_id |= ((recv_data[CANHAL_CANID_LO_INDEX] & 0xF0) >> 4);
+  return can_id;
+}
+
+static CANHAL_RET_API CanOpenCoreCAN(void) {
+  CanCtlRcvId recv_can_id;
+  memset(recv_can_id.id, 0xFF, sizeof(recv_can_id.id));
+  if (CAN_CTL_RET_SUCCESS != CanCtlApiOpen(&g_driver_obj))
+    return CANHAL_RET_ERR_ERR;
+
+  if (CAN_CTL_RET_SUCCESS != CanCtlApiSetRcvId(&g_driver_obj, &recv_can_id)) {
+    return CANHAL_RET_ERR_ERR;
+  }
+
+  return CANHAL_RET_NORMAL;
+}
+
+CANHAL_RET_API CanOpenCore(CanHalType type) {
+  CANHAL_RET_API ret = CANHAL_RET_ERR_ERR;
+  switch (type) {
+  case CAN_HAL_TYPE_CAN:
+    ret = CanOpenCoreCAN();
+    break;
+  default:
+    // Do nothing
+    break;
+  }
+  return ret;
+}
+
+// Initialize the sending thread
+EFrameworkunifiedStatus CanSendThreadStart(HANDLE h_app) {
+  EFrameworkunifiedStatus e_status = eFrameworkunifiedStatusOK;
+  intptr_t ptr;
+  e_status = FrameworkunifiedAttachCallbacksToDispatcher(h_app,
+                                            FRAMEWORKUNIFIED_ANY_SOURCE,
+                                            kCanHalPcbhs,
+                                            _countof(kCanHalPcbhs));
+  if (e_status != eFrameworkunifiedStatusOK)
+    goto finish;
+  
+  e_status = FrameworkunifiedGetMsgDataOfSize(h_app, &ptr, sizeof(ptr));
+  if (e_status != eFrameworkunifiedStatusOK)
+    goto finish;
+
+  *((HANDLE *)ptr) = FrameworkunifiedMcOpenSender(h_app, FrameworkunifiedGetAppName(h_app));
+  if (!(*(HANDLE *)ptr))
+    e_status = eFrameworkunifiedStatusFail;
+
+finish:
+  return e_status;
+}
+
+// Clean the sending thread
+EFrameworkunifiedStatus CanSendThreadStop(HANDLE h_app) {
+  EFrameworkunifiedStatus e_status = eFrameworkunifiedStatusOK;
+  intptr_t ptr;
+  e_status = FrameworkunifiedGetMsgDataOfSize(h_app, &ptr, sizeof(ptr));
+  if (e_status != eFrameworkunifiedStatusOK)
+    goto finish;
+
+  FrameworkunifiedMcClose(*((HANDLE*)ptr));
+finish:
+  return e_status;
+}
+
+static CANHAL_RET_API CanCloseCoreCAN(void) {
+  CanCtlApiClose(&g_driver_obj);
+  return CANHAL_RET_NORMAL;
+}
+
+// Stop the can hal
+CANHAL_RET_API CanCloseCore(CanHalType type) {
+  CANHAL_RET_API ret = CANHAL_RET_NORMAL;
+  switch (type) {
+  case CAN_HAL_TYPE_CAN:
+    ret = CanCloseCoreCAN();
+    if (ret != CANHAL_RET_NORMAL)
+      goto finish;
+    break;
+  default:
+    goto finish;
+    break;
+  }
+finish:
+  return ret;
+}
+
+// Callback for the sending thread to send the can data
+static EFrameworkunifiedStatus CanSendData(HANDLE h_app) {
+  UINT8 ret = 0;
+  EFrameworkunifiedStatus e_status = eFrameworkunifiedStatusOK;
+  HANDLE hb = NULL;
+  CanMessage mb;
+  ssize_t sz = 0;
+  void *send_msg = NULL;
+  HANDLE unpacked_h_app;
+  CanMessage *unpacked_msg;
+  ssize_t unpacked_sz;
+
+  send_msg = CanHalPackMessage(hb, (const void *)&mb, sizeof(mb), &sz);
+  if (!send_msg)
+    return eFrameworkunifiedStatusFail;
+
+  e_status = FrameworkunifiedGetMsgDataOfSize(h_app, send_msg, sz, eSMRRelease);
+  if (eFrameworkunifiedStatusOK != e_status) {
+    if (eFrameworkunifiedStatusInvldBufSize == e_status) {
+      FrameworkunifiedClearMsgData(h_app);
+    }
+    return eFrameworkunifiedStatusFail;
+  }
+
+  CanHalUnPackMessage(send_msg, &unpacked_h_app,
+                      (void **)&unpacked_msg, &unpacked_sz);
+
+  CanCtlApiCmd send_can_data;
+  memset(&send_can_data, 0, sizeof(CanCtlApiCmd));
+  send_can_data.data[CANHAL_VALID_NUM_INDEX] = 1;
+  ret = PackageSendData(unpacked_msg, &(send_can_data.data[1]));
+  send_can_data.len = ret + 1;
+  CanSendResult send_result;
+  send_result.can_id = unpacked_msg->can_id;
+  send_result.rid = unpacked_msg->rid;
+
+  if (CAN_CTL_RET_SUCCESS == CanCtlApiSndCmd(&g_driver_obj, &send_can_data)) {
+    send_result.result = CAN_SEND_RESULT_SUCCESS;
+  } else {
+    send_result.result = CAN_SEND_RESULT_FAILURE;
+  }
+  FRAMEWORKUNIFIEDLOG(ZONE_INFO, __FUNCTION__, "Send status is %d.", send_result.result);
+
+  if (CANHAL_RET_NORMAL != CanHalSendStatus(CAN_HAL_TYPE_CAN,
+                           unpacked_h_app, &send_result, sizeof(send_result))) {
+    CanHalDestroyPackedMessage(send_msg);
+    return eFrameworkunifiedStatusFail;
+  }
+
+  CanHalDestroyPackedMessage(send_msg);
+  return eFrameworkunifiedStatusOK;
+}
+
+/**
+ * param [in]  send_msg
+ * param [out] send_can_data
+ */
+static UINT8 PackageSendData(const CanMessage *send_msg,
+                             UINT8 *send_can_data) {
+  // package according to the rule of the data structure,
+  //   refer to the line 108 and 109
+  send_can_data[CANHAL_CANID_HI_INDEX] = (send_msg->can_id & 0x7F0) >> 4;
+  send_can_data[CANHAL_CANID_LO_INDEX] = (send_msg->can_id & 0x0F) << 4;
+  send_can_data[CANHAL_DLC_INDEX] = send_msg->dlc;
+  memcpy(&(send_can_data[CANHAL_DATA_START_INDEX]),
+         send_msg->data,
+         send_msg->dlc);
+  return (send_msg->dlc + CANHAL_DATA_START_INDEX);
+}
+
+/**
+ * param [in]  recv_data
+ * param [out] message
+ */
+static UINT8 PackageRecvData(const UINT8 *recv_data, CanMessage *message) {
+  if (CAN_NORMAL_MESSAGE_LEN < recv_data[CANHAL_DLC_INDEX]) {
+    // receive data's length is invalid
+    return CANHAL_RECV_DATA_LENGTH_INVALID;
+  }
+  // package according to the rule of the data structure,
+  //   refer to the line 108 and 109
+  message->can_id = recv_data[CANHAL_CANID_HI_INDEX] & 0x7F;
+  message->can_id <<= 4;
+  message->can_id |= (recv_data[CANHAL_CANID_LO_INDEX] & 0xF0) >> 4;
+  message->dlc = recv_data[CANHAL_DLC_INDEX];
+  memcpy(message->data, &(recv_data[CANHAL_DATA_START_INDEX]), CAN_NORMAL_MESSAGE_LEN);
+
+  return CANHAL_RECV_DATABLOCK_SIZE;
+}
+