/*------------------------------------------------------------------------------------------------*/
/* UNICENS V2.1.0-3491 */
/* Copyright (c) 2017 Microchip Technology Germany II GmbH & Co. KG. */
/* */
/* This program is free software: you can redistribute it and/or modify */
/* it under the terms of the GNU General Public License as published by */
/* the Free Software Foundation, either version 2 of the License, or */
/* (at your option) any later version. */
/* */
/* This program is distributed in the hope that it will be useful, */
/* but WITHOUT ANY WARRANTY; without even the implied warranty of */
/* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
/* GNU General Public License for more details. */
/* */
/* You should have received a copy of the GNU General Public License */
/* along with this program. If not, see . */
/* */
/* You may also obtain this software under a propriety license from Microchip. */
/* Please contact Microchip for further information. */
/*------------------------------------------------------------------------------------------------*/
/*!
* \file
* \brief Implementation of the Extended Resource Manager. This file contains the implementation of
* the INIC Resource Management functions and result/error handlers.
* \cond UCS_INTERNAL_DOC
* \addtogroup G_UCS_XRM_INT
* @{
*/
/*------------------------------------------------------------------------------------------------*/
/* Includes */
/*------------------------------------------------------------------------------------------------*/
#include "ucs_xrm.h"
#include "ucs_xrm_pv.h"
#include "ucs_xrm_cfg.h"
#include "ucs_misc.h"
/*------------------------------------------------------------------------------------------------*/
/* Internal prototypes */
/*------------------------------------------------------------------------------------------------*/
static uint16_t Xrm_CreatePortHandle(CExtendedResourceManager *self,
Ucs_Xrm_PortType_t port_type,
uint8_t index);
/*------------------------------------------------------------------------------------------------*/
/* Implementation of class CExtendedResourceManager (Handling of resource objects) */
/*------------------------------------------------------------------------------------------------*/
/*! \brief Creates the corresponding INIC port handle depending on the given port type and the
* given port instance id.
* \param self Instance pointer
* \param port_type Type of the port
* \param index Port instance id
* \return Returns the created INIC port handle.
*/
static uint16_t Xrm_CreatePortHandle(CExtendedResourceManager *self,
Ucs_Xrm_PortType_t port_type,
uint8_t index)
{
MISC_UNUSED(self);
return ((uint16_t)((uint16_t)port_type << 8) | (uint16_t)index);
}
/*! \brief Activates remote synchronization on the current device
* \param self Instance pointer
* \param next_set_event Next event to set once the remote synchronization succeeded
* \return Possible return values are shown in the table below.
* Value | Description
* ------------------------- | ------------------------------------
* UCS_RET_SUCCESS | No error
* UCS_RET_ERR_BUFFER_OVERFLOW | no message buffer available
*/
extern Ucs_Return_t Xrm_RemoteDeviceAttach (CExtendedResourceManager *self, Srv_Event_t next_set_event)
{
Ucs_Return_t result;
result = Rsm_SyncDev(self->rsm_ptr, self, &Xrm_RmtDevAttachResultCb);
if(result == UCS_RET_SUCCESS)
{
self->queued_event_mask |= next_set_event;
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start Synchronization of remote device", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, next_set_event);
}
return result;
}
/*! \brief Triggers the creation of a MOST socket.
* \param self Instance pointer
*/
void Xrm_CreateMostSocket(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_MostSocket_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_MostSocket_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
uint16_t con_label = (cfg_ptr->direction == UCS_SOCKET_DIR_INPUT) ? self->current_job_ptr->most_network_connection_label : 0xFFFFU;
Ucs_Return_t result = Inic_MostSocketCreate(self->inic_ptr,
cfg_ptr->most_port_handle,
cfg_ptr->direction,
cfg_ptr->data_type,
cfg_ptr->bandwidth,
con_label,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating MOST socket", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_MOST_SOCKET;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating MOST socket failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of the MediaLB port.
* \param self Instance pointer
*/
void Xrm_CreateMlbPort(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_MlbPort_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_MlbPort_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
Ucs_Return_t result = Inic_MlbPortCreate(self->inic_ptr,
cfg_ptr->index,
cfg_ptr->clock_config,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating MediaLB port", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_MLB_PORT;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating MediaLB port failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of a MediaLB socket.
* \param self Instance pointer
*/
void Xrm_CreateMlbSocket(CExtendedResourceManager *self)
{
Ucs_Return_t result;
uint16_t mlb_port_handle;
UCS_XRM_CONST Ucs_Xrm_MlbSocket_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_MlbSocket_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
if(Xrm_IsDefaultCreatedPort(self, cfg_ptr->mlb_port_obj_ptr) != false)
{
mlb_port_handle = Xrm_CreatePortHandle(self,
UCS_XRM_PORT_TYPE_MLB,
((UCS_XRM_CONST Ucs_Xrm_DefaultCreatedPort_t *)(UCS_XRM_CONST void*)(cfg_ptr->mlb_port_obj_ptr))->index);
}
else
{
mlb_port_handle= Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->mlb_port_obj_ptr, NULL);
}
result = Inic_MlbSocketCreate(self->inic_ptr,
mlb_port_handle,
cfg_ptr->direction,
cfg_ptr->data_type,
cfg_ptr->bandwidth,
cfg_ptr->channel_address,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating MediaLB socket", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_MLB_SOCKET;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating MediaLB socket failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of the USB port.
* \param self Instance pointer
*/
void Xrm_CreateUsbPort(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_UsbPort_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_UsbPort_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
Ucs_Return_t result = Inic_UsbPortCreate(self->inic_ptr,
cfg_ptr->index,
cfg_ptr->physical_layer,
cfg_ptr->devices_interfaces,
cfg_ptr->streaming_if_ep_out_count,
cfg_ptr->streaming_if_ep_in_count,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating USB port", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_USB_PORT;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating USB port failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of a USB socket.
* \param self Instance pointer
*/
void Xrm_CreateUsbSocket(CExtendedResourceManager *self)
{
Ucs_Return_t result;
uint16_t usb_port_handle;
UCS_XRM_CONST Ucs_Xrm_UsbSocket_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_UsbSocket_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
if(Xrm_IsDefaultCreatedPort(self, cfg_ptr->usb_port_obj_ptr) != false)
{
usb_port_handle = Xrm_CreatePortHandle(self,
UCS_XRM_PORT_TYPE_USB,
((UCS_XRM_CONST Ucs_Xrm_DefaultCreatedPort_t *)(UCS_XRM_CONST void*)(cfg_ptr->usb_port_obj_ptr))->index);
}
else
{
usb_port_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->usb_port_obj_ptr, NULL);
}
result = Inic_UsbSocketCreate(self->inic_ptr,
usb_port_handle,
cfg_ptr->direction,
cfg_ptr->data_type,
cfg_ptr->end_point_addr,
cfg_ptr->frames_per_transfer,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating USB socket", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_USB_SOCKET;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating USB socket failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of the RMCK port.
* \param self Instance pointer
*/
void Xrm_CreateRmckPort(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_RmckPort_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_RmckPort_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
Ucs_Return_t result = Inic_RmckPortCreate(self->inic_ptr,
cfg_ptr->index,
cfg_ptr->clock_source,
cfg_ptr->divisor,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating RMCK port", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_RMCK_PORT;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating RMCK port failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of a streaming port.
* \param self Instance pointer
*/
void Xrm_CreateStreamPort(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_StrmPort_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_StrmPort_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
Ucs_Return_t result = Inic_StreamPortCreate(self->inic_ptr,
cfg_ptr->index,
cfg_ptr->clock_config,
cfg_ptr->data_alignment,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating streaming port", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_STRM_PORT;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating streaming port failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of a streaming data socket.
* \param self Instance pointer
*/
void Xrm_CreateStreamSocket(CExtendedResourceManager *self)
{
Ucs_Return_t result;
uint16_t stream_port_handle;
UCS_XRM_CONST Ucs_Xrm_StrmSocket_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_StrmSocket_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
if(Xrm_IsDefaultCreatedPort(self, cfg_ptr->stream_port_obj_ptr) != false)
{
stream_port_handle = Xrm_CreatePortHandle(self,
UCS_XRM_PORT_TYPE_STRM,
((UCS_XRM_CONST Ucs_Xrm_DefaultCreatedPort_t *)(UCS_XRM_CONST void*)(cfg_ptr->stream_port_obj_ptr))->index);
}
else
{
stream_port_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->stream_port_obj_ptr, NULL);
}
result = Inic_StreamSocketCreate(self->inic_ptr,
stream_port_handle,
cfg_ptr->direction,
cfg_ptr->data_type,
cfg_ptr->bandwidth,
cfg_ptr->stream_pin_id,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating streaming data socket", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_STRM_SOCKET;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating streaming data socket failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of a synchronous data connection.
* \param self Instance pointer
*/
void Xrm_CreateSyncCon(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_SyncCon_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_SyncCon_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
uint16_t in_socket_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->socket_in_obj_ptr, NULL);
uint16_t out_socket_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->socket_out_obj_ptr, NULL);
Ucs_Return_t result = Inic_SyncCreate(self->inic_ptr,
in_socket_handle,
out_socket_handle,
false,
cfg_ptr->mute_mode,
cfg_ptr->offset,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating synchronous data connection", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_SYNC_CON;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating synchronous data connection failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of a DiscreteFrame Isochronous streaming phase connection.
* \param self Instance pointer
*/
void Xrm_CreateDfiPhaseCon(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_DfiPhaseCon_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_DfiPhaseCon_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
uint16_t in_socket_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->socket_in_obj_ptr, NULL);
uint16_t out_socket_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->socket_out_obj_ptr, NULL);
Ucs_Return_t result = Inic_DfiPhaseCreate(self->inic_ptr,
in_socket_handle,
out_socket_handle,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating DFIPhase connection", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_DFIPHASE_CON;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating DFIPhase connection failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of a combiner resource.
* \param self Instance pointer
*/
void Xrm_CreateCombiner(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_Combiner_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_Combiner_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
uint16_t port_socket_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->port_socket_obj_ptr, NULL);
Ucs_Return_t result = Inic_CombinerCreate(self->inic_ptr,
port_socket_handle,
cfg_ptr->most_port_handle,
cfg_ptr->bytes_per_frame,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating combiner resource", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_COMBINER;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating combiner resource failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of a splitter resource.
* \param self Instance pointer
*/
void Xrm_CreateSplitter(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_Splitter_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_Splitter_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
uint16_t socket_handle_in = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->socket_in_obj_ptr, NULL);
Ucs_Return_t result = Inic_SplitterCreate(self->inic_ptr,
socket_handle_in,
cfg_ptr->most_port_handle,
cfg_ptr->bytes_per_frame,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating splitter resource", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_SPLITTER;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating splitter resource failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of a A/V packetized isochronous streaming data connection.
* \param self Instance pointer
*/
void Xrm_CreateAvpCon(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_AvpCon_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_AvpCon_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
uint16_t in_socket_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->socket_in_obj_ptr, NULL);
uint16_t out_socket_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->socket_out_obj_ptr, NULL);
Ucs_Return_t result = Inic_AvpCreate(self->inic_ptr,
in_socket_handle,
out_socket_handle,
cfg_ptr->isoc_packet_size,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating A/V packetized isochronous streaming data connection", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_AVP_CON;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating A/V packetized isochronous streaming data connection failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Triggers the creation of a Quality of Service IP streaming data connection.
* \param self Instance pointer
*/
void Xrm_CreateQoSCon(CExtendedResourceManager *self)
{
UCS_XRM_CONST Ucs_Xrm_QoSCon_t *cfg_ptr = (UCS_XRM_CONST Ucs_Xrm_QoSCon_t *)(UCS_XRM_CONST void*)(*self->current_obj_pptr);
uint16_t in_socket_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->socket_in_obj_ptr, NULL);
uint16_t out_socket_handle = Xrm_GetResourceHandle(self, self->current_job_ptr, cfg_ptr->socket_out_obj_ptr, NULL);
Ucs_Return_t result = Inic_QoSCreate(self->inic_ptr,
in_socket_handle,
out_socket_handle,
&self->obs.std_result_obs);
if(result == UCS_RET_SUCCESS)
{
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating QoS IP streaming data connection", 0U));
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_PROCESS);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_BUILD;
self->report_result.details.resource_type = UCS_XRM_RC_TYPE_QOS_CON;
self->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self,
self->current_job_ptr,
self->current_obj_pptr);
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Xrm_HandleError(self);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start creating QoS IP streaming data connection failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Process the result of the INIC resource monitor.
* \param self Instance pointer
* \param result_ptr Reference to result data. Result must be casted into data type
* Inic_StdResult_t.
*/
void Xrm_ResourceMonitorCb(void *self, void *result_ptr)
{
CExtendedResourceManager *self_ = (CExtendedResourceManager *)self;
Inic_StdResult_t *result_ptr_ = (Inic_StdResult_t *)result_ptr;
if((result_ptr_->result.code == UCS_RES_SUCCESS) && (result_ptr_->data_info != NULL))
{
Ucs_Resource_MonitorState_t state = *((Ucs_Resource_MonitorState_t *)result_ptr_->data_info);
if(state == UCS_INIC_RES_MON_STATE_ACT_REQ)
{
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_REQ_INV_RES_LST);
}
else if((state == UCS_INIC_RES_MON_STATE_OK) && (self_->obs.check_unmute_fptr != NULL))
{
self_->obs.check_unmute_fptr(Inic_GetTargetAddress(self_->inic_ptr), self_->base_ptr->ucs_user_ptr);
}
}
}
/*! \brief Retrieves the list of invalid resources.
* \param self Instance pointer
*/
void Xrm_RequestResourceList(CExtendedResourceManager *self)
{
if(Xrm_IsApiFree(self) != false)
{
Ucs_Return_t result;
result = Inic_ResourceInvalidList_Get(self->inic_ptr,
&self->obs.resource_invalid_list_obs);
if(result == UCS_RET_SUCCESS)
{
Xrm_ApiLocking(self, true);
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_REQ_INV_RES_LST);
}
else
{
self->report_result.code = UCS_XRM_RES_ERR_INV_LIST;
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Srv_SetEvent(&self->xrm_srv, XRM_EVENT_ERROR);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start requesting invalid resources failed. Return value: 0x%02X", 1U, result));
}
}
else
{
Srv_SetEvent(&self->xrm_srv, XRM_EVENT_REQ_INV_RES_LST);
}
}
/*! \brief Process the received list of invalid resources.
* \param self Instance pointer
* \param result_ptr Reference to result data. Result must be casted into data type
* Inic_StdResult_t.
*/
void Xrm_RequestResourceListResultCb(void *self, void *result_ptr)
{
CExtendedResourceManager *self_ = (CExtendedResourceManager *)self;
Inic_StdResult_t *result_ptr_ = (Inic_StdResult_t *)result_ptr;
if((result_ptr_->result.code == UCS_RES_SUCCESS) && (result_ptr_->data_info != NULL))
{
Inic_ResHandleList_t resource_handle_list = *((Inic_ResHandleList_t *)result_ptr_->data_info);
if((resource_handle_list.res_handles != NULL) && (resource_handle_list.num_handles > 0U))
{
MISC_MEM_CPY(&self_->inv_resource_handle_list[0],
&resource_handle_list.res_handles[0],
(resource_handle_list.num_handles * sizeof(resource_handle_list.res_handles[0])));
}
self_->inv_resource_handle_list_size = resource_handle_list.num_handles;
self_->inv_resource_handle_index = 0U;
Xrmp_Foreach(self_->xrmp_ptr, &Xrm_SetCurrJobPtr, &resource_handle_list.res_handles[0], NULL, self);
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_DESTROY_INV_RES);
}
else
{
self_->report_result.code = UCS_XRM_RES_ERR_INV_LIST;
if (result_ptr_->result.code == UCS_RES_ERR_TRANSMISSION)
{
self_->report_result.details.tx_result = *(Ucs_MsgTxStatus_t *)(result_ptr_->data_info);
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_TX;
}
else
{
self_->report_result.details.tx_result = UCS_MSG_STAT_OK;
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_TGT;
}
self_->report_result.details.inic_result = result_ptr_->result;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_ERROR);
TR_ERROR((self_->base_ptr->ucs_user_ptr, "[XRM]", "Request of invalid resources failed. Return value: 0x%02X", 1U, result_ptr_->result.code));
TR_ERROR_INIC_RESULT(self_->base_ptr->ucs_user_ptr, "[XRM]", result_ptr_->result.info_ptr, result_ptr_->result.info_size);
}
Xrm_ApiLocking(self_, false);
}
/*! \brief Triggers the destruction of INIC resources.
* \param self Instance pointer
* \param result_fptr Result callback function pointer
*/
void Xrm_DestroyResources(CExtendedResourceManager *self, Sobs_UpdateCb_t result_fptr)
{
Ucs_Return_t result;
Inic_ResHandleList_t list;
list.res_handles = &self->inv_resource_handle_list[self->inv_resource_handle_index];
if (self->inv_resource_handle_list_size > MAX_INVALID_HANDLES_LIST)
{
list.num_handles = MAX_INVALID_HANDLES_LIST;
self->curr_dest_resource_handle_size = list.num_handles;
}
else
{
list.num_handles = self->inv_resource_handle_list_size;
self->curr_dest_resource_handle_size = list.num_handles;
if(self->inv_resource_handle_list[(self->inv_resource_handle_index + self->inv_resource_handle_list_size) - 1U] == XRM_INVALID_RESOURCE_HANDLE)
{
list.num_handles--;
}
}
Sobs_Ctor(&self->obs.resource_destroy_obs, self, result_fptr);
result = Inic_ResourceDestroy(self->inic_ptr,
list,
&self->obs.resource_destroy_obs);
if(result == UCS_RET_SUCCESS)
{
/* No error */
#ifdef UCS_TR_INFO
uint8_t i;
TR_INFO((self->base_ptr->ucs_user_ptr, "[XRM]", "Destruction of invalid resource handles been successfully started:", 0U));
for(i=0U; ibase_ptr->ucs_user_ptr, "[XRM]", "--> Handle: 0x%04X", 1U, list.res_handles[i]));
}
#endif
}
else if (result == UCS_RET_ERR_PARAM)
{
/* empty list */
if ((list.num_handles == 0U) && (list.res_handles[0] == XRM_INVALID_RESOURCE_HANDLE))
{
self->inv_resource_handle_list_size = 0U;
Srv_SetEvent(&self->xrm_srv, XRM_EVENT_RESET_RES_MONITOR);
}
}
else if(result == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_DESTROY_INV_RES);
}
else
{
self->inv_resource_handle_list_size = 0U;
self->report_result.code = UCS_XRM_RES_ERR_DESTROY;
self->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self->report_result.details.int_result = result;
Srv_SetEvent(&self->xrm_srv, XRM_EVENT_ERROR);
TR_ERROR((self->base_ptr->ucs_user_ptr, "[XRM]", "Start destroying invalid resources failed. Return value: 0x%02X", 1U, result));
}
}
/*! \brief Resets the INIC's Resource Monitor.
* \param self Instance pointer
*/
void Xrm_ResetResourceMonitor(CExtendedResourceManager *self)
{
Ucs_Return_t result = Inic_ResourceMonitor_Set(self->inic_ptr, UCS_INIC_RES_MON_CTRL_RESET);
if(result == UCS_RET_SUCCESS)
{
Srv_SetEvent(&self->xrm_srv, XRM_EVENT_NOTIFY_AUTO_DEST_RES);
}
else
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_RESET_RES_MONITOR);
}
}
/*! \brief Handles the result of resource destructions.
* \param self Instance pointer
* \param result_ptr Reference to result data. Result must be casted into data type
* Inic_StdResult_t.
*/
void Xrm_DestroyResourcesResultCb(void *self, void *result_ptr)
{
CExtendedResourceManager *self_ = (CExtendedResourceManager *)self;
Inic_StdResult_t *result_ptr_ = (Inic_StdResult_t *)result_ptr;
if(result_ptr_->result.code == UCS_RES_SUCCESS)
{
(void)Xrm_ReleaseResourceHandles(self_,
NULL,
&self_->inv_resource_handle_list[self_->inv_resource_handle_index],
self_->curr_dest_resource_handle_size,
XRM_INVALID_RESOURCE_HANDLE);
if (self_->inv_resource_handle_list_size >= self_->curr_dest_resource_handle_size)
{
self_->inv_resource_handle_list_size -= self_->curr_dest_resource_handle_size;
if (self_->inv_resource_handle_list_size > 0U)
{
self_->inv_resource_handle_index += self_->curr_dest_resource_handle_size;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_DESTROY_INV_RES);
}
else
{
if(self_->inv_resource_handle_list[(self_->inv_resource_handle_index + self_->curr_dest_resource_handle_size) - 1U] != XRM_INVALID_RESOURCE_HANDLE)
{
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_REQ_INV_RES_LST);
}
else
{
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_RESET_RES_MONITOR);
}
TR_INFO((self_->base_ptr->ucs_user_ptr, "[XRM]", "INIC resources been successfully destroyed.", 0U));
}
}
else
{
self_->inv_resource_handle_list_size = 0U;
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self_->report_result.details.tx_result = UCS_MSG_STAT_OK;
self_->report_result.code = UCS_XRM_RES_ERR_DESTROY;
self_->report_result.details.inic_result = result_ptr_->result;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_ERROR);
TR_ERROR((self_->base_ptr->ucs_user_ptr, "[XRM]", "Destruction of invalid resources failed. Internal resources handles List is corrupted", 0U));
}
}
else if(result_ptr_->result.code == UCS_RES_ERR_BUSY)
{
uint8_t stop_index;
uint16_t failed_resource_handle;
MISC_DECODE_WORD(&(failed_resource_handle), &(result_ptr_->result.info_ptr[3]));
stop_index = Xrm_ReleaseResourceHandles(self_,
NULL,
&self_->inv_resource_handle_list[self_->inv_resource_handle_index],
self_->curr_dest_resource_handle_size,
failed_resource_handle);
if (stop_index > 0U)
{
self_->inv_resource_handle_index = stop_index;
self_->inv_resource_handle_list_size -= stop_index;
}
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_DESTROY_INV_RES);
}
else
{
self_->inv_resource_handle_list_size = 0U;
if (result_ptr_->result.code == UCS_RES_ERR_TRANSMISSION)
{
self_->report_result.details.tx_result = *(Ucs_MsgTxStatus_t *)(result_ptr_->data_info);
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_TX;
}
else
{
self_->report_result.details.tx_result = UCS_MSG_STAT_OK;
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_TGT;
}
self_->report_result.code = UCS_XRM_RES_ERR_DESTROY;
self_->report_result.details.inic_result = result_ptr_->result;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_ERROR);
TR_ERROR((self_->base_ptr->ucs_user_ptr, "[XRM]", "Destruction of invalid resources failed. Return value: 0x%02X", 1U, result_ptr_->result.code));
TR_ERROR_INIC_RESULT(self_->base_ptr->ucs_user_ptr, "[XRM]", result_ptr_->result.info_ptr, result_ptr_->result.info_size);
}
}
/*! \brief Handles the result of resource destructions for all resources of a job.
* \param self Instance pointer
* \param result_ptr Reference to result data. Result must be casted into data type
* Inic_StdResult_t.
*/
void Xrm_DestroyJobResourcesResultCb(void *self, void *result_ptr)
{
CExtendedResourceManager *self_ = (CExtendedResourceManager *)self;
Inic_StdResult_t *result_ptr_ = (Inic_StdResult_t *)result_ptr;
if(result_ptr_->result.code == UCS_RES_SUCCESS)
{
(void)Xrm_ReleaseResourceHandles(self_,
self_->current_job_ptr,
&self_->inv_resource_handle_list[self_->inv_resource_handle_index],
self_->curr_dest_resource_handle_size,
XRM_INVALID_RESOURCE_HANDLE);
if (self_->inv_resource_handle_list_size >= self_->curr_dest_resource_handle_size)
{
self_->inv_resource_handle_list_size -= self_->curr_dest_resource_handle_size;
self_->inv_resource_handle_index = 0U;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_RESUME_JOB_DESTRUCT);
TR_INFO((self_->base_ptr->ucs_user_ptr, "[XRM]", "INIC resources been successfully destroyed.", 0U));
}
else
{
self_->inv_resource_handle_list_size = 0U;
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_INT;
self_->report_result.details.tx_result = UCS_MSG_STAT_OK;
self_->report_result.code = UCS_XRM_RES_ERR_DESTROY;
self_->report_result.details.inic_result = result_ptr_->result;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_ERROR);
TR_ERROR((self_->base_ptr->ucs_user_ptr, "[XRM]", "Destruction of invalid resources failed. Internal resources handles List is corrupted", 0U));
}
}
else if(result_ptr_->result.code == UCS_RES_ERR_BUSY)
{
uint16_t failed_handle;
MISC_DECODE_WORD(&(failed_handle), &(result_ptr_->result.info_ptr[3]));
(void)Xrm_ReleaseResourceHandles(self_,
NULL,
&self_->inv_resource_handle_list[self_->inv_resource_handle_index],
self_->curr_dest_resource_handle_size,
failed_handle);
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_RESUME_JOB_DESTRUCT);
}
else
{
self_->inv_resource_handle_list_size = 0U;
if (result_ptr_->result.code == UCS_RES_ERR_TRANSMISSION)
{
self_->report_result.details.tx_result = *(Ucs_MsgTxStatus_t *)(result_ptr_->data_info);
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_TX;
}
else
{
self_->report_result.details.tx_result = UCS_MSG_STAT_OK;
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_TGT;
}
self_->report_result.code = UCS_XRM_RES_ERR_DESTROY;
self_->report_result.details.inic_result = result_ptr_->result;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_ERROR);
TR_ERROR((self_->base_ptr->ucs_user_ptr, "[XRM]", "Destruction of invalid resources failed. Return value: 0x%02X", 1U, result_ptr_->result.code));
TR_ERROR_INIC_RESULT(self_->base_ptr->ucs_user_ptr, "[XRM]", result_ptr_->result.info_ptr, result_ptr_->result.info_size);
}
}
/*! \brief Handles the result of "create port", "create socket" and "create connection" operations.
* \param self Instance pointer
* \param result_ptr Reference to result data. Result must be casted into data type
* Inic_StdResult_t.
*/
void Xrm_StdResultCb(void *self, void *result_ptr)
{
CExtendedResourceManager *self_ = (CExtendedResourceManager *)self;
Inic_StdResult_t *result_ptr_ = (Inic_StdResult_t *)result_ptr;
if((result_ptr_->result.code == UCS_RES_SUCCESS) && (result_ptr_->data_info != NULL))
{
uint16_t resource_handle = 0U;
if(*(UCS_XRM_CONST Ucs_Xrm_ResourceType_t *)(UCS_XRM_CONST void*)(*self_->current_obj_pptr) == UCS_XRM_RC_TYPE_MOST_SOCKET)
{
Inic_MostSocketCreate_Result_t res_ack = {0U, 0U};
res_ack = *((Inic_MostSocketCreate_Result_t *)result_ptr_->data_info);
resource_handle = res_ack.most_socket_handle;
self_->current_job_ptr->connection_label = res_ack.conn_label;
}
else
{
resource_handle = *((uint16_t *)result_ptr_->data_info);
}
if(Xrm_StoreResourceHandle(self_, resource_handle, self_->current_job_ptr, *self_->current_obj_pptr) != false)
{
if (self_->res_debugging_fptr != NULL)
{
self_->res_debugging_fptr(*(UCS_XRM_CONST Ucs_Xrm_ResourceType_t *)(UCS_XRM_CONST void*)(*self_->current_obj_pptr), *self_->current_obj_pptr, UCS_XRM_INFOS_BUILT,
self_->current_job_ptr->user_arg, self_->base_ptr->ucs_user_ptr);
}
self_->current_obj_pptr++;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_PROCESS);
TR_INFO((self_->base_ptr->ucs_user_ptr, "[XRM]", "Resource has been successfully created. Handle: 0x%04X", 1U, resource_handle));
}
else
{
self_->report_result.code = UCS_XRM_RES_ERR_CONFIG;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_ERROR);
TR_ERROR((self_->base_ptr->ucs_user_ptr, "[XRM]", "Misconfiguration. Resource handle list is too small.", 0U));
}
}
else
{
self_->current_job_ptr->valid = false;
if (result_ptr_->result.code == UCS_RES_ERR_TRANSMISSION)
{
self_->report_result.details.tx_result = *(Ucs_MsgTxStatus_t *)(result_ptr_->data_info);
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_TX;
}
else
{
self_->report_result.details.tx_result = UCS_MSG_STAT_OK;
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_TGT;
}
self_->report_result.code = UCS_XRM_RES_ERR_BUILD;
self_->report_result.details.resource_type = *(UCS_XRM_CONST Ucs_Xrm_ResourceType_t *)(UCS_XRM_CONST void*)(*self_->current_obj_pptr);
self_->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self_,
self_->current_job_ptr,
self_->current_obj_pptr);
self_->report_result.details.inic_result = result_ptr_->result;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_ERROR);
if (self_->res_debugging_fptr != NULL)
{
self_->res_debugging_fptr(*(UCS_XRM_CONST Ucs_Xrm_ResourceType_t *)(UCS_XRM_CONST void*)(*self_->current_obj_pptr),
*self_->current_obj_pptr, UCS_XRM_INFOS_ERR_BUILT, self_->current_job_ptr->user_arg, self_->base_ptr->ucs_user_ptr);
}
TR_ERROR((self_->base_ptr->ucs_user_ptr, "[XRM]", "Creation of resource failed. Result code: 0x%02X", 1U, result_ptr_->result.code));
if (result_ptr_->result.info_ptr != NULL)
{
TR_ERROR_INIC_RESULT(self_->base_ptr->ucs_user_ptr, "[XRM]", result_ptr_->result.info_ptr, result_ptr_->result.info_size);
}
}
}
/*! \brief Handles the result of "device.sync" operations.
* \param self Instance pointer
* \param result RSM result
*/
void Xrm_RmtDevAttachResultCb(void *self, Rsm_Result_t result)
{
CExtendedResourceManager *self_ = (CExtendedResourceManager *)self;
if (result.code == RSM_RES_SUCCESS)
{
Srv_SetEvent(&self_->xrm_srv, self_->queued_event_mask);
self_->queued_event_mask = 0U;
TR_INFO((self_->base_ptr->ucs_user_ptr, "[XRM]", "Remote device has been successfully synchronized.", 0U));
}
else
{
/* In case of StreamingConfig, simulate an error configuration since there
* is currently no possibility to signal SyncLost
*/
if ((self_->queued_event_mask == XRM_EVENT_STREAMPORT_CONFIG_SET) ||
(self_->queued_event_mask == XRM_EVENT_STREAMPORT_CONFIG_GET))
{
Inic_StdResult_t sim_inic_res;
sim_inic_res.result.code = result.details.inic_result.code;
sim_inic_res.result.info_ptr = NULL;
sim_inic_res.result.info_size = 0U;
sim_inic_res.data_info = NULL;
self_->queued_event_mask = 0U;
/* Force a Notification of the Streaming observer */
self_->obs.stream_port_config_fptr = self_->current_streamport_config.result_fptr;
self_->obs.stream_port_config_obs.update_fptr(self, &sim_inic_res);
}
else
{
if (result.details.inic_result.code == UCS_RES_ERR_TRANSMISSION)
{
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_TX;
}
else
{
self_->report_result.details.result_type = UCS_XRM_RESULT_TYPE_TGT;
}
self_->report_result.code = UCS_XRM_RES_ERR_SYNC;
self_->report_result.details.inic_result.code = result.details.inic_result.code;
self_->report_result.details.inic_result.info_ptr = result.details.inic_result.info_ptr;
self_->report_result.details.inic_result.info_size = result.details.inic_result.info_size;
self_->report_result.details.resource_type = *(UCS_XRM_CONST Ucs_Xrm_ResourceType_t *)(UCS_XRM_CONST void*)(*self_->current_obj_pptr);
self_->report_result.details.resource_index = Xrm_GetResourceObjectIndex(self_,
self_->current_job_ptr,
self_->current_obj_pptr);
self_->report_result.details.tx_result = (Ucs_MsgTxStatus_t)result.details.tx_result;
self_->queued_event_mask = 0U;
Srv_SetEvent(&self_->xrm_srv, XRM_EVENT_ERROR);
TR_ERROR((self_->base_ptr->ucs_user_ptr, "[XRM]", "Synchronization to the remote device failed. Result code: 0x%02X", 1U, result));
}
}
}
/*------------------------------------------------------------------------------------------------*/
/* Implementation of class CExtendedResourceManager (INIC Resource Management API) */
/*------------------------------------------------------------------------------------------------*/
/*! \brief This function is used to configure a Streaming Port.
* \param self Instance pointer
* \param index Streaming Port instance.
* \param op_mode Operation mode of the Streaming Port.
* \param port_option Direction of the physical pins of the indexed Streaming Port.
* \param clock_mode Configuration of the FSY/SCK signals.
* \param clock_data_delay Configuration of the FSY/SCK signals for Generic Streaming.
* \param result_fptr Required result callback
* \return Possible return values are shown in the table below.
* Value | Description
* --------------------------- | ------------------------------------
* UCS_RET_SUCCESS | No error
* UCS_RET_ERR_PARAM | Invalid callback pointer
* UCS_RET_ERR_BUFFER_OVERFLOW | No message buffer available
* UCS_RET_ERR_API_LOCKED | API is currently locked
*/
Ucs_Return_t Xrm_Stream_SetPortConfig(CExtendedResourceManager *self,
uint8_t index,
Ucs_Stream_PortOpMode_t op_mode,
Ucs_Stream_PortOption_t port_option,
Ucs_Stream_PortClockMode_t clock_mode,
Ucs_Stream_PortClockDataDelay_t clock_data_delay,
Ucs_Xrm_Stream_PortCfgResCb_t result_fptr)
{
Ucs_Return_t ret_val = UCS_RET_ERR_API_LOCKED;
if ((self != NULL) && (result_fptr != NULL) )
{
if(Xrm_IsApiFree(self) != false)
{
Xrm_ApiLocking(self, true);
self->current_streamport_config.index = index;
self->current_streamport_config.op_mode = op_mode;
self->current_streamport_config.port_option = port_option;
self->current_streamport_config.clock_mode = clock_mode;
self->current_streamport_config.clock_data_delay = clock_data_delay;
self->current_streamport_config.result_fptr = result_fptr;
ret_val = Xrm_SetStreamPortConfiguration(self);
}
}
else
{
ret_val = UCS_RET_ERR_PARAM;
}
return ret_val;
}
/*! \brief This function is used to configure a Streaming Port.
* \param self Instance pointer
* \return Possible return values are shown in the table below.
* Value | Description
* --------------------------- | ------------------------------------
* UCS_RET_SUCCESS | No error
* UCS_RET_ERR_PARAM | Invalid callback pointer
* UCS_RET_ERR_BUFFER_OVERFLOW | No message buffer available
* UCS_RET_ERR_API_LOCKED | API is currently locked
*/
Ucs_Return_t Xrm_SetStreamPortConfiguration (CExtendedResourceManager *self)
{
Ucs_Return_t ret_val = UCS_RET_ERR_NOT_INITIALIZED;
if (Xrm_IsCurrDeviceAlreadyAttached(self) == false)
{
ret_val = Xrm_RemoteDeviceAttach(self, XRM_EVENT_STREAMPORT_CONFIG_SET);
}
else
{
ret_val = Inic_StreamPortConfig_SetGet(self->inic_ptr,
self->current_streamport_config.index,
self->current_streamport_config.op_mode,
self->current_streamport_config.port_option,
self->current_streamport_config.clock_mode,
self->current_streamport_config.clock_data_delay,
&self->obs.stream_port_config_obs);
if(ret_val == UCS_RET_SUCCESS)
{
self->obs.stream_port_config_fptr = self->current_streamport_config.result_fptr;
}
else if(ret_val == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_STREAMPORT_CONFIG_SET);
}
else if (ret_val == UCS_RET_ERR_API_LOCKED)
{
Xrm_ApiLocking(self, false);
}
}
return ret_val;
}
/*! \brief This function requests the configurations of a Streaming Port.
* \param self Instance pointer
* \param index Streaming Port instance.
* \param result_fptr Required result callback
* \return Possible return values are shown in the table below.
* Value | Description
* --------------------------- | ----------------------------------------------
* UCS_RET_SUCCESS | No error
* UCS_RET_ERR_PARAM | At least one parameter is wrong
* UCS_RET_ERR_BUFFER_OVERFLOW | No message buffer available
* UCS_RET_ERR_API_LOCKED | API is currently locked
* UCS_RET_ERR_NOT_AVAILABLE | Associated device not found
*/
Ucs_Return_t Xrm_Stream_GetPortConfig(CExtendedResourceManager *self,
uint8_t index,
Ucs_Xrm_Stream_PortCfgResCb_t result_fptr)
{
Ucs_Return_t ret_val = UCS_RET_ERR_API_LOCKED;
if((self != NULL) && (result_fptr != NULL) )
{
if(Xrm_IsApiFree(self) != false)
{
Xrm_ApiLocking(self, true);
self->current_streamport_config.index = index;
self->current_streamport_config.result_fptr = result_fptr;
ret_val = Xrm_GetStreamPortConfiguration(self);
if (ret_val == UCS_RET_ERR_API_LOCKED)
{
/* from another process locked */
Xrm_ApiLocking(self, false);
}
}
}
else
{
ret_val = UCS_RET_ERR_PARAM;
}
return ret_val;
}
/*! \brief This function is used to configure a Streaming Port.
* \param self Instance pointer
* \return Possible return values are shown in the table below.
* Value | Description
* --------------------------- | ------------------------------------
* UCS_RET_SUCCESS | No error
* UCS_RET_ERR_PARAM | Invalid callback pointer
* UCS_RET_ERR_BUFFER_OVERFLOW | No message buffer available
*/
Ucs_Return_t Xrm_GetStreamPortConfiguration (CExtendedResourceManager *self)
{
Ucs_Return_t ret_val = UCS_RET_ERR_NOT_INITIALIZED;
if (Xrm_IsCurrDeviceAlreadyAttached(self) == false)
{
ret_val = Xrm_RemoteDeviceAttach(self, XRM_EVENT_STREAMPORT_CONFIG_GET);
}
else
{
ret_val = Inic_StreamPortConfig_Get(self->inic_ptr,
self->current_streamport_config.index,
&self->obs.stream_port_config_obs);
if(ret_val == UCS_RET_SUCCESS)
{
self->obs.stream_port_config_fptr = self->current_streamport_config.result_fptr;
}
else if(ret_val == UCS_RET_ERR_BUFFER_OVERFLOW)
{
Xrm_WaitForTxMsgObj(self, XRM_EVENT_STREAMPORT_CONFIG_GET);
}
}
return ret_val;
}
/*! \brief Observer callback for Inic_StreamPortConfig_Get(). Casts the result and invokes
* the application result callback.
* \param self Instance pointer
* \param result_ptr Reference to result
*/
void Xrm_Stream_PortConfigResult(void *self, void *result_ptr)
{
CExtendedResourceManager *self_ = (CExtendedResourceManager *)self;
Inic_StreamPortConfigStatus_t status;
Inic_StdResult_t *result_ptr_ = (Inic_StdResult_t *)result_ptr;
Ucs_StdResult_t res = result_ptr_->result;
if(self_->obs.stream_port_config_fptr != NULL)
{
if((result_ptr_->result.code == UCS_RES_SUCCESS) && (result_ptr_->data_info != NULL))
{
status = *((Inic_StreamPortConfigStatus_t *)result_ptr_->data_info);
}
else
{
/* Fill param callback function with default (dummy) values */
status.index = 0x00U;
status.op_mode = UCS_STREAM_PORT_OP_MODE_GENERIC;
status.port_option = UCS_STREAM_PORT_OPT_IN_OUT;
status.clock_mode = UCS_STREAM_PORT_CLK_MODE_OUTPUT;
status.clock_data_delay = UCS_STREAM_PORT_CLK_DLY_NONE;
}
self_->obs.stream_port_config_fptr(Inic_GetTargetAddress(self_->inic_ptr),
status.index,
status.op_mode,
status.port_option,
status.clock_mode,
status.clock_data_delay,
res,
self_->base_ptr->ucs_user_ptr);
}
Xrm_ApiLocking(self_, false);
}
/*! \brief Enables or disables a specific MOST Network Port.
* \param self Instance pointer
* \param most_port_handle Port resource handle.
* \param enabled State of the MOST Port.
* \param result_fptr Optional result callback.
* \return Possible return values are shown in the table below.
* Value | Description
* --------------------------- | ------------------------------------
* UCS_RET_SUCCESS | No error
* UCS_RET_ERR_BUFFER_OVERFLOW | No message buffer available
* UCS_RET_ERR_API_LOCKED | API is currently locked
* UCS_RET_ERR_NOT_INITIALIZED | UNICENS is not initialized
*/
Ucs_Return_t Xrm_Most_EnablePort(CExtendedResourceManager *self,
uint16_t most_port_handle,
bool enabled,
Ucs_StdResultCb_t result_fptr)
{
Ucs_Return_t ret_val = UCS_RET_ERR_NOT_INITIALIZED;
if(Xrm_IsApiFree(self) != false)
{
ret_val = Inic_MostPortEnable(self->inic_ptr,
most_port_handle,
enabled,
&self->obs.most_port_enable_obs);
if(ret_val == UCS_RET_SUCCESS)
{
self->obs.most_port_enable_fptr = result_fptr;
}
}
return ret_val;
}
/*! \brief Enables full streaming for a specific MOST Network Port.
* \param self Instance pointer
* \param most_port_handle Port resource handle.
* \param enabled State of the MOST Port related to full streaming.
* \param result_fptr Optional result callback.
* \return Possible return values are shown in the table below.
* Value | Description
* --------------------------- | ------------------------------------
* UCS_RET_SUCCESS | No error
* UCS_RET_ERR_BUFFER_OVERFLOW | No message buffer available
* UCS_RET_ERR_API_LOCKED | API is currently locked
* UCS_RET_ERR_NOT_INITIALIZED | UNICENS is not initialized
*/
Ucs_Return_t Xrm_Most_PortEnFullStr(CExtendedResourceManager *self,
uint16_t most_port_handle,
bool enabled,
Ucs_StdResultCb_t result_fptr)
{
Ucs_Return_t ret_val = UCS_RET_ERR_NOT_INITIALIZED;
if(Xrm_IsApiFree(self) != false)
{
ret_val = Inic_MostPortEnFullStr(self->inic_ptr,
most_port_handle,
enabled,
&self->obs.most_port_en_full_str_obs);
if(ret_val == UCS_RET_SUCCESS)
{
self->obs.most_port_en_full_str_fptr = result_fptr;
}
}
return ret_val;
}
/*! \brief Observer callback for Inic_MostPortEnable(). Casts the result and invokes
* the application result callback.
* \param self Instance pointer
* \param result_ptr Reference to result
*/
void Xrm_Most_PortEnableResult(void *self, void *result_ptr)
{
CExtendedResourceManager *self_ = (CExtendedResourceManager *)self;
if(self_->obs.most_port_enable_fptr != NULL)
{
Inic_StdResult_t *result_ptr_ = (Inic_StdResult_t *)result_ptr;
self_->obs.most_port_enable_fptr(result_ptr_->result, self_->base_ptr->ucs_user_ptr);
}
}
/*! \brief Observer callback for Inic_MostPortEnFullStr(). Casts the result and invokes
* the application result callback.
* \param self Instance pointer
* \param result_ptr Reference to result
*/
void Xrm_Most_PortEnFullStrResult(void *self, void *result_ptr)
{
CExtendedResourceManager *self_ = (CExtendedResourceManager *)self;
if(self_->obs.most_port_en_full_str_fptr != NULL)
{
Inic_StdResult_t *result_ptr_ = (Inic_StdResult_t *)result_ptr;
self_->obs.most_port_en_full_str_fptr(result_ptr_->result, self_->base_ptr->ucs_user_ptr);
}
}
/*! \brief Sets the current job pointer of the CExtendedResourceManager instance.
* \param resrc_ptr Reference to the resource handle list to be looked for.
* \param resrc_handle Reference to the resource handle to be found.
* \param job_ptr Reference to the job to be looked for.
* \param user_arg Reference to a user argument.
* \return \c false to continue the for-each-loop of the resources list table, otherwise \c true
*/
bool Xrm_SetCurrJobPtr(void *resrc_ptr, void *resrc_handle, void *job_ptr, void * user_arg)
{
bool ret_val = false;
Xrm_ResourceHandleListItem_t * resrc_ptr_ = (Xrm_ResourceHandleListItem_t *)resrc_ptr;
uint16_t * resrc_handle_ = (uint16_t *)resrc_handle;
CExtendedResourceManager *self = (CExtendedResourceManager *)user_arg;
MISC_UNUSED(job_ptr);
if ((resrc_ptr_->resource_handle == *resrc_handle_) &&
(*resrc_handle_ != XRM_INVALID_RESOURCE_HANDLE) &&
(Dl_IsNodeInList(&self->job_list, &resrc_ptr_->job_ptr->node)))
{
self->current_job_ptr = resrc_ptr_->job_ptr;
ret_val = true;
}
return ret_val;
}
/*!
* @}
* \endcond
*/
/*------------------------------------------------------------------------------------------------*/
/* End of file */
/*------------------------------------------------------------------------------------------------*/