FreeCalypso > hg > fc-tourmaline
view src/g23m-aci/bat/bat_l2p.c @ 294:e17bdedfbf2b
VIBR SWE initial implementation
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sun, 27 Mar 2022 08:46:10 +0000 |
| parents | fa8dc04885d8 |
| children |
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/* +----------------------------------------------------------------------------- | Project : | Modul : BAT +----------------------------------------------------------------------------- | Copyright 2005 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : This Modul holds the functions | for the L2P interface +----------------------------------------------------------------------------- */ #define _BAT_L2P_C_ /*==== INCLUDES =============================================================*/ #include "typedefs.h" #include "gdd.h" #include "gdd_sys.h" /* to get semaphore access */ #include "l2p_types.h" #include "l2p.h" #include "bat.h" #include "bat_ctrl.h" #include "bat_intern.h" /*==== DEFINES ===========================================================*/ #define ENTER_CRITICAL_SECTION(sem) if (bat_enter_critical_section(sem))return (NULL); #define LEAVE_CRITICAL_SECTION(sem) if (bat_leave_critical_section(sem))return -1; /*==== LOCAL VARS ===========================================================*/ /*==== LOCAL FUNCTIONS =====================================================*/ LOCAL void bat_semaphore_err (void) { static U8 out = 0; if (!out) { out = 1; BAT_TRACE_ERROR("semaphore error"); } } LOCAL int bat_enter_critical_section (T_HANDLE sem) { if (gdd_sys_sem_down (sem) NEQ VSI_OK) { bat_semaphore_err(); return -1; } else { return 0; } } LOCAL int bat_leave_critical_section (T_HANDLE sem) { if (gdd_sys_sem_up(sem) NEQ VSI_OK) { bat_semaphore_err(); return -1; } else { return 0; } } /* * we have to maintain some stuff for L2P_Receive(). */ LOCAL void bat_update_l2p_mt (T_BAT_instance_maintain *inst_mt, T_GDD_SEGMENT *desc, U16 length, BOOL substract) { BAT_TRACE_EVENT_P1("bat_update_l2p_mt(): segment len is %d", length); inst_mt->l2p_mt.desc = desc; if (substract) { inst_mt->l2p_mt.length = inst_mt->l2p_mt.length - length; } else { inst_mt->l2p_mt.length = length; } } LOCAL T_GDD_SEGMENT *bat_get_from_l2p_mt_desc (T_BAT_instance_maintain *inst_mt) { return (inst_mt->l2p_mt.desc); } LOCAL U16 bat_get_from_l2p_mt_length (T_BAT_instance_maintain *inst_mt) { return (inst_mt->l2p_mt.length); } /* +----------------------------------------------------------------------------+ | PROJECT : MODULE : BINARY AT COMMAND LIBRARY | | STATE : code ROUTINE : bat_l2p_receive | +----------------------------------------------------------------------------+ PURPOSE : This function is a wrapper around L2P_Receive to have all L2P related stuff in one module. */ BOOL bat_l2p_receive (U8 inst_hndl, T_GDD_BUF *buf) { T_BAT_instance_maintain *inst_mt = NULL; T_GDD_SEGMENT *seg = NULL; U16 length = 0; T_L2P_STATUS l2p_status; if (bat_get_instance_from_instance_handle(inst_hndl, &inst_mt)) { BAT_TRACE_ERROR ("bat_l2p_receive(): inst_hndl is not correct!"); return (FALSE); } inst_mt->buffer.gdd_buf_rcv = buf; BAT_TRACE_EVENT_P2 ("bat_l2p_receive(): data length: %d, has c_segment %d", buf->length, buf->c_segment); seg = buf->ptr_gdd_segment; ++seg; /* Skip first segment which is the protocol ID and not needed */ length = buf->length; bat_update_l2p_mt (inst_mt, seg, length, FALSE); /* * for the case that the BAT Module at ACI was not able to send BAT responses/indications, * it builds up a linked list of responses/indications, * which then is sent at once when BAT Module was able again. * That is why we have here to iterate over the GDD list. */ do { /* * within L2P_Receive() is called bat_l2p_get_next_buf_seg() if neccessary (fragmentation) * and finally it is called bat_l2p_message_rxd(). * Within bat_l2p_message_rxd() is called the application's callback. */ BAT_TRACE_EVENT("bat_l2p_receive() loop..."); l2p_status = L2P_Receive(inst_hndl, seg->ptr_data, seg+1, length, seg->c_data); switch (l2p_status) { case (L2P_STAT_SUCCESS): { /* for the next iteration get the updated parameter for L2P_Receive() */ seg = bat_get_from_l2p_mt_desc(inst_mt); length = bat_get_from_l2p_mt_length(inst_mt); break; } default: /* any error */ { BAT_TRACE_EVENT_P1("bat_l2p_receive(): L2P status = %d", l2p_status); return (FALSE); } } } while(seg); return (TRUE); } /*==== functions exported to L2P ============================================*/ /* * This function is called by L2P_Send() and L2P_Receive() */ void *bat_l2p_get_next_buf_seg (U8 inst_hndl, void *seg_hdr, void **seg_hdr_ptr, U16 *segSize) { T_BAT_instance_maintain *inst_mt = NULL; T_GDD_SEGMENT *gdd_seg = (T_GDD_SEGMENT *)seg_hdr; T_GDD_SEGMENT *seg = NULL; if (seg_hdr EQ NULL) { BAT_TRACE_EVENT ("bat_l2p_get_next_buf_seg(): GDD buffer is complete"); return (NULL); } if (bat_get_instance_from_instance_handle(inst_hndl, &inst_mt)) { BAT_TRACE_ERROR ("bat_l2p_get_next_buf_seg(): inst_hndl is not correct!"); return (NULL); } /* check whether we are in RX context (it is called for TX as well) */ seg = bat_get_from_l2p_mt_desc(inst_mt); if (seg AND ((seg+1) EQ gdd_seg)) { bat_update_l2p_mt(inst_mt, gdd_seg+1, gdd_seg->c_data, TRUE); } return (void*)(gdd_seg->ptr_data); } void *bat_l2p_get_tx_buffer(T_BAT_instance inst_hndl, U16 data_size, void **seg_hdr_ptr, U16 *total_size, U16 *seg_size) { T_BAT_instance_maintain *inst_mt = NULL; T_GDD_BUF *buf = NULL; T_GDD_SEGMENT * seg = NULL; BAT_TRACE_FUNCTION ("bat_l2p_get_tx_buffer()"); if (bat_get_instance_from_instance_handle(inst_hndl, &inst_mt)) { BAT_TRACE_ERROR ("bat_l2p_get_tx_buffer(): inst_hndl is not correct!"); return (NULL); } if (data_size >= (int)(inst_mt->config->adapter.cap.dio_cap.mtu_size)) { BAT_TRACE_ERROR ("bat_l2p_get_tx_buffer(): requested buffer too big!"); return (NULL); } /* * according to GR we have to make * gdd_get_send_buffer() and gdd_send_data() "atomic", * which means we release the semaphore in bat_l2p_send_frame() */ ENTER_CRITICAL_SECTION(inst_mt->sem_BAT); if (inst_mt->config->adapter.gdd_if.gdd_get_send_buffer ((T_GDD_CON_HANDLE)(inst_mt->con_handle), &buf, data_size) NEQ GDD_OK) { BAT_TRACE_ERROR ("bat_l2p_get_tx_buffer(): call to get gdd buffer failed!"); return (NULL); } /* To memorize the buffer address for later sending */ inst_mt->buffer.gdd_buf = buf; /* the first 2 bytes are not used */ *total_size = (U16)(buf->length - 2); /*store the pointer pointing to the next seg, ignore the first ptr bec it is for other purpose*/ seg = buf->ptr_gdd_segment; ++seg; /* Skip first segment which is the protocol ID and not needed */ *seg_hdr_ptr = (void*)(seg+1); *seg_size = seg->c_data; return (void*)(seg->ptr_data); } int bat_l2p_send_frame(T_BAT_instance inst_hndl) { T_BAT_instance_maintain *inst_mt = NULL; BAT_TRACE_FUNCTION ("bat_l2p_send_frame()"); if (bat_get_instance_from_instance_handle(inst_hndl, &inst_mt)) { BAT_TRACE_ERROR ("bat_l2p_send_frame(): inst_hndl is not correct!"); return (0); } if (inst_mt->config->adapter.gdd_if.gdd_send_data ((T_GDD_CON_HANDLE)(inst_mt->con_handle), inst_mt->buffer.gdd_buf) NEQ GDD_OK) { BAT_TRACE_ERROR ("bat_l2p_send_frame(): call to send gdd buffer failed!"); LEAVE_CRITICAL_SECTION(inst_mt->sem_BAT); return (-1); } LEAVE_CRITICAL_SECTION(inst_mt->sem_BAT); /*return OK*/ return (0); } void *bat_l2p_get_rx_buffer(U8 inst_hndl) { T_BAT_instance_maintain *inst_mt = NULL; BAT_TRACE_FUNCTION ("bat_l2p_get_rx_buffer()"); if (bat_get_instance_from_instance_handle(inst_hndl, &inst_mt)) { BAT_TRACE_ERROR ("bat_l2p_get_rx_buffer(): inst_hndl is not correct!"); return (NULL); } /* set the state of the buffer */ bat_change_buffer_state(inst_mt, BAT_BUF_FILLING); return (inst_mt->buffer.data); } void bat_l2p_message_rxd (U8 inst_hndl, U8 client_id, U32 data_tag, void *data_ptr, U16 data_size) { T_BAT_instance_maintain *inst_mt = NULL; T_BATC_confirm cnf; T_BAT_return ret = BAT_ERROR; T_GDD_SEGMENT * seg = NULL; data_size = data_size; /* prevent compiler warnings */ BAT_TRACE_FUNCTION ("bat_l2p_message_rxd()"); if (bat_get_instance_from_instance_handle(inst_hndl, &inst_mt)) { BAT_TRACE_ERROR ("bat_l2p_message_rxd(): inst_hndl is not correct!"); return; } bat_change_buffer_state(inst_mt, BAT_BUF_FILLED); switch (client_id) { case (BAT_CONTROL_CHANNEL): { cnf.rsp.ptr_bat_open_client_cnf = data_ptr; cnf.rsp_params = (T_BATC_rsp_param)data_tag; ret = bat_control_confirm_rcv (inst_hndl, cnf); break; } case (BAT_BROADCAST_CHANNEL): { inst_mt->buffer.rsp.ctrl_response = (T_BAT_ctrl_response)data_tag; inst_mt->buffer.rsp.response.ptr_at_ok = data_ptr; ret = bat_unsolicited_code_rcv (inst_hndl, &(inst_mt->buffer.rsp)); break; } default: { inst_mt->buffer.rsp.ctrl_response = (T_BAT_ctrl_response)data_tag; inst_mt->buffer.rsp.response.ptr_at_ok = data_ptr; ret = bat_command_response_rcv (inst_hndl, client_id, &(inst_mt->buffer.rsp)); break; } } switch (ret) { case (BAT_OK): case (BAT_BUSY_RESOURCE): { break; } case (BAT_ERROR): { BAT_TRACE_ERROR ("bat_l2p_message_rxd(): received data have not been processed!"); break; } } seg = bat_get_from_l2p_mt_desc(inst_mt); if (seg) { /* Get next segment */ int cur_idx = seg - inst_mt->buffer.gdd_buf_rcv->ptr_gdd_segment; T_GDD_SEGMENT * next_seg; BAT_TRACE_EVENT_P1("buffer starts at 0x%08x", inst_mt->buffer.gdd_buf_rcv->ptr_gdd_segment); BAT_TRACE_EVENT_P1("seg is 0x%08x", seg); BAT_TRACE_EVENT_P1("cur_idx is %d", cur_idx); if(cur_idx >= inst_mt->buffer.gdd_buf_rcv->c_segment-1) next_seg = 0; else next_seg = ++seg; if (next_seg EQ NULL) { bat_update_l2p_mt(inst_mt, NULL, 0, FALSE); } else { /* * update to the next GDD descriptor, which has a L2P header * and reduce the overall L2P data length by the currently processed data length */ bat_update_l2p_mt(inst_mt, next_seg, seg->c_data, TRUE); } } }