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view gsm-fw/g23m-aci/gdd_dio/gdd_dio_con_mgr.c @ 876:c9f353b5d70c
rvinterf/asyncshell/rxctl.c: buglet in the implementation of dis/enable commands
author | Space Falcon <falcon@ivan.Harhan.ORG> |
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date | Sat, 30 May 2015 07:50:05 +0000 |
parents | eedbf248bac0 |
children |
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/* +----------------------------------------------------------------------------- | File : gdd_dio_con_mgr.c +----------------------------------------------------------------------------- | Copyright 2002 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 : Implements connection management functions +----------------------------------------------------------------------------- */ #define ENTITY_GDD_DIO /*==== INCLUDES =============================================================*/ #include "typedefs.h" /* to get Condat data types */ #include "vsi.h" /* to get a lot of macros */ #include "prim.h" /* to get the definitions of used SAP and directions */ #include "dti.h" #include "gdd_dio.h" /* to get the global entity definitions */ #include "gdd_dio_queue.h" #include "gdd_dio_con_mgr.h" #include <string.h> /*==== DEFINITIONS ==========================================================*/ #define ENTER_CRITICAL_SECTION(sem) if (gdd_enter_critical_section(sem))return -1; #define LEAVE_CRITICAL_SECTION(sem) if (gdd_leave_critical_section(sem))return -1; /*==== CONST ================================================================*/ /*==== LOCAL VARS ===========================================================*/ static T_HANDLE sem_GDD_DIO_CON; /*==== PRIVATE FUNCTIONS ====================================================*/ LOCAL int get_free_connection_slot(T_GDD_DIO_DATA * gdd_dio_data, T_GDD_DIO_CON_DATA ** con_data /*output*/); static void gdd_semaphore_err (void); static int gdd_enter_critical_section (T_HANDLE sem); static int gdd_leave_critical_section (T_HANDLE sem); /*==== PUBLIC FUNCTIONS =====================================================*/ /* Initializes the connection manager */ GLOBAL void gdd_dio_con_mgr_init (T_GDD_DIO_DATA * gdd_dio_data) { int i; T_GDD_DIO_CON_DATA * con_data = gdd_dio_data->con_arr; TRACE_FUNCTION( "[GDD] conn_init()" ); for(i = 0; i < gdd_dio_data->max_con; ++i, ++con_data) { con_data->con_state = GDD_DIO_CON_DEAD; } sem_GDD_DIO_CON = vsi_s_open (VSI_CALLER "SEM_GDD_CON",1); if (sem_GDD_DIO_CON EQ VSI_ERROR) vsi_o_ttrace(VSI_CALLER TC_EVENT, "canīt open semaphore \"SEM_GDD_CON\""); } /* Setup a new DIO connection */ GLOBAL GDD_RESULT gdd_dio_con_mgr_new ( T_GDD_DIO_DATA * gdd_dio_data, T_GDD_CON_HANDLE * con_handle, const T_GDD_CAP * cap, T_GDD_RECEIVE_DATA_CB rcv_cb, T_GDD_SIGNAL_CB sig_cb ) { T_GDD_DIO_CON_DATA * con_data = 0; TRACE_FUNCTION("[GDD] conn_new()"); if(get_free_connection_slot(gdd_dio_data, &con_data) NEQ 0) { TRACE_ERROR("Failed to get new connection slot"); return GDD_NO_CONNECTION_SLOT; } gdd_dio_queue_clear(&con_data->rx_queue); gdd_dio_queue_clear(&con_data->tx_queue); con_data->wait_send_buf = FALSE; con_data->rcv_cb = rcv_cb; con_data->sig_cb = sig_cb; con_data->dio_cap.device_type = DIO_TYPE_PKT; con_data->dio_cap.device_flags = 0; con_data->dio_cap.mtu_control = 0; con_data->dio_cap.mtu_data = (U16)((T_GDD_DIO_CAP *)cap)->mtu_size; con_data->dio_cap.driver_name = "GDD"; (*con_handle) = con_data->dio_device; gdd_dio_send_signal_to_dio(con_data, DRV_SIGTYPE_CONNECT); return GDD_OK; } /* Close a connection */ GLOBAL GDD_RESULT gdd_dio_con_mgr_close ( T_GDD_CON_HANDLE con_handle ) { T_GDD_INST_ID inst = (T_GDD_INST_ID)inst_num_from_dev_id(con_handle); T_GDD_DIO_CON_DATA * con_data; TRACE_FUNCTION( "[GDD] gdd_dio_con_mgr_close()" ); con_data = get_con_data(&(gdd_dio_data_base[inst]), con_handle); if(con_data EQ NULL) { TRACE_ERROR("Failed to get connection data"); return GDD_INTERNAL_ERROR; } con_data->con_state = GDD_DIO_CON_CLOSE; gdd_dio_send_signal_to_dio(con_data, DRV_SIGTYPE_DISCONNECT); return GDD_OK; } /* Mark a connection as dead */ GDD_RESULT gdd_dio_con_mgr_mark_dead( T_GDD_CON_HANDLE con_handle ) { T_GDD_INST_ID inst = (T_GDD_INST_ID)inst_num_from_dev_id(con_handle); T_GDD_DIO_CON_DATA * con_data; TRACE_FUNCTION( "[GDD] gdd_dio_con_mgr_mark_dead()" ); con_data = get_con_data(&(gdd_dio_data_base[inst]), con_handle); if(con_data EQ NULL) { TRACE_ERROR("Failed to get connection data"); return GDD_INTERNAL_ERROR; } /* Clear the connection slot - it's sufficient to set state and nullify handle */ con_data->con_state = GDD_DIO_CON_DEAD; return GDD_OK; } /* Check if any of the connections is (still) open or in connecting state. */ BOOL gdd_dio_con_mgr_has_open_connection ( const T_GDD_DIO_DATA * gdd_dio_data ) { int i; T_GDD_DIO_CON_DATA * con_data = gdd_dio_data->con_arr; TRACE_FUNCTION( "[GDD] gdd_dio_con_mgr_has_open_connection()" ); for(i = 0; i < gdd_dio_data->max_con; ++i, ++con_data) { if(con_data->con_state EQ GDD_DIO_CON_READY || con_data->con_state EQ GDD_DIO_CON_SENDING || con_data->con_state EQ GDD_DIO_CON_CONNECT) { return TRUE; } } return FALSE; } /* Get the connection data for a given instance & handle */ GLOBAL T_GDD_DIO_CON_DATA * get_con_data(const T_GDD_DIO_DATA * gdd_dio_data, T_GDD_CON_HANDLE con_handle) { int i; /* Deliberately NO tracing */ for(i=0; i<gdd_dio_data->max_con; ++i) { if(gdd_dio_data->con_arr[i].dio_device EQ con_handle) return &gdd_dio_data->con_arr[i]; } return NULL; } /* Get the connection data for a given handle only */ GLOBAL T_GDD_DIO_CON_DATA * get_con_data_from_handle(T_GDD_CON_HANDLE con_handle) { T_GDD_INST_ID inst; /* Deliberately NO tracing */ inst = (T_GDD_INST_ID)inst_num_from_dev_id(con_handle); if(inst < 0 || inst >= GDD_NUM_INSTS) { return 0; } return get_con_data(&(gdd_dio_data_base[inst]), con_handle); } /* Send a DIO signal via the specificed connection */ void gdd_dio_send_signal_to_dio (T_GDD_DIO_CON_DATA * con_data, U16 sig_type) { T_DRV_SIGNAL drv_signal; T_GDD_DIO_DATA * inst_data; char * sig_type_str; TRACE_USER_CLASS(TC_FUNC_DATA_FLOW, "[GDD] gdd_dio_send_signal_to_dio()"); inst_data = &gdd_dio_data_base[inst_num_from_dev_id(con_data->dio_device)]; switch (sig_type) { case DRV_SIGTYPE_WRITE: sig_type_str = "DRV_SIGTYPE_WRITE"; break; case DRV_SIGTYPE_READ: sig_type_str = "DRV_SIGTYPE_READ"; break; case DRV_SIGTYPE_CONNECT: sig_type_str = "DRV_SIGTYPE_CONNECT"; break; case DRV_SIGTYPE_DISCONNECT: sig_type_str = "DRV_SIGTYPE_DISCONNECT"; break; default: sig_type_str = "ununsed signal type"; break; } TRACE_USER_CLASS_P2(TC_SIGNALS, "[GDD] Sending signal %s to DIO IL (con_handle=0x%4x)", sig_type_str, con_data->dio_device); drv_signal.SignalType = sig_type; drv_signal.DrvHandle = inst_data->drv_handle; drv_signal.DataLength = sizeof(U32); drv_signal.UserData = &(con_data->dio_device); (*(inst_data->signal_callback))(&drv_signal); } /*==== PRIVATE FUNCTIONS =====================================================*/ /* +------------------------------------------------------------------------------ | Function : get_free_connection_slot +------------------------------------------------------------------------------ | Description : Find the next free connection slot for given instance. | | Parameters : gdd_dio_data - pointer to instance data | con_data - pointer to pointer to connection data (output) | | Returns : 0 - Success (con_data has been set) | -1 - Failed (no slot found) +------------------------------------------------------------------------------ */ LOCAL int get_free_connection_slot(T_GDD_DIO_DATA * gdd_dio_data, T_GDD_DIO_CON_DATA ** con_data /*output*/) { int i; TRACE_FUNCTION( "[GDD] get_free_connection_slot()" ); ENTER_CRITICAL_SECTION(sem_GDD_DIO_CON); for(i = 0; i < gdd_dio_data->max_con; ++i) { if(gdd_dio_data->device_range_start+i <= gdd_dio_data->device_range_end) { if(gdd_dio_data->con_arr[i].con_state EQ GDD_DIO_CON_DEAD) { gdd_dio_data->con_arr[i].dio_device = gdd_dio_data->device_range_start+i; *con_data = &(gdd_dio_data->con_arr[i]); (*con_data)->con_state = GDD_DIO_CON_CONNECT; LEAVE_CRITICAL_SECTION(sem_GDD_DIO_CON); return 0; } } } LEAVE_CRITICAL_SECTION(sem_GDD_DIO_CON); return -1; } /* +------------------------------------------------------------------------------ | Function : gdd_semaphore_err +------------------------------------------------------------------------------ | Description : Handle a semaphore error +------------------------------------------------------------------------------ */ static void gdd_semaphore_err (void) { static UCHAR out = 0; if (!out) { out = 1; vsi_o_ttrace(VSI_CALLER TC_EVENT, "semaphore error"); } } /* +------------------------------------------------------------------------------ | Function : gdd_enter_critical_section +------------------------------------------------------------------------------ | Description : Enters a critical section. | | Parameters : sem - Semaphore handle | | Returns : 0 - Success | -1 - Failure +------------------------------------------------------------------------------ */ static int gdd_enter_critical_section (T_HANDLE sem) { if (vsi_s_get (VSI_CALLER sem) NEQ VSI_OK) { gdd_semaphore_err(); return -1; } else { return 0; } } /* +------------------------------------------------------------------------------ | Function : gdd_leave_critical_section +------------------------------------------------------------------------------ | Description : Leaves a critical section. | | Parameters : sem - Semaphore handle | | Returns : 0 - Success | -1 - Failure +------------------------------------------------------------------------------ */ static int gdd_leave_critical_section (T_HANDLE sem) { if (vsi_s_release (VSI_CALLER sem) NEQ VSI_OK) { gdd_semaphore_err(); return -1; } else { return 0; } }