FreeCalypso > hg > fc-magnetite
view src/aci2/aci/ati_src_bt.c @ 624:012028896cfb
FFS dev.c, Leonardo target: Fujitsu MB84VF5F5F4J2 #if 0'ed out
The FFS code we got from TI/Openmoko had a stanza for "Fujitsu MB84VF5F5F4J2
stacked device", using a fake device ID code that would need to be patched
manually into cfgffs.c (suppressing and overriding autodetection) and using
an FFS base address in the nCS2 bank, indicating that this FFS config was
probably meant for the MCP version of Leonardo which allows for 16 MiB flash
with a second bank on nCS2.
We previously had this FFS config stanza conditionalized under
CONFIG_TARGET_LEONARDO because the base address contained therein is invalid
for other targets, but now that we actually have a Leonardo build target in
FC Magnetite, I realize that the better approach is to #if 0 out this stanza
altogether: it is already non-functional because it uses a fake device ID
code, thus it is does not add support for more Leonardo board variants,
instead it is just noise.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sun, 22 Dec 2019 21:24:29 +0000 |
| parents | 93999a60b835 |
| children |
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/* +----------------------------------------------------------------------------- | Project : BLUETOOTH | Modul : ATI_SRC_BT_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 : . +----------------------------------------------------------------------------- */ #ifndef ATI_SRC_BT_C #define ATI_SRC_BT_C #endif #include "aci_all.h" /*==== INCLUDES ===================================================*/ #include "aci_cmh.h" #include "ati_cmd.h" #include "aci_cmd.h" #include "aci_lst.h" #include "dti.h" #include "dti_conn_mng.h" #include "psa_uart.h" #include "ati_io.h" #include "cmh_uart.h" #include "aci_io.h" #include "aci_mem.h" #if defined (BT_ADAPTER) #include "bti_aci.h" #include "bti_int.h" #endif #include "ati_src_bt.h" /*==== CONSTANTS ==================================================*/ /*#ifdef GPRS #define MAX_LARGE_BUFFER_LEN (600) #define MAX_BUFFER_COUNT (15) #else #define MAX_LARGE_BUFFER_LEN (400) #ifdef FAX_AND_DATA #define MAX_BUFFER_COUNT (27) #else #define MAX_BUFFER_COUNT (7) #endif #endif */ /*==== TYPES ======================================================*/ /*==== EXPORT =====================================================*/ /*==== VARIABLES ==================================================*/ /*==== FUNCTIONS ==================================================*/ T_BTI_AT_RING_TYPE get_bti_ring_type(T_ACI_CRING_TYP t); T_BTI_AT_DCE_SIGNAL get_bti_ring_state(T_IO_DCD_STAT s); T_BTI_AT_DCE_SIGNAL get_bti_dcd_state(T_IO_DCD_STAT s); /* +--------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : ACI_URT | | STATE : code ROUTINE : io_openPort | +--------------------------------------------------------------------+ PURPOSE: opens an external port */ GLOBAL T_BTI_ACK io_openPort (T_BTI_PORT_NB port) { TRACE_EVENT("io_openPort()"); if ((port >= MAX_PORTS) || (port < 0)) /* if requested port number is higher than available ports (including 0) -> fail*/ return BTI_NAK; if (bti_port_table[port].aci_src_id != 0) /* port already used */ return BTI_NAK; bti_port_table[port].aci_src_id = ati_init(ATI_SRC_TYPE_BLUETOOTH, bt_src_result_cb, bt_src_line_state_cb); TRACE_EVENT_P2("port %d aci_src_id %d", port, bti_port_table[port].aci_src_id); if (bti_port_table[port].aci_src_id == 0) /* failed to get aci src id */ return BTI_NAK; dti_mng_new (bti_port_table[port].aci_src_id, bti_port_table[port].aci_src_id, bt_src_dti_cb, TRUE, DTI_MNG_DEVICE_TYPE_BT, DTI_MNG_DATA_TYPE_CMD); bti_port_table[port].dti_data_ind_BTI = NULL; bti_port_table[port].data_offset = 0; bti_port_table[port].data_left = 0; bti_port_table[port].bti_gsm_port_info.optimal_gsm_max_packet_size = 0; bti_port_table[port].bti_bt_port_info.optimal_bt_max_packet_size = 0; bti_port_table[port].atqueue = NULL; bti_port_table[port].large_at_output = FALSE; bti_port_table[port].at_flow_on = TRUE; return BTI_ACK; } /* +--------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : ACI_URT | | STATE : code ROUTINE : io_closePort | +--------------------------------------------------------------------+ PURPOSE: closes an external port */ GLOBAL void io_closePort (T_BTI_PORT_NB port) { TRACE_EVENT("io_closePort()"); ati_finit(bti_port_table[port].aci_src_id); bti_port_table[port].aci_src_id = 0; bti_port_table[port].dti_data_ind_BTI = NULL; bti_port_table[port].data_offset = 0; bti_port_table[port].data_left = 0; bti_port_table[port].bti_gsm_port_info.optimal_gsm_max_packet_size = 0; bti_port_table[port].bti_bt_port_info.optimal_bt_max_packet_size = 0; bti_port_table[port].atqueue = NULL; bti_port_table[port].large_at_output = FALSE; bti_port_table[port].at_flow_on = TRUE; } /* +--------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : ACI_URT | | STATE : code ROUTINE : get_bti_ring_type | +--------------------------------------------------------------------+ PURPOSE: converting ACI type to BTI type */ T_BTI_AT_RING_TYPE get_bti_ring_type(T_ACI_CRING_TYP t) { switch (t) { case CRING_TYP_NotPresent: return BTI_AT_RING_NotPresent; case CRING_TYP_Async: return BTI_AT_RING_Async; case CRING_TYP_Sync: return BTI_AT_RING_Sync; case CRING_TYP_RelAsync: return BTI_AT_RING_RelAsync; case CRING_TYP_RelSync: return BTI_AT_RING_RelSync; case CRING_TYP_Fax: return BTI_AT_RING_Fax; case CRING_TYP_Voice: return BTI_AT_RING_Voice; case CRING_TYP_AuxVoice: return BTI_AT_RING_AuxVoice; #ifdef GPRS case CRING_TYP_GPRS: return BTI_AT_RING_GPRS; #endif /* GPRS */ } return BTI_AT_RING_NotPresent; } /* +--------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : ACI_URT | | STATE : code ROUTINE : get_bti_ring_state | +--------------------------------------------------------------------+ PURPOSE: converting ACI type to BTI type */ T_BTI_AT_DCE_SIGNAL get_bti_ring_state(T_IO_RING_STAT s) { switch (s) { case IO_RING_OFF: TRACE_EVENT ("V.24 RING OFF"); return BTI_AT_RING_OFF; case IO_RING_ON: TRACE_EVENT ("V.24 RING ON"); return BTI_AT_RING_ON; } } /* +--------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : ACI_URT | | STATE : code ROUTINE : get_bti_dcd_state | +--------------------------------------------------------------------+ PURPOSE: converting ACI type to BTI type */ T_BTI_AT_DCE_SIGNAL get_bti_dcd_state(T_IO_DCD_STAT s) { switch (s) { case IO_DCD_OFF: TRACE_EVENT ("V.24 DCD OFF"); return BTI_AT_DCD_OFF; case IO_DCD_ON: TRACE_EVENT ("V.24 DCD ON"); return BTI_AT_DCD_ON; } } /* +--------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : ACI_URT | | STATE : code ROUTINE : ati_src_bt_proc_cmd| +--------------------------------------------------------------------+ PURPOSE: */ GLOBAL BOOL ati_src_bt_proc_cmd (T_ACI_CMD_REQ_BT *cmd) { TRACE_FUNCTION ("ati_src_bt_proc_cmd ()"); return (ati_execute (cmd->src_id, cmd->cmd_seq, cmd->cmd_len)); } /* +-------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : PSA_UART | | ROUTINE : bt_src_connect | +-------------------------------------------------------------------+ PURPOSE : */ GLOBAL T_ACI_RETURN bt_src_connect (UBYTE srcId, T_DTI_ENTITY_ID unit) { T_BTI_PORT_NB port_nb; TRACE_EVENT("bt_src_connect()"); port_nb = get_port_by_srcID(srcId); TRACE_EVENT_P3("port %d src_id %d unit %d", port_nb, bti_port_table[port_nb].aci_src_id, unit); dti_entity_connected(srcId, CONNECTED, UNIT_BLUETOOTH); return AT_CMPL; } /* +-------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : PSA_UART | | ROUTINE : bt_src_disconnect | +-------------------------------------------------------------------+ PURPOSE : */ GLOBAL T_ACI_RETURN bt_src_disconnect (UBYTE srcId) { T_BTI_PORT_NB port_nb; port_nb = get_port_by_srcID(srcId); return AT_CMPL; } /* +-------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : PSA_UART | | ROUTINE : bt_enqueue_command | +-------------------------------------------------------------------+ PURPOSE : */ GLOBAL void bt_enqueue_command(T_BTI_PORT_NB port_nb, UBYTE *output, USHORT output_len, UBYTE type) { T_ATI_BT_OUTPUT *cur_cmd; T_ATI_BT_OUTPUT *queue_end; int len; TRACE_EVENT_P2("bt_enqueue_command() %d %s",type, output); len = output_len + sizeof(T_ATI_BT_OUTPUT); ACI_MALLOC(cur_cmd, len); cur_cmd->output_len = output_len; cur_cmd->output_type = type; cur_cmd->next = NULL; memcpy (cur_cmd->output, output, output_len); cur_cmd->output[output_len] = 0; if (bti_port_table[port_nb].atqueue == NULL) /* Queue is empty */ { bti_port_table[port_nb].atqueue = cur_cmd; } else /* There are already pending commands */ { queue_end = bti_port_table[port_nb].atqueue; len = 1; /* just for debugging */ #ifdef _SIMULATION_ // TRACE_EVENT_P1("content: %s", queue_end->output); /* just for debugging */ #endif while (queue_end->next != NULL) /* search end of queue */ { queue_end = queue_end->next; len++; /* just for debugging */ #ifdef _SIMULATION_ // TRACE_EVENT_P1("content: %s", queue_end->output); /* just for debugging */ #endif } TRACE_EVENT_P1("elements in queue: %d", len); /* just for debugging */ queue_end->next = cur_cmd; } return; } /* +-------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : PSA_UART | | ROUTINE : bt_set_output_type | +-------------------------------------------------------------------+ PURPOSE : */ GLOBAL UBYTE bt_set_output_type(T_ATI_OUTPUT_TYPE t) { if (IS_CONFIRM_OUTPUT(t)) return ATI_BT_CONFIRM_COMMAND; if (IS_NORMAL_OUTPUT(t)) return ATI_BT_NORMAL_COMMAND; if (IS_INDICATION_OUTPUT(t)) return ATI_BT_INDICATION_COMMAND; TRACE_EVENT("ATI_BT unexpected output type"); } /*==== CALLBACKS ==================================================*/ /* +--------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : ACI_URT | | STATE : code ROUTINE : bt_src_result_cb | +--------------------------------------------------------------------+ PURPOSE: */ GLOBAL void bt_src_result_cb (UBYTE src_id, T_ATI_OUTPUT_TYPE output_type, UBYTE *output, USHORT output_len) { ULONG port_nb; port_nb = get_port_by_srcID(src_id); TRACE_EVENT_P1("bt_src_result_cb() pt: %d", port_nb); /* just for test purposes */ TRACE_EVENT((char*)output); /* first check, if we are allowed to send */ if (bti_port_table[port_nb].at_flow_on == FALSE) { TRACE_EVENT("bt_src_result_cb() commands pending"); bt_enqueue_command(port_nb, output, output_len, bt_set_output_type(output_type)); return; } /* kk 010808 * according to RIE NORMAL_OUTPUT and CONFIRM_OUTPUT is mutual exclusive * but this is not the case in the current implementation * addionally INDICATION_OUTPUT is never set * temporary solution is to check for CONFIRM first then exit if applicable * else check for NORMAL_OUTPUT and assume that this is also INDICATION * NEEDS FIX from RIE */ if (IS_CONFIRM_OUTPUT(output_type)) { TRACE_EVENT("bt_src_result_cb() confirm sent"); btiaci_at_cmd_res(port_nb, (char *)output); return; } /* kk 010808 * according to RIE NORMAL_OUTPUT and CONFIRM_OUTPUT is mutual exclusive * but this is not the case in the current implementation * addionally INDICATION_OUTPUT is never set * temporary solution is to check for CONFIRM first then exit if applicable * else check for NORMAL_OUTPUT and assume that this is also INDICATION * NEEDS FIX from RIE */ if (IS_NORMAL_OUTPUT(output_type) OR IS_INDICATION_OUTPUT(output_type) OR IS_ECHO_OUTPUT(output_type)) { TRACE_EVENT("bt_src_result_cb() indication/normal sent"); bti_port_table[port_nb].at_flow_on = FALSE; btiaci_at_cmd_req(port_nb, (char *)output); return; } TRACE_EVENT("bt_src_result_cb() SOMETHING IS WRONG HERE"); } /* +--------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : ACI_URT | | STATE : code ROUTINE : bt_src_line_state_cb +--------------------------------------------------------------------+ PURPOSE: */ GLOBAL void bt_src_line_state_cb (UBYTE src_id, T_ATI_LINE_STATE_TYPE line_state_type, ULONG line_state_param) { T_BTI_AT_RING_TYPE bt1, bt2; T_BTI_AT_DCE_SIGNAL signal; T_BTI_PORT_NB port_nb; T_IO_RING_PARAMS *ring; T_IO_DCD_STAT *dcd; port_nb = get_port_by_srcID(src_id); TRACE_EVENT_P1("bt_src_line_state_cb() pt: %d", port_nb); switch (line_state_type) { case ATI_LINE_STATE_RNG: TRACE_EVENT("line state RING"); ring = (T_IO_RING_PARAMS *)line_state_param; bt1 = get_bti_ring_type(ring->b_cap_1); bt2 = get_bti_ring_type(ring->b_cap_2); signal = get_bti_ring_state(ring->ring_stat); btiaci_at_signal_change_req(port_nb, signal, bt1, bt2); break; case ATI_LINE_STATE_DCD: TRACE_EVENT("line state DCD"); dcd = (T_IO_DCD_STAT *)line_state_param; signal = get_bti_dcd_state(*dcd); btiaci_at_signal_change_req(port_nb, signal, BTI_AT_RING_NotPresent, BTI_AT_RING_NotPresent); break; case ATI_LINE_STATE_OUTPUT_TYPE: /*src_infos->run_cmd = TRUE;*/ /*src_infos->first_output = TRUE;*/ if( line_state_param EQ ATI_OUTPUT_TYPE_LARGE ) { TRACE_EVENT("large output following"); bti_port_table[port_nb].large_at_output = TRUE; } else { TRACE_EVENT("normal output following"); bti_port_table[port_nb].large_at_output = FALSE; } break; default: TRACE_EVENT("line state NO TYPE"); break; } } /* +-------------------------------------------------------------------+ | PROJECT : BLUETOOTH 8445 MODULE : PSA_UART | | ROUTINE : bt_src_dti_cb | +-------------------------------------------------------------------+ PURPOSE : callback for dti manager. */ GLOBAL BOOL bt_src_dti_cb( UBYTE srcId, T_DTI_MNG_CB_TYPE result_type ) { TRACE_FUNCTION("bt_src_dti_cb()"); switch(result_type) { case(CB_TYPE_CONNECTED): TRACE_EVENT_P1("srcID %d connected", srcId); break; case(CB_TYPE_TMP_RECONNECTED): TRACE_EVENT_P1("srcID %d reconnected", srcId); break; case(CB_TYPE_NEW_CONNECTED): TRACE_EVENT_P1("srcID %d new connected", srcId); break; case(CB_TYPE_TMP_DISCONNECTING): TRACE_EVENT_P1("srcID %d disconnecting", srcId); break; case(CB_TYPE_TMP_DISCONNECTED): TRACE_EVENT_P1("srcID %d disconnected", srcId); break; case(CB_TYPE_ERROR): TRACE_EVENT_P1("srcID %d ERROR", srcId); /* connection failed */ //kk srcInfos->LineState = LINE_TMP_DISCONNECTED; //k dti_mng_owner_connect(srcId, UNIT_UART); break; default: break; } return TRUE; }