FreeCalypso > hg > fc-magnetite
view cdg3/sap/pkt.pdf @ 628:38a65c3a96af
aci2 & aci3: AT@SPKR conditionalized on GPIO1_SPEAKER_CTRL
new preprocessor symbol
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 23 Dec 2019 07:30:59 +0000 |
parents | c15047b3d00d |
children |
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;******************************************************************************** ;*** File : pkt.pdf ;*** Creation : Wed Mar 11 09:58:35 CST 2009 ;*** XSLT Processor : Apache Software Foundation / http://xml.apache.org/xalan-j / supports XSLT-Ver: 1 ;*** Copyright : (c) Texas Instruments AG, Berlin Germany 2002 ;******************************************************************************** ;*** Document Type : Service Access Point Specification ;*** Document Name : pkt ;*** Document No. : 8443.105.02.106 ;*** Document Date : 2002-10-17 ;*** Document Status: BEING_PROCESSED ;*** Document Author: HM ;******************************************************************************** PRAGMA SRC_FILE_TIME "Thu Nov 29 09:50:46 2007" PRAGMA LAST_MODIFIED "2002-10-17" PRAGMA ID_AND_VERSION "8443.105.02.106" CONST DIO_MAX_NAME_LENGTH 16 ; arbitrary, in simulation only CONST DIO_MAX_DATA_LENGTH 100 ; arbitrary, in simulation only VALTAB VAL_sleep_mode VAL 0x01 DIO_SLEEP_ENABLE "Enter sleep mode if possible." VAL 0x02 DIO_SLEEP_DISABLE "Do not enter sleep mode." VALTAB VAL_parity VAL 0x01 DIO_PARITY_NO "Don't send a parity bit." VAL 0x02 DIO_PARITY_ODD "Send an odd parity bit." VAL 0x04 DIO_PARITY_EVEN "Send an even parity bit." VAL 0x08 DIO_PARITY_SPACE "Send a space for parity bit." VALTAB VAL_flow_control VAL 0x0001 DIO_FLOW_NO_NO "No flow control for both directions." VAL 0x0002 DIO_FLOW_SW_NO "Software flow control for receive direction and no flow control for transmit direction." VAL 0x0004 DIO_FLOW_HW_NO "Hardware flow control for receive direction and no flow control for transmit direction." VAL 0x0008 DIO_FLOW_NO_SW "No flow control for receive direction and software flow control for transmit direction." VAL 0x0010 DIO_FLOW_SW_SW "Software flow control for both directions." VAL 0x0020 DIO_FLOW_HW_SW "Hardware flow control for receive direction and software flow control for transmit direction." VAL 0x0040 DIO_FLOW_NO_HW "No flow control for receive direction and hardware flow control for transmit direction." VAL 0x0080 DIO_FLOW_SW_HW "Software flow control for receive direction and hardware flow control for transmit direction." VAL 0x0100 DIO_FLOW_HW_HW "Hardware flow control for both directions." VALTAB VAL_data_mode VAL 0x01 DIO_MODE_AT "The TE will transmit AT commands." VAL 0x02 DIO_MODE_DATA "The TE will transmit data." VAL 0x04 DIO_MODE_TRACE "The TE expects trace information via this device" VAL 0x03 DIO_MODE_DEFAULT "Default value if the driver can not provide this information" VALTAB VAL_stop_bits VAL 0x01 DIO_STOP_1 "Send 1 stop bit." VAL 0x02 DIO_STOP_15 "Send 1.5 stop bits." VAL 0x04 DIO_STOP_2 "Send 2 stop bits." VALTAB VAL_baud VAL 0x00080000 DIO_BAUD_812500 "Transmission rate of 812500 bits/sec." VAL 0x00040000 DIO_BAUD_406250 "Transmission rate of 406250 bits/sec." VAL 0x00020000 DIO_BAUD_203125 "Transmission rate of 203125 bits/sec." VAL 0x00010000 DIO_BAUD_115200 "Transmission rate of 115200 bits/sec." VAL 0x00008000 DIO_BAUD_57600 "Transmission rate of 57600 bits/sec." VAL 0x00004000 DIO_BAUD_38400 "Transmission rate of 38400 bits/sec." VAL 0x00002000 DIO_BAUD_33900 "Transmission rate of 33900 bits/sec." VAL 0x00001000 DIO_BAUD_28800 "Transmission rate of 28800 bits/sec." VAL 0x00000800 DIO_BAUD_19200 "Transmission rate of 19200 bits/sec." VAL 0x00000400 DIO_BAUD_14400 "Transmission rate of 14400 bits/sec." VAL 0x00000200 DIO_BAUD_9600 "Transmission rate of 9600 bits/sec." VAL 0x00000100 DIO_BAUD_7200 "Transmission rate of 7200 bits/sec." VAL 0x00000080 DIO_BAUD_4800 "Transmission rate of 4800 bits/sec." VAL 0x00000040 DIO_BAUD_2400 "Transmission rate of 2400 bits/sec." VAL 0x00000020 DIO_BAUD_1200 "Transmission rate of 1200 bits/sec." VAL 0x00000010 DIO_BAUD_600 "Transmission rate of 600 bits/sec." VAL 0x00000008 DIO_BAUD_300 "Transmission rate of 300 bits/sec." VAL 0x00000004 DIO_BAUD_150 "Transmission rate of 150 bits/sec." VAL 0x00000002 DIO_BAUD_75 "Transmission rate of 75 bits/sec." VAL 0x00000001 DIO_BAUD_AUTO "Automatic detection." VALTAB VAL_mux_configuration VAL 0x01 DIO_MUX_MODE_BASIC "The multiplexer supports Basic option." VAL 0x02 DIO_MUX_MODE_ADVANCED "The multiplexer supports Advanced option." VAL 0x04 DIO_MUX_SUBSET_UIH "The multiplexer supports UIH frames." VAL 0x08 DIO_MUX_SUBSET_UI "The multiplexer supports UI frames." VAL 0x10 DIO_MUX_SUBSET_I "The multiplexer supports I frames." VALTAB VAL_guard_period VAL 0 DIO_ESC_OFF "Turn escape sequence detection off." VALTAB VAL_data_bits VAL 0x10 DIO_CHAR_5 "Send 5 bits per character." VAL 0x20 DIO_CHAR_6 "Send 6 bits per character." VAL 0x40 DIO_CHAR_7 "Send 7 bits per character." VAL 0x80 DIO_CHAR_8 "Send 8 bits per character." VALTAB VAL_convergence VAL 0x01 DIO_CONV_SER "The device can contain serial data." VAL 0x02 DIO_CONV_PACKET "The device can contain packet data." VAL 0x04 DIO_CONV_MUX "The device can start a multiplexer." VALTAB VAL_state VAL 0x80000000 DIO_SA "read/write, Device ready" VAL 0x40000000 DIO_SB "read/write, Data valid" VAL 0x20000000 DIO_X "read/write, Flow control" VAL 0x10000000 DIO_RING "write, RING indicator" VAL 0x08000000 DIO_ESC "read, escape sequence detected" VAL 0x04000000 DIO_DISC "read, link disconnected" VAL 0x01000000 DIO_MUX_STOP "read/write, stop the multiplexer" VAL 0x02000000 DIO_BRK "read/write, break received / to be sent" VAL 0x000000FF DIO_BRKLEN "read/write, length of the break signal in characters" VAL 0x00000000 DIO_PACKET_UNKNOWN "Packet transfer: No packet type available." VAL 0x00000021 DIO_PACKET_IP "Packet transfer: Simple IP packet" VAL 0x0000002D DIO_PACKET_CTCP "Packet transfer: Van Jacobson compressed TCP/IP header" VAL 0x0000002F DIO_PACKET_UTCP "Packet transfer: Van Jacobson uncompressed TCP/IP header" VALTAB VAL_cause VAL 0xD200 PKTCS_SUCCESS "0b11010010 00000000 No error, success" VAL 0xD201 PKTCS_INVALID_PARAMS "0b11010010 00000001 Device number invalid" VAL 0xD202 PKTCS_INVALID_PEER "0b11010010 00000010 Peer does not exist" VAL 0xD203 PKTCS_DISCONNECT "0b11010010 00000011 The driver signalled a DRV_SIGTYPE_DISCONNECT" VAL 0xD204 PKTCS_INTERNAL_DRV_ERROR "0b11010010 00000100 A driver function returned DRV_INTERNAL_ERROR" VAR convergence "serial data and / or packet data" B VAL @p_pkt - VAL_convergence@ VAR data_mode "TE will use the device to transmit AT commands or data or both" B VAL @p_pkt - VAL_data_mode@ VAR sleep_mode "describes if the device is able to enter sleep mode" B VAL @p_pkt - VAL_sleep_mode@ VAR mux_configuration "describes the supported configurations of the multiplexer" L VAL @p_pkt - VAL_mux_configuration@ VAR n1 "maximum frame size of a multiplexer frame" S VAR n2 "maximum number of retransmissions" B VAR t1 "acknowledgement timer" B VAR t2 "response timer for the multiplexer control channel" B VAR t3 "wake up response timer" B VAR k "window size for advanced option with error recovery" B VAR mtu "Maximum Transfer Unit" S VAR baud "supported transmission rates" L VAL @p_pkt - VAL_baud@ VAR data_bits "supported numbers of bits per character" B VAL @p_pkt - VAL_data_bits@ VAR stop_bits "supported number of stop bits" B VAL @p_pkt - VAL_stop_bits@ VAR parity "supported types of parity checking" B VAL @p_pkt - VAL_parity@ VAR flow_control "supported types of flow control" S VAL @p_pkt - VAL_flow_control@ VAR xon "XON character" B VAR xoff "XOFF character" B VAR esc_char "ASCII character which could appear three times as an escape sequence" B VAR guard_period "minimal duration before and after escape sequence" S VAL @p_pkt - VAL_guard_period@ VAR l_buf "length of content in bit" S VAR o_buf "offset of content in bit" S VAR buf "test data" B VAR signal_type "Signal type" S VAR drv_handle "Unique handle for this driver" S VAR retval "Return value" S VAR device_no "Data device number" B VAR buffer_type "Type of buffer to be cleared" S VAR state "Line state bits" L VAL @p_pkt - VAL_state@ VAR mask "Line state mask" L VAL @p_pkt - VAL_state@ VAR cause "Cause value" S VAL @p_pkt - VAL_cause@ VAR peer "Name of peer, to be casted to 'const char *'" L VAR link_id "Link identifier" L VAR dti_direction "DTI direction" B COMP dio_dcb "Device Control Block data" { convergence ; serial data and / or packet data data_mode ; TE will use the device to transmit AT commands or data or both sleep_mode ; describes if the device is able to enter sleep mode mux_configuration ; describes the supported configurations of the multiplexer n1 ; maximum frame size of a multiplexer frame n2 ; maximum number of retransmissions t1 ; acknowledgement timer t2 ; response timer for the multiplexer control channel t3 ; wake up response timer k ; window size for advanced option with error recovery mtu ; Maximum Transfer Unit baud ; supported transmission rates data_bits ; supported numbers of bits per character stop_bits ; supported number of stop bits parity ; supported types of parity checking flow_control ; supported types of flow control xon ; XON character xoff ; XOFF character esc_char ; ASCII character which could appear three times as an escape sequence guard_period ; minimal duration before and after escape sequence } COMP sdu "test data" { l_buf ; length of content in bit o_buf ; offset of content in bit buf [1] ; test data } ; PKT_CONNECT_IND 0x80004045 ; PKT_CONNECT_RES 0x80000045 ; PKT_CONNECT_REJ 0x80010045 ; PKT_DISCONNECT_IND 0x80014045 ; PKT_DTI_OPEN_REQ 0x80020045 ; PKT_DTI_OPEN_CNF 0x80024045 ; PKT_MODIFY_REQ 0x80030045 ; PKT_MODIFY_CNF 0x80034045 ; PKT_DTI_CLOSE_REQ 0x80040045 ; PKT_DTI_CLOSE_CNF 0x80044045 ; PKT_DTI_CLOSE_IND 0x80054045 ; PKT_SIG_CLEAR_IND 0x80050045 ; PKT_SIG_FLUSH_IND 0x80060045 ; PKT_SIG_READ_IND 0x80070045 ; PKT_SIG_WRITE_IND 0x80080045 ; PKT_SIG_CONNECT_IND 0x80090045 ; PKT_SIG_DISCONNECT_IND 0x800A0045 ; PKT_DIO_SIGNAL_IND 0x80200045 ; PKT_DIO_INIT_REQ 0x80204045 ; PKT_DIO_INIT_CNF 0x80210045 ; PKT_DIO_EXIT_REQ 0x80214045 ; PKT_DIO_READ_REQ 0x80224045 ; PKT_DIO_READ_CNF 0x80220045 ; PKT_DIO_GETDATA_REQ 0x80234045 ; PKT_DIO_GETDATA_CNF 0x80230045 ; PKT_DIO_WRITE_REQ 0x80244045 ; PKT_DIO_WRITE_CNF 0x80240045 ; PKT_DIO_GETBUFFER_REQ 0x80254045 ; PKT_DIO_GETBUFFER_CNF 0x80250045 ; PKT_DIO_CLEAR_REQ 0x80264045 ; PKT_DIO_CLEAR_CNF 0x80260045 ; PKT_DIO_FLUSH_REQ 0x80274045 ; PKT_DIO_FLUSH_CNF 0x80270045 ; PKT_DIO_SETSIGNAL_REQ 0x80284045 ; PKT_DIO_SETSIGNAL_CNF 0x80280045 ; PKT_DIO_RESETSIGNAL_REQ 0x80294045 ; PKT_DIO_RESETSIGNAL_CNF 0x80290045 ; PKT_DIO_GETCAP_REQ 0x802A4045 ; PKT_DIO_GETCAP_CNF 0x802A0045 ; PKT_DIO_SETCONFIG_REQ 0x802B4045 ; PKT_DIO_SETCONFIG_CNF 0x802B0045 ; PKT_DIO_GETCONFIG_REQ 0x802C4045 ; PKT_DIO_GETCONFIG_CNF 0x802C0045 ; PKT_DIO_CLOSEDEVICE_REQ 0x802D4045 ; PKT_DIO_CLOSEDEVICE_CNF 0x802D0045 PRIM PKT_CONNECT_IND 0x80004045 { device_no ; Device number dio_dcb ; Device Control Block data } PRIM PKT_CONNECT_RES 0x80000045 { device_no ; Device number dio_dcb ; Device Control Block data } PRIM PKT_CONNECT_REJ 0x80010045 { device_no ; Device number } PRIM PKT_DISCONNECT_IND 0x80014045 { device_no ; Device number cause ; Cause value } PRIM PKT_DTI_OPEN_REQ 0x80020045 { device_no ; Device number peer ; Peer link_id ; Link identifier dti_direction ; DTI direction } PRIM PKT_DTI_OPEN_CNF 0x80024045 { device_no ; Device number cause ; Cause value } PRIM PKT_MODIFY_REQ 0x80030045 { device_no ; Device number dio_dcb ; Device Control Block data } PRIM PKT_MODIFY_CNF 0x80034045 { device_no ; Device number cause ; Cause value } PRIM PKT_DTI_CLOSE_REQ 0x80040045 { device_no ; Device number } PRIM PKT_DTI_CLOSE_CNF 0x80044045 { device_no ; Device number } PRIM PKT_DTI_CLOSE_IND 0x80054045 { device_no ; Device number } PRIM PKT_SIG_CLEAR_IND 0x80050045 { } PRIM PKT_SIG_FLUSH_IND 0x80060045 { } PRIM PKT_SIG_READ_IND 0x80070045 { } PRIM PKT_SIG_WRITE_IND 0x80080045 { } PRIM PKT_SIG_CONNECT_IND 0x80090045 { } PRIM PKT_SIG_DISCONNECT_IND 0x800A0045 { } PRIM PKT_DIO_SIGNAL_IND 0x80200045 { device_no ; Data device number signal_type ; Signal type } PRIM PKT_DIO_INIT_REQ 0x80204045 { drv_handle ; Driver handle } PRIM PKT_DIO_INIT_CNF 0x80210045 { retval ; Return value } PRIM PKT_DIO_EXIT_REQ 0x80214045 { } PRIM PKT_DIO_READ_REQ 0x80224045 { device_no ; Data Device number } PRIM PKT_DIO_READ_CNF 0x80220045 { retval ; return value } PRIM PKT_DIO_GETDATA_REQ 0x80234045 { device_no ; Data Device number } PRIM PKT_DIO_GETDATA_CNF 0x80230045 { retval ; return value state ; Line state sdu ; Data descriptor equivalent } PRIM PKT_DIO_WRITE_REQ 0x80244045 { device_no ; Data Device number state ; State mask ; Mask sdu ; Data descriptor equivalent } PRIM PKT_DIO_WRITE_CNF 0x80240045 { retval ; return value } PRIM PKT_DIO_GETBUFFER_REQ 0x80254045 { device_no ; Data Device number } PRIM PKT_DIO_GETBUFFER_CNF 0x80250045 { retval ; return value } PRIM PKT_DIO_CLEAR_REQ 0x80264045 { device_no ; Data device number buffer_type ; Buffer type } PRIM PKT_DIO_CLEAR_CNF 0x80260045 { retval ; return value } PRIM PKT_DIO_FLUSH_REQ 0x80274045 { device_no ; Data device number } PRIM PKT_DIO_FLUSH_CNF 0x80270045 { retval ; return value } PRIM PKT_DIO_SETSIGNAL_REQ 0x80284045 { signal_type ; Signal type } PRIM PKT_DIO_SETSIGNAL_CNF 0x80280045 { retval ; return value } PRIM PKT_DIO_RESETSIGNAL_REQ 0x80294045 { signal_type ; Signal type } PRIM PKT_DIO_RESETSIGNAL_CNF 0x80290045 { retval ; return value } PRIM PKT_DIO_GETCAP_REQ 0x802A4045 { device_no ; Data device number } PRIM PKT_DIO_GETCAP_CNF 0x802A0045 { retval ; return value dio_dcb ; Device Control Block } PRIM PKT_DIO_SETCONFIG_REQ 0x802B4045 { device_no ; Data device number dio_dcb ; Device Control Block } PRIM PKT_DIO_SETCONFIG_CNF 0x802B0045 { retval ; return value } PRIM PKT_DIO_GETCONFIG_REQ 0x802C4045 { device_no ; Data device number } PRIM PKT_DIO_GETCONFIG_CNF 0x802C0045 { retval ; return value } PRIM PKT_DIO_CLOSEDEVICE_REQ 0x802D4045 { device_no ; Data device number } PRIM PKT_DIO_CLOSEDEVICE_CNF 0x802D0045 { retval ; return value }