FreeCalypso > hg > fc-tourmaline
view cdg-hybrid/sap/tcpip.pdf @ 51:04aaa5622fa7
disable deep sleep when Iota LEDB is on
TI's Iota chip docs say that CLK13M must be running in order for
LEDB to work, and practical experience on Mot C139 which uses
Iota LEDB for its keypad backlight concurs: if Calypso enters
deep sleep while the keypad backlight is turned on, the light
flickers visibly as the chipset goes into and out of deep sleep.
TI's original L1 sleep manager code had logic to disable deep sleep
when LT_Status() returns nonzero, but that function only works
for B-Sample and C-Sample LT, always returns 0 on BOARD 41 - no
check of Iota LEDB status anywhere. Change this code for our
current hardware: disable deep sleep when Iota LEDB has been
turned on through LLS.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 19 Oct 2020 05:11:29 +0000 |
parents | 35f7a1dc9f7d |
children |
line wrap: on
line source
;******************************************************************************** ;*** File : tcpip.pdf ;*** Creation : Wed Mar 11 09:57:43 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 : tcpip ;*** Document No. : 8462.000.03.005 ;*** Document Date : 2003-09-05 ;*** Document Status: BEING_PROCESSED ;*** Document Author: NI ;******************************************************************************** PRAGMA SRC_FILE_TIME "Thu Nov 29 09:55:14 2007" PRAGMA LAST_MODIFIED "2003-09-05" PRAGMA ID_AND_VERSION "8462.000.03.005" CONST TCPIP_HNAMELEN 256 ; Maximum length of the full-qualified domain name of an Internet host (as defined in [RFC 1034]) plus one byte for the zero termination. CONST TCPIP_DEFAULT_MTU_SIZE 1500 ; Default size of the maximum transfer unit of the network connection. To be used if no other information is available. CONST TCPIP_UNSPECIFIED_IPADDR 0 ; The unspecified IP address (0.0.0.0) CONST TCPIP_UNSPECIFIED_PORT 0 ; The unspecified port number. VALTAB VAL_ipproto VAL 6 TCPIP_IPPROTO_TCP "Value for TCP" VAL 17 TCPIP_IPPROTO_UDP "Value for UDP" VALTAB VAL_event_type VAL 1 TCPIP_EVT_CREATE_CNF "Result of TCPIP_CREATE_REQ" VAL 2 TCPIP_EVT_CLOSE_CNF "Result of TCPIP_CLOSE_REQ" VAL 3 TCPIP_EVT_BIND_CNF "Result of TCPIP_BIND_REQ" VAL 4 TCPIP_EVT_LISTEN_CNF "Result of TCPIP_LISTEN_REQ" VAL 5 TCPIP_EVT_CONNECT_CNF "Result of TCPIP_CONNECT_REQ" VAL 6 TCPIP_EVT_SOCKNAME_CNF "Result of TCPIP_SOCKNAME_REQ" VAL 7 TCPIP_EVT_PEERNAME_CNF "Result of TCPIP_PEERNAME_REQ" VAL 8 TCPIP_EVT_HOSTINFO_CNF "Result of TCPIP_HOSTINFO_REQ" VAL 9 TCPIP_EVT_MTU_SIZE_CNF "Result of TCPIP_MTU_SIZE_REQ" VAL 10 TCPIP_EVT_RECV_IND "Indication of incoming data" VAL 11 TCPIP_EVT_CONNECT_IND "Indication of incoming connection" VAL 12 TCPIP_EVT_CONN_CLOSED_IND "Indication of remotely closed connection" VAL 13 TCPIP_EVT_ERROR_IND "Indication of asynchronous error" VAL 14 TCPIP_EVT_FLOW_READY_IND "Flow Control: application can send again (not used by a TCPIP primitive!)" VALTAB VAL_result VAL 0 TCPIP_RESULT_OK "Operation was successful." VAL 1 TCPIP_RESULT_INVALID_PARAMETER "A parameter was invalid." VAL 2 TCPIP_RESULT_INTERNAL_ERROR "An internal error has happened." VAL 3 TCPIP_RESULT_ADDR_IN_USE "The address or port is already in use." VAL 4 TCPIP_RESULT_OUT_OF_MEMORY "There is not enough memory to fulfill the request." VAL 5 TCPIP_RESULT_NOT_SUPPORTED "The socket is not of a type that can support this operation." VAL 6 TCPIP_RESULT_UNREACHABLE "The specified host cannot be reached." VAL 7 TCPIP_RESULT_CONN_REFUSED "The connection to the specified address was refused by the remote host." VAL 8 TCPIP_RESULT_TIMEOUT "The connection attempt timed out without establishing a connection." VAL 9 TCPIP_RESULT_IS_CONNECTED "The request could not be fulfilled because the socket is already connected." VAL 10 TCPIP_RESULT_HOST_NOT_FOUND "The specified host could not be found in the DNS." VAL 11 TCPIP_RESULT_DNS_TEMP_ERROR "A temporary DNS error has occurred. Retrying the query may be successful." VAL 12 TCPIP_RESULT_DNS_PERM_ERROR "A permanent DNS error has occurred." VAL 13 TCPIP_RESULT_NO_IPADDR "The specified name has been found in the DNS, but no IP address is available." VAL 14 TCPIP_RESULT_NOT_CONNECTED "The socket has not been connected yet." VAL 15 TCPIP_RESULT_MSG_TOO_BIG "The size of the data buffer is too large for a UDP socket." VAL 16 TCPIP_RESULT_CONN_RESET "The connection has been reset by the remote peer." VAL 17 TCPIP_RESULT_CONN_ABORTED "The connection was aborted due to timeout or some other error condition." VAL 18 TCPIP_RESULT_NO_BUFSPACE "Sending failed temporarily because the space to buffer the message was exhausted. The application should wait for a TCPIP_FLOW_READY_IND event to retry the operation." VAL 19 TCPIP_RESULT_NETWORK_LOST "The operation failed because TCP/IP's network connection has been disconnected." VAL 20 TCPIP_RESULT_NOT_READY "The operation failed because the TCP/IP entity was not yet initialised." VALTAB VAL_if_up VAL 0 TCPIP_IFCONFIG_DOWN "Interface going down" VAL 1 TCPIP_IFCONFIG_UP "Interface coming up" VALTAB VAL_dti_direction VAL 0 TCPIP_DTI_TO_HIGHER_LAYER "Connect to higher layer, i. e. an application" VAL 1 TCPIP_DTI_TO_LOWER_LAYER "Connect to lower layer, i. e. to protocol stack" VALTAB VAL_dti_conn VAL 0 TCPIP_CONNECT_DTI "Connect the DTI link" VAL 1 TCPIP_DISCONNECT_DTI "Disconnect the DTI link" VAR app_handle "Application communication handle" L VAR ipproto "IP protocol identifier" B VAL @p_tcpip - VAL_ipproto@ VAR request_id "Request ID" L VAR event_type "Type of the event" L VAL @p_tcpip - VAL_event_type@ VAR result "Result code" B VAL @p_tcpip - VAL_result@ VAR socket "Socket descriptor" L VAR port "Port number" S VAR ipaddr "IP address" L VAR hostname "Name of the host" B VAR new_socket "Socket descriptor" L VAR mtu_size "MTU size" S VAR if_up "Interface Configuration direction" B VAL @p_tcpip - VAL_if_up@ VAR dnsaddr1 "IP address of first DNS server" L VAR dnsaddr2 "IP address of second DNS server" L VAR link_id "DTI link identifier" L VAR entity_name "DTI neighbor entity name" L VAR dti_direction "Direction of DTI connection" B VAL @p_tcpip - VAL_dti_direction@ VAR dti_conn "Indicates to connect or disconnect DTI link" B VAL @p_tcpip - VAL_dti_conn@ VAR data "Address of payload data" L VAR window "Flow control window size" L VAR buflen "Data buffer length" S VAR msg_p "Message pointer" L VAR msg_id "Message ID" L ; TCPIP_INITIALIZE_REQ 0x80000048 ; TCPIP_INITIALIZE_CNF 0x80004048 ; TCPIP_SHUTDOWN_REQ 0x80010048 ; TCPIP_SHUTDOWN_CNF 0x80014048 ; TCPIP_IFCONFIG_REQ 0x80020048 ; TCPIP_IFCONFIG_CNF 0x80024048 ; TCPIP_DTI_REQ 0x80030048 ; TCPIP_DTI_CNF 0x80034048 ; TCPIP_CREATE_REQ 0x80040048 ; TCPIP_CREATE_CNF 0x80044048 ; TCPIP_CLOSE_REQ 0x80050048 ; TCPIP_CLOSE_CNF 0x80054048 ; TCPIP_BIND_REQ 0x80060048 ; TCPIP_BIND_CNF 0x80064048 ; TCPIP_LISTEN_REQ 0x80070048 ; TCPIP_LISTEN_CNF 0x80074048 ; TCPIP_CONNECT_REQ 0x80080048 ; TCPIP_CONNECT_CNF 0x80084048 ; TCPIP_DATA_REQ 0x80090048 ; TCPIP_DATA_CNF 0x80094048 ; TCPIP_DATA_IND 0x800A4048 ; TCPIP_DATA_RES 0x800A0048 ; TCPIP_SOCKNAME_REQ 0x800B0048 ; TCPIP_SOCKNAME_CNF 0x800B4048 ; TCPIP_PEERNAME_REQ 0x800C0048 ; TCPIP_PEERNAME_CNF 0x800C4048 ; TCPIP_HOSTINFO_REQ 0x800D0048 ; TCPIP_HOSTINFO_CNF 0x800D4048 ; TCPIP_MTU_SIZE_REQ 0x800E0048 ; TCPIP_MTU_SIZE_CNF 0x800E4048 ; TCPIP_CONNECT_IND 0x800F4048 ; TCPIP_CONN_CLOSED_IND 0x80104048 ; TCPIP_ERROR_IND 0x80114048 ; TCPIP_INTERNAL_IND 0x800F0048 PRIM TCPIP_INITIALIZE_REQ 0x80000048 { } PRIM TCPIP_INITIALIZE_CNF 0x80004048 { result ; Result code } PRIM TCPIP_SHUTDOWN_REQ 0x80010048 { } PRIM TCPIP_SHUTDOWN_CNF 0x80014048 { result ; Result code } PRIM TCPIP_IFCONFIG_REQ 0x80020048 { if_up ; Direction of interface transition (coming up or going down) mtu_size ; MTU size of interface (unused when interface goes down) ipaddr ; IP address of interface (unused when interface goes down) dnsaddr1 ; First DNS address (unused when interface goes down) dnsaddr2 ; Second DNS address (unused when interface goes down) } PRIM TCPIP_IFCONFIG_CNF 0x80024048 { result ; Result code } PRIM TCPIP_DTI_REQ 0x80030048 { dti_conn ; DTI connect entity_name ; Neighbor entity name link_id ; DTI link identifier dti_direction ; DTI link direction } PRIM TCPIP_DTI_CNF 0x80034048 { dti_conn ; DTI connect link_id ; DTI link identifier } PRIM TCPIP_CREATE_REQ 0x80040048 { app_handle ; Application communication handle ipproto ; IP protocol type request_id ; Request ID (arbitrary value chosen by the application) } PRIM TCPIP_CREATE_CNF 0x80044048 { event_type ; Type of the event as passed to the application (TCPIP_CREATE_CNF) result ; Result code socket ; Descriptor of new socket (if result is TCPIP_RESULT_OK) request_id ; Request ID as passed in TCPIP_CREATE_REQ } PRIM TCPIP_CLOSE_REQ 0x80050048 { app_handle ; Application communication handle socket ; Socket descriptor } PRIM TCPIP_CLOSE_CNF 0x80054048 { event_type ; Type of the event as passed to the application (TCPIP_CLOSE_CNF) result ; Result code socket ; Socket descriptor } PRIM TCPIP_BIND_REQ 0x80060048 { app_handle ; Application communication handle socket ; Socket descriptor port ; Port number to bind the socket to } PRIM TCPIP_BIND_CNF 0x80064048 { event_type ; Type of the event as passed to the application (TCPIP_BIND_CNF) result ; Result code socket ; Socket descriptor } PRIM TCPIP_LISTEN_REQ 0x80070048 { app_handle ; Application communication handle socket ; Socket descriptor } PRIM TCPIP_LISTEN_CNF 0x80074048 { event_type ; Type of the event as passed to the application (TCPIP_LISTEN_CNF) result ; Result code socket ; Socket descriptor } PRIM TCPIP_CONNECT_REQ 0x80080048 { app_handle ; Application communication handle socket ; Socket descriptor ipaddr ; IP address of remote peer to connect to port ; Port number of remote peer to connect to } PRIM TCPIP_CONNECT_CNF 0x80084048 { event_type ; Type of the event as passed to the application (TCPIP_CONNECT_CNF) result ; Result code socket ; Socket descriptor } PRIM TCPIP_DATA_REQ 0x80090048 { app_handle ; Application communication handle socket ; Socket descriptor ipaddr ; Destination IP address port ; Destination port number buflen ; Data buffer length data ; Payload data } PRIM TCPIP_DATA_CNF 0x80094048 { event_type ; Type of the event as passed to the application (TCPIP_DATA_CNF) result ; Result code socket ; Socket descriptor window ; Flow control window size } PRIM TCPIP_DATA_IND 0x800A4048 { event_type ; Type of the event as passed to the application (TCPIP_DATA_IND) result ; Result code socket ; Socket descriptor ipaddr ; Source IP address port ; Source port number buflen ; Data buffer length data ; Payload data } PRIM TCPIP_DATA_RES 0x800A0048 { app_handle ; Application communication handle socket ; Socket descriptor window ; Flow control window size } PRIM TCPIP_SOCKNAME_REQ 0x800B0048 { app_handle ; Application communication handle socket ; Socket descriptor } PRIM TCPIP_SOCKNAME_CNF 0x800B4048 { event_type ; Type of the event as passed to the application (TCPIP_SOCKNAME_CNF) result ; Result code socket ; Socket descriptor ipaddr ; IP address of socket port ; Port number of socket } PRIM TCPIP_PEERNAME_REQ 0x800C0048 { app_handle ; Application communication handle socket ; Socket descriptor } PRIM TCPIP_PEERNAME_CNF 0x800C4048 { event_type ; Type of the event as passed to the application (TCPIP_PEERNAME_CNF) result ; Result code socket ; Socket descriptor ipaddr ; IP address of remote peer port ; Port number of remote peer } PRIM TCPIP_HOSTINFO_REQ 0x800D0048 { app_handle ; Application communication handle ipaddr ; IP address of the host hostname [TCPIP_HNAMELEN] ; Full-qualified domain name of the host request_id ; Request ID (arbitrary value chosen by the application) } PRIM TCPIP_HOSTINFO_CNF 0x800D4048 { event_type ; Type of the event as passed to the application (TCPIP_SOCKNAME_CNF) result ; Result code socket ; Socket descriptor (unused) hostname [TCPIP_HNAMELEN] ; Full-qualified domain name of the host ipaddr ; IP address of the host request_id ; Request ID as passed by in TCPIP_HOSTINFO_REQ } PRIM TCPIP_MTU_SIZE_REQ 0x800E0048 { app_handle ; Application communication handle socket ; Socket descriptor } PRIM TCPIP_MTU_SIZE_CNF 0x800E4048 { event_type ; Type of the event as passed to the application (TCPIP_MTU_SIZE_CNF) result ; Result code socket ; Socket descriptor mtu_size ; MTU size } PRIM TCPIP_CONNECT_IND 0x800F4048 { event_type ; Type of the event as passed to the application (TCPIP_CONNECT_IND) result ; Result code (TCPIP_RESULT_OK) socket ; Socket on which the connection has been accepted new_socket ; New socket allocated for the connection ipaddr ; IP address of the remote peer port ; Port number on the remote side } PRIM TCPIP_CONN_CLOSED_IND 0x80104048 { event_type ; Type of the event as passed to the application (TCPIP_CONN_CLOSED_IND) result ; Result code (TCPIP_RESULT_OK) socket ; Socket of the connection that has been closed } PRIM TCPIP_ERROR_IND 0x80114048 { event_type ; Type of the event as passed to the application (TCPIP_ERROR_IND) result ; Result code (one of TCPIP_RESULT_CONN_RESET, TCPIP_RESULT_CONN_ABORTED, or TCPIP_RESULT_UNREACHABLE) socket ; Socket for which the error occured } PRIM TCPIP_INTERNAL_IND 0x800F0048 { msg_p ; Message pointer msg_id ; Message ID }