/usr/include/pi-socket.h is in libpisock-dev 0.12.5-dfsg-1.
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* $Id: pi-socket.h,v 1.72 2006/10/17 13:24:07 desrod Exp $
*
* pi-socket.h: Socket-like interface to talk to handhelds
*
* This library is free software; you can redistribute it and/or modify it
* under the terms of the GNU Library General Public License as published by
* the Free Software Foundation; either version 2 of the License, or (at
* your option) any later version.
*
* This library is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library
* General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
/** @file pi-socket.h
* @brief Socket-like interface to talk to handhelds
*
* pi-socket is the root of the way you'll talk to a device. You'll first
* create a socket using pi_socket(), then either use pi_bind(), pi_listen()
* and pi_accept() to accept a connection, or pi_connect() to initiate a
* network connection.
*
* A socket encapsulates the various protocol layers required to talk to the
* handheld. You can access the various protocol levels using pi_protocol().
*
* Each protocol layer has options you can get and set using pi_getsockopt()
* and pi_setsockopt().
*
* It is possible to read and write data using pi_read() and pi_write(),
* though this usually not necessary. Instead, you will use the functions
* from pi-dlp.h to talk to the device. They take care of all the low-level
* stuff.
*
* At any time, you can check whether a connection is still established
* using pi_socket_connected(). After each DLP call, you can call pi_error()
* to check the latest error code. If the error code was #PI_ERR_DLP_PALMOS,
* you should call pi_palmos_error() to retrieve the error code returned by
* the device itself. See the pi-dlp.h documentation for more information.
*
* Finally, pi_version() returns the version of the DLP protocol on the
* device. This can be used to check whether some features are supported,
* such as VFS calls. See pi-dlp.h for more information.
*
* @see pi-dlp.h
*/
#ifndef _PILOT_SOCKET_H_
#define _PILOT_SOCKET_H_
#include <unistd.h>
#include "pi-args.h"
#ifdef __cplusplus
extern "C" {
#endif
#include "pi-version.h"
#include "pi-sockaddr.h"
#include "pi-buffer.h"
#include "pi-error.h" /* For PI_ERR */
#define PI_AF_PILOT 0x00
#define PI_SOCK_STREAM 0x0010 /**< Stream socket type, for pi_socket() function */
#define PI_SOCK_RAW 0x0030 /**< Raw socket type, for pi_socket() function */
#define PI_CMD_CMP 0x01 /**< CMD command protocol type (for serial connections) */
#define PI_CMD_NET 0x02 /**< NET protocol type (for inet and USB connections) */
#define PI_CMD_SYS 0x03 /**< SYS protocol type (low-level, debugger connections) */
#define PI_MSG_PEEK 0x01 /**< Use this flag with pi_recv() to 'peek' at the incoming data (will not be removed from input buffer) */
/* deprecated (wasn't used)
#define PI_MSG_REALLOC 0x02 */
/** @brief Protocol types */
enum PiProtocolTypes {
PI_PF_DEV = 0x01, /**< Device-level protocol */
PI_PF_SLP = 0x02, /**< Serial-level protocol */
PI_PF_SYS = 0x03, /**< System-level protocol */
PI_PF_PADP = 0x04, /**< PAD-level protocol */
PI_PF_NET = 0x05, /**< NET-level protocol */
PI_PF_DLP = 0x06 /**< DLP-level protocol */
};
/** @brief Protocol levels for the socket's protocol queue */
enum PiOptLevels {
PI_LEVEL_DEV, /**< Device level */
PI_LEVEL_SLP, /**< Serial link protocol level */
PI_LEVEL_PADP, /**< PADP protocol level */
PI_LEVEL_NET, /**< NET protocol level */
PI_LEVEL_SYS, /**< System protocol level */
PI_LEVEL_CMP, /**< CMP protocol level */
PI_LEVEL_DLP, /**< Desktop link protocol level*/
PI_LEVEL_SOCK /**< Socket level */
};
/** @brief Device level socket options (use pi_getsockopt() and pi_setsockopt()) */
enum PiOptDevice {
PI_DEV_RATE,
PI_DEV_ESTRATE,
PI_DEV_HIGHRATE,
PI_DEV_TIMEOUT
};
/** @brief Serial link protocol socket options (use pi_getsockopt() and pi_setsockopt()) */
enum PiOptSLP {
PI_SLP_DEST,
PI_SLP_LASTDEST,
PI_SLP_SRC,
PI_SLP_LASTSRC,
PI_SLP_TYPE,
PI_SLP_LASTTYPE,
PI_SLP_TXID,
PI_SLP_LASTTXID
};
/** @brief PADP protocol socket options (use pi_getsockopt() and pi_setsockopt()) */
enum PiOptPADP {
PI_PADP_TYPE,
PI_PADP_LASTTYPE,
PI_PADP_FREEZE_TXID, /**< if set, don't increment txid when receiving a packet. Mainly used by dlp_VFSFileRead() */
PI_PADP_USE_LONG_FORMAT /**< if set, use the long packet size format when transmitting */
};
/** @brief CMP protocol socket options (use pi_getsockopt() and pi_setsockopt()) */
enum PiOptCMP {
PI_CMP_TYPE,
PI_CMP_FLAGS,
PI_CMP_VERS,
PI_CMP_BAUD
};
/** @brief NET protocol socket options (use pi_getsockopt() and pi_setsockopt()) */
enum PiOptNet {
PI_NET_TYPE,
PI_NET_SPLIT_WRITES, /**< if set, write separately the NET header and data */
PI_NET_WRITE_CHUNKSIZE /**< size of data chunks if PI_NET_SPLIT_WRITES is set. 0 for no chunking of data */
};
/** @brief Socket level options (use pi_getsockopt() and pi_setsockopt()) */
enum PiOptSock {
PI_SOCK_STATE, /**< Socket state (listening, closed, etc.) */
PI_SOCK_HONOR_RX_TIMEOUT /**< Set to 1 to honor timeouts when waiting for data. Set to 0 to disable timeout (i.e. during dlp_CallApplication) */
};
struct pi_protocol; /* forward declaration */
/** @brief Definition of a socket */
typedef struct pi_socket {
int sd; /**< Socket descriptor to pass to other functions */
int type; /**< Socket type (i.e #PI_SOCK_STREAM) */
int protocol; /**< Protocol (usually #PI_PF_DLP) */
int cmd;
struct sockaddr *laddr; /**< Socket local address */
size_t laddrlen; /**< Local address length */
struct sockaddr *raddr; /**< Socket remote address */
size_t raddrlen; /**< Remote address length */
struct pi_protocol **protocol_queue; /**< Ptr to the protocol queue */
int queue_len; /**< Protocol queue length */
struct pi_protocol **cmd_queue; /**< Ptr to the command queue */
int cmd_len; /**< Command queue length */
struct pi_device *device; /**< Low-level device we're talking to */
int state; /**< Current socket state (initially #PI_SOCK_CLOSE). Use pi_setsockopt() with #PI_SOCK_STATE to set the state. */
int honor_rx_to; /**< Honor packet reception timeouts. Set most to 1 of the time to have timeout management on incoming packets. Can be disabled when needed using pi_setsockopt() with #PI_SOCK_HONOR_RX_TIMEOUT. This is used, for example, to disable timeouts in dlp_CallApplication() so that lengthy tasks don't return an error. */
int command; /**< true when socket in command state */
int accept_to; /**< timeout value for call to accept() */
int dlprecord; /**< Index used for some DLP functions */
int dlpversion; /**< version of the DLP protocol running on the device */
unsigned long maxrecsize; /**< max record size on the device */
int last_error; /**< error code returned by the last dlp_* command */
int palmos_error; /**< Palm OS error code returned by the last transaction with the handheld */
} pi_socket_t;
/** @brief Internal sockets chained list */
typedef struct pi_socket_list
{
pi_socket_t *ps;
struct pi_socket_list *next;
} pi_socket_list_t;
/** @name Socket management */
/*@{*/
/** @brief Create a new socket
*
* Call this function to allocate a new socket which you will later
* bind to a specific port
*
* @param domain Not used. Set to 0.
* @param type Socket type (#PI_SOCK_STREAM or #PI_SOCK_RAW)
* @param protocol Protocol to use (usually #PI_PF_DLP for #PI_SOCK_STREAM sockets)
* @return Socket ID
*/
extern int pi_socket PI_ARGS((int domain, int type, int protocol));
/** @brief Assign a new socket descriptor
*
* Assign a new socket descriptor to the socket. On platforms that
* support it, this function reuses the socket's existing descriptor
* after closing it first. In all cases (whether the sd changed or
* not), you don't have to close the new @a pi_sd you passed.
*
* @param ps Socket structure
* @param pi_sd New socket descriptor
* @return The socket structure's new socket descriptor value or negative on error
*/
extern int pi_socket_setsd PI_ARGS((pi_socket_t *ps, int pi_sd));
/** @brief Get socket name
*
* Structure needs to have its @a laddr member initialized and valid
*
* @param pi_sd Socket descriptor
* @param remote_addr Will receive the local name
* @param namelen On input, the size allocated to receive the name. On output, the actual name length
* @return 0 on success, negative on error
*/
extern int pi_getsockname
PI_ARGS((int pi_sd, struct sockaddr * remote_addr, size_t *namelen));
/** @brief Get a socket's remote address
*
* @param pi_sd Socket descriptor
* @param remote_addr Will receive the remote address/name
* @param namelen On input, maximum name/address length. On output, actual length
* @return 0 on success, negative on error.
*/
extern int pi_getsockpeer
PI_ARGS((int pi_sd, struct sockaddr * remote_addr, size_t *namelen));
/** @brief Get a socket option
*
* You can get socket options for various levels of the protocol
* stack. See the options list in #socket.h
*
* @param pi_sd Socket descriptor
* @param level Protocol level (see #PiOptLevels enum)
* @param option_name Option "name" (i.e. #PI_DEV_TIMEOUT at #PI_LEVEL_DEV level)
* @param option_value Pointer to the option value
* @param option_len Len of the pointed option_value.
* @return Negative code on error
*/
extern int pi_getsockopt
PI_ARGS((int pi_sd, int level, int option_name,
void *option_value, size_t *option_len));
/** @brief Set a socket option
*
* You can set socket options for various levels of the protocol
* stack. See the options list in #socket.h
*
* @param pi_sd Socket descriptor
* @param level Protocol level (see #PiOptLevels enum)
* @param option_name Option "name" (i.e. #PI_DEV_TIMEOUT at #PI_LEVEL_DEV level)
* @param option_value Pointer to the option value
* @param option_len Len of the pointed option_value.
* @return Negative code on error
*/
extern int pi_setsockopt
PI_ARGS((int pi_sd, int level, int option_name,
const void *option_value, size_t *option_len));
/** @brief Retrieve the protocol structure for the given level
*
* You should rarely need to use this function. It allows retrieving
* the protocol structure for any protocol in a socket's protocol
* stack
*
* @param pi_sd Socket descriptor
* @param level Protocol level (see #PiOptLevels enum)
* @return Protocol structure pointer or NULL if not found
*/
extern struct pi_protocol *pi_protocol
PI_ARGS((int pi_sd, int level));
/** @brief Browse the protocol stack
*
* You should rarely need to use this function. It allows retrieving
* the next protocol in the stack, up from lower levels to upper
* levels. A protocol stack always has a PI_LEVEL_DEV at bottom, so
* you can use pi_protocol() to retrieve the lowest stack level,
* then repeatedly call pi_protocol_next() to get the next protocol
* in the chain
*
* @param pi_sd Socket descriptor
* @param level Level from which you want to get the next protocol (see #PiOptLevels enum)
* @return Protocol structure ptr, or NULL if not found
*/
extern struct pi_protocol *pi_protocol_next
PI_ARGS((int pi_sd, int level));
/*@}*/
/** @name Connection management */
/*@{*/
/** @brief Checks whether a connection is established
*
* If the socket wasn't found, returns 0 and @a errno is set to
* ESRCH.
*
* @param pi_sd Socket descriptor
* @return != 0 if a connection is established
*/
extern int pi_socket_connected
PI_ARGS((int pi_sd));
/** @brief Connect to a remote server
*
* Connect to a remote server.
*
* @param pi_sd Socket descriptor
* @param port Port string (see pi_bind() description)
* @return Negative on error
*/
extern PI_ERR pi_connect
PI_ARGS((int pi_sd, const char *port));
/** @brief Bind the socket to a specific port
*
* Call this function after creating a new socket with pi_socket()
* to bind the socket to a specific port. Recognized port prefixes
* are: "serial:", "usb:" and "net:". On Unix platforms, you need to
* indicate the /dev entry to bind serial: and usb: to.
*
* @param pi_sd Socket descriptor
* @param port Port string as described above
* @return Negative error code on error
*/
extern PI_ERR pi_bind
PI_ARGS((int pi_sd, const char *port));
extern PI_ERR pi_listen PI_ARGS((int pi_sd, int backlog));
/** @brief Wait for a handheld
*
* This function calls pi_accept_to() with a timeout of 0 (wait
* forever). If an error occurs, the socket is closed.
*
* @param pi_sd Socket descriptor
* @param remote_addr Unused. Pass NULL.
* @param namelen Unused. Pass NULL.
* @return Negative error code on error, returns 0 once a device connects
*/
extern PI_ERR pi_accept
PI_ARGS((int pi_sd, struct sockaddr * remote_addr,
size_t *namelen));
/** @brief Wait for a handheld
*
* Wait for a device to connect on the port the socket has been
* bound to (using pi_bind()). If an error or timeout occurs, the
* socket is closed.
*
* @param pi_sd Socket descriptor
* @param remote_addr Unused. Pass NULL.
* @param namelen Unused. Pass NULL.
* @param timeout Number of seconds to wait. Pass 0 to wait forever.
* @return Negative error code on error, returns 0 once a device connects
*/
extern PI_ERR pi_accept_to
PI_ARGS((int pi_sd, struct sockaddr * remote_addr, size_t *namelen,
int timeout));
/** @brief Close a socket
*
* This function closes a socket and disposes of all the internal
* structures. If a device is currently connected to this socket,
* the connection is interrupted.
*
* @param pi_sd Socket descriptor
* @return Negative error code on error
*/
extern int pi_close PI_ARGS((int pi_sd));
/*@}*/
/** @name Low-level data transfers */
/*@{*/
/** @brief Send data on the given socket
*
* Perform a synchronous write on the given socket. Writes are
* performed through the protocol stack. Therefore, the data you
* send will be properly encapsulated in a packet conforming to the
* connected protocol (i.e. NET protocol if you're talking to a
* network or USB device). Usually, you won't send data directly,
* but rather use the dlp_XXX functions to talk to the device.
*
* @param pi_sd Socket descriptor
* @param msg Ptr to the data to send
* @param len Size of the data to send
* @param flags No write flag defined at this time
* @return Number of bytes sent. Negative on error.
*/
extern int pi_send
PI_ARGS((int pi_sd, PI_CONST void *msg, size_t len, int flags));
/** @brief Wait for incoming data from the device
*
* Wait for data sent by the device. Note that this function goes
* through the protocol stack, therefore it waits for well-formed
* packets and decodes them to extract the data. Usually, you won't
* use this function directly. Instead, you'll use the dlp_XXX
* functions to talk to the device. Remember that you need to pass a
* valid pi_buffer_t (for example one allocated with
* pi_buffer_new()).
*
* @param pi_sd Socket descriptor
* @param msg Ptr to a valid pi_buffer_t buffer that will contain the received data
* @param len Size of the data we want to read
* @param flags Read flags. Use #PI_MSG_PEEK to leave data in the input buffer.
* @return Number of bytes read. Negative on error.
*/
extern ssize_t pi_recv
PI_ARGS((int pi_sd, pi_buffer_t *msg, size_t len, int flags));
/** @brief Wait for incoming data from the device
*
* Alias for the pi_recv() function.
*
* @param pi_sd Socket descriptor
* @param msg Ptr to a valid pi_buffer_t buffer that will contain the received data
* @param len Size of the data we want to read
* @return Number of bytes read. Negative on error.
*/
extern ssize_t pi_read PI_ARGS((int pi_sd, pi_buffer_t *msg, size_t len));
/** @brief Write data on the given socket
*
* Alias for the pi_send() function.
*
* @param pi_sd Socket descriptor
* @param databuf Ptr to the data to send
* @param datasize Size of the data to send
* @return Number of bytes sent. Negative on error.
*/
extern ssize_t pi_write PI_ARGS((int pi_sd, PI_CONST void *databuf, size_t datasize));
/** @brief Flush input and/or output bytes
*
* Flush incoming and/or outgoing data. Most device implementations
* currently only support flushing the bytes in the incoming data
* buffer, as most writes are synchronous.
*
* @param pi_sd Socket descriptor
* @param flags Mask with valus #PI_FLUSH_INPUT, #PI_FLUSH_OUTPUT.
* @return Negative on error
*/
extern void pi_flush PI_ARGS((int pi_sd, int flags));
/*@}*/
/** @name Error codes management */
/*@{*/
/** @brief Return the last error after a low-level or DLP call
*
* If the socket wasn't found, @a errno is set to ESRCH and the
* function returns #PI_ERR_SOCK_INVALID.
*
* @param pi_sd Socket descriptor
* @return Error code or 0 if no error or #PI_ERR_SOCK_INVALID is socket was not found
*/
extern int pi_error
PI_ARGS((int pi_sd));
/** @brief Set the last error code
*
* If the socket wasn't found, @a errno is set to ESRCH. If the
* error code is #PI_ERR_GENERIC_MEMORY, @a errno is set to ENOMEM.
*
* @param pi_sd Socket descriptor
* @param error_code Error code to set
* @return The error code
*/
extern int pi_set_error
PI_ARGS((int pi_sd, int error_code));
/** @brief Get the last Palm OS error code the device returned to us
*
* After a DLP transaction, if you got a #PI_ERR_DLP_PALMOS error,
* you should call this function to obtain the error code returned
* by the device. It may be either a standard Palm OS error code, or
* one of the DLP errors (see #dlpErrors enum) If the socket wasn't
* found, @a errno is set to ESRCH and the function returns
* #PI_ERR_SOCK_INVALID.
*
* @param pi_sd Socket descriptor
* @return The Palm OS error code or #PI_ERR_SOCK_INVALID if socket was not found
*/
extern int pi_palmos_error
PI_ARGS((int pi_sd));
/** @brief Set the last Palm OS error code
*
* If the socket wasn't found, @a errno is set to ESRCH.
*
* @param pi_sd Socket descriptor
* @param error_code Error code to set
* @return The error code
*/
extern int pi_set_palmos_error
PI_ARGS((int pi_sd, int error_code));
/** @brief Clear both the last error code and the last Palm OS error code
*
* If the socket wasn't found, @a errno is set to ESRCH.
*
* @param sd Socket descriptor
*/
extern void pi_reset_errors
PI_ARGS((int sd));
/*@}*/
/** @name Miscellaneous functions */
/*@{*/
/** @brief Return the version of the DLP protocol supported by the device
*
* Once connected to a handheld, you can call this function to
* obtain the version of the DLP protocol it supports. See pi-dlp.h
* for information about the various DLP versions.
*
* @param pi_sd Socket descriptor
* @return DLP version or #PI_ERR_SOCK_INVALID if socket was not found
*/
extern PI_ERR pi_version PI_ARGS((int pi_sd));
/** @brief Return the maximum size of a database record that can be transferred
*
* Use this function to obtain the maximum size a database record
* can be when transferring it to the device. On-device records may
* be larger than what is currently supported by the version of the
* DLP protocol that runs on the device. On devices with an
* implementation of DLP < 1.4, you'll get 0xFFFF meaning that you
* can't transfer records larger than 64k.
*
* If the socket wasn't found, returns 0 and errno is set to ESRCH.
*
* @param pi_sd Socket descriptor
* @return Maximum record transfer size
*/
extern unsigned long pi_maxrecsize PI_ARGS((int pi_sd));
/** @brief Tickle a stream connection to keep it alive
*
* Call pi_tickle() at regular intervals to keep the connection
* alive. If you're not sending any command to the device, some
* devices will automatically disconnect after some time. Calling
* pi_tickle() does keep the connection opened, which can be
* necessary if you are writing a conduit that performs lengthy
* tasks like retrieving data from the Internet.
*
* @param pi_sd Socket descriptor
* @return An error code if an error occured (see pi-error.h)
*/
extern PI_ERR pi_tickle PI_ARGS((int pi_sd));
/** @brief Set a watchdog that will call pi_tickle() at regular intervals
*
* The watchdog uses the unix SIGALRM to fire an alarm at regular
* intervals. If the socket is still connected when the alarm fires,
* pi_tickle() is called to keep the connection alive.
*
* @param pi_sd Socket descriptor
* @param interval Time interval in seconds between alarms
* @return 0, or #PI_ERR_SOCK_INVALID if the socket wasn't found
*/
extern int pi_watchdog PI_ARGS((int pi_sd, int interval));
/*@}*/
#ifdef __cplusplus
}
#endif
#endif /* _PILOT_SOCKET_H_ */
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