2020-01-20 09:58:54 +03:00
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#include <libserialport.h>
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#include <stdio.h>
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#include <stdlib.h>
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/* Example of how to configure a serial port.
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*
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* This example file is released to the public domain. */
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/* Helper function for error handling. */
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int check(enum sp_return result);
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/* Helper function to give a name for each parity mode. */
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const char *parity_name(enum sp_parity parity);
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int main(int argc, char **argv)
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{
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/* Get the port name from the command line. */
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if (argc != 2) {
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printf("Usage: %s <port name>\n", argv[0]);
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return -1;
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}
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char *port_name = argv[1];
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/* A pointer to a struct sp_port, which will refer to
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* the port found. */
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struct sp_port *port;
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printf("Looking for port %s.\n", port_name);
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/* Call sp_get_port_by_name() to find the port. The port
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* pointer will be updated to refer to the port found. */
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check(sp_get_port_by_name(port_name, &port));
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/* Display some basic information about the port. */
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printf("Port name: %s\n", sp_get_port_name(port));
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printf("Description: %s\n", sp_get_port_description(port));
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/* The port must be open to access its configuration. */
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printf("Opening port.\n");
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check(sp_open(port, SP_MODE_READ_WRITE));
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/* There are two ways to access a port's configuration:
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*
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* 1. You can read and write a whole configuration (all settings at
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* once) using sp_get_config() and sp_set_config(). This is handy
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* if you want to change between some preset combinations, or save
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* and restore an existing configuration. It also ensures the
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* changes are made together, via an efficient set of calls into
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* the OS - in some cases a single system call can be used.
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*
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* Use accessor functions like sp_get_config_baudrate() and
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* sp_set_config_baudrate() to get and set individual settings
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* from a configuration.
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*
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* Configurations are allocated using sp_new_config() and freed
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* with sp_free_config(). You need to manage them yourself.
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*
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* 2. As a shortcut, you can set individual settings on a port
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* directly by calling functions like sp_set_baudrate() and
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* sp_set_parity(). This saves you the work of allocating
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* a temporary config, setting it up, applying it to a port
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* and then freeing it.
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*
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* In this example we'll do a bit of both: apply some initial settings
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* to the port, read out that config and display it, then switch to a
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* different configuration and back using sp_set_config(). */
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/* First let's set some initial settings directly on the port.
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*
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* You should always configure all settings before using a port.
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* There are no "default" settings applied by libserialport.
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* When you open a port it has the defaults from the OS or driver,
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* or the settings left over by the last program to use it. */
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printf("Setting port to 115200 8N1, no flow control.\n");
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check(sp_set_baudrate(port, 115200));
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check(sp_set_bits(port, 8));
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check(sp_set_parity(port, SP_PARITY_NONE));
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check(sp_set_stopbits(port, 1));
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check(sp_set_flowcontrol(port, SP_FLOWCONTROL_NONE));
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/* A pointer to a struct sp_port_config, which we'll use for the config
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* read back from the port. The pointer will be set by sp_new_config(). */
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struct sp_port_config *initial_config;
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/* Allocate a configuration for us to read the port config into. */
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check(sp_new_config(&initial_config));
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/* Read the current config from the port into that configuration. */
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check(sp_get_config(port, initial_config));
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/* Display some of the settings read back from the port. */
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int baudrate, bits, stopbits;
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enum sp_parity parity;
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check(sp_get_config_baudrate(initial_config, &baudrate));
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check(sp_get_config_bits(initial_config, &bits));
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check(sp_get_config_stopbits(initial_config, &stopbits));
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check(sp_get_config_parity(initial_config, &parity));
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printf("Baudrate: %d, data bits: %d, parity: %s, stop bits: %d\n",
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baudrate, bits, parity_name(parity), stopbits);
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/* Create a different configuration to have ready for use. */
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printf("Creating new config for 9600 7E2, XON/XOFF flow control.\n");
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struct sp_port_config *other_config;
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check(sp_new_config(&other_config));
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check(sp_set_config_baudrate(other_config, 9600));
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check(sp_set_config_bits(other_config, 7));
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check(sp_set_config_parity(other_config, SP_PARITY_EVEN));
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check(sp_set_config_stopbits(other_config, 2));
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check(sp_set_config_flowcontrol(other_config, SP_FLOWCONTROL_XONXOFF));
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/* We can apply the new config to the port in one call. */
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printf("Applying new configuration.\n");
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check(sp_set_config(port, other_config));
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/* And now switch back to our original config. */
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printf("Setting port back to previous config.\n");
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check(sp_set_config(port, initial_config));
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/* Now clean up by closing the port and freeing structures. */
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check(sp_close(port));
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sp_free_port(port);
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sp_free_config(initial_config);
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sp_free_config(other_config);
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return 0;
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}
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/* Helper function for error handling. */
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int check(enum sp_return result)
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{
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/* For this example we'll just exit on any error by calling abort(). */
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char *error_message;
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2020-01-26 23:18:49 +03:00
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2020-01-20 09:58:54 +03:00
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switch (result) {
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2020-01-26 23:18:49 +03:00
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case SP_ERR_ARG:
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printf("Error: Invalid argument.\n");
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abort();
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case SP_ERR_FAIL:
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error_message = sp_last_error_message();
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printf("Error: Failed: %s\n", error_message);
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sp_free_error_message(error_message);
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abort();
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case SP_ERR_SUPP:
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printf("Error: Not supported.\n");
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abort();
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case SP_ERR_MEM:
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printf("Error: Couldn't allocate memory.\n");
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abort();
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case SP_OK:
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default:
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return result;
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2020-01-20 09:58:54 +03:00
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}
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}
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/* Helper function to give a name for each parity mode. */
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const char *parity_name(enum sp_parity parity)
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{
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switch (parity) {
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2020-01-26 23:18:49 +03:00
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case SP_PARITY_INVALID:
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return "(Invalid)";
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case SP_PARITY_NONE:
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return "None";
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case SP_PARITY_ODD:
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return "Odd";
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case SP_PARITY_EVEN:
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return "Even";
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case SP_PARITY_MARK:
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return "Mark";
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case SP_PARITY_SPACE:
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return "Space";
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default:
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return NULL;
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2020-01-20 09:58:54 +03:00
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}
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}
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