/* * This file is part of the libsigrok project. * * Copyright (C) 2010-2012 Bert Vermeulen * Copyright (C) 2012 Peter Stuge * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "config.h" /* Needed for HAVE_LIBUSB_1_0 and others. */ #include "libsigrok.h" #include "libsigrok-internal.h" extern struct sr_session *session; /** * @mainpage libsigrok API * * @section sec_intro Introduction * * The sigrok project aims at creating a * portable, cross-platform, Free/Libre/Open-Source signal analysis software * suite that supports various device types (such as logic analyzers, * oscilloscopes, multimeters, and more). * * libsigrok is a shared * library written in C which provides the basic API for talking to * supported hardware * and reading/writing the acquired data into various * input/output * file formats. * * @section sec_api API reference * * See the "Modules" page for an introduction to various libsigrok * related topics and the detailed API documentation of the respective * functions. * * You can also browse the API documentation by file, or review all * data structures. * * @section sec_mailinglists Mailing lists * * There are two mailing lists for sigrok/libsigrok: sigrok-devel and sigrok-commits. * * @section sec_irc IRC * * You can find the sigrok developers in the * \#sigrok * IRC channel on Freenode. * * @section sec_website Website * * sigrok.org/wiki/Libsigrok */ /** * @file * * Initializing and shutting down libsigrok. */ /** * @defgroup grp_init Initialization * * Initializing and shutting down libsigrok. * * Before using any of the libsigrok functionality, sr_init() must * be called to initialize the library, which will return a struct sr_context * when the initialization was successful. * * When libsigrok functionality is no longer needed, sr_exit() should be * called, which will (among other things) free the struct sr_context. * * Example for a minimal program using libsigrok: * * @code{.c} * #include * #include * * int main(int argc, char **argv) * { * int ret; * struct sr_context *sr_ctx; * * if ((ret = sr_init(&sr_ctx)) != SR_OK) { * printf("Error initializing libsigrok (%s): %s.", * sr_strerror_name(ret), sr_strerror(ret)); * return 1; * } * * // Use libsigrok functions here... * * if ((ret = sr_exit(sr_ctx)) != SR_OK) { * printf("Error shutting down libsigrok (%s): %s.", * sr_strerror_name(ret), sr_strerror(ret)); * return 1; * } * * return 0; * } * @endcode * * @{ */ /** * Sanity-check all libsigrok drivers. * * @return SR_OK if all drivers are OK, SR_ERR if one or more have issues. */ static int sanity_check_all_drivers(void) { int i, errors, ret = SR_OK; struct sr_dev_driver **drivers; const char *d; sr_spew("Sanity-checking all drivers."); drivers = sr_driver_list(); for (i = 0; drivers[i]; i++) { errors = 0; d = (drivers[i]->name) ? drivers[i]->name : "NULL"; if (!drivers[i]->name) { sr_err("No name in driver %d ('%s').", i, d); errors++; } if (!drivers[i]->longname) { sr_err("No longname in driver %d ('%s').", i, d); errors++; } if (drivers[i]->api_version < 1) { sr_err("API version in driver %d ('%s') < 1.", i, d); errors++; } if (!drivers[i]->init) { sr_err("No init in driver %d ('%s').", i, d); errors++; } if (!drivers[i]->cleanup) { sr_err("No cleanup in driver %d ('%s').", i, d); errors++; } if (!drivers[i]->scan) { sr_err("No scan in driver %d ('%s').", i, d); errors++; } if (!drivers[i]->dev_list) { sr_err("No dev_list in driver %d ('%s').", i, d); errors++; } if (!drivers[i]->dev_clear) { sr_err("No dev_clear in driver %d ('%s').", i, d); errors++; } /* Note: config_get() is optional. */ if (!drivers[i]->config_set) { sr_err("No config_set in driver %d ('%s').", i, d); errors++; } if (!drivers[i]->config_list) { sr_err("No config_list in driver %d ('%s').", i, d); errors++; } if (!drivers[i]->dev_open) { sr_err("No dev_open in driver %d ('%s').", i, d); errors++; } if (!drivers[i]->dev_close) { sr_err("No dev_close in driver %d ('%s').", i, d); errors++; } if (!drivers[i]->dev_acquisition_start) { sr_err("No dev_acquisition_start in driver %d ('%s').", i, d); errors++; } if (!drivers[i]->dev_acquisition_stop) { sr_err("No dev_acquisition_stop in driver %d ('%s').", i, d); errors++; } /* Note: 'priv' is allowed to be NULL. */ if (errors == 0) continue; ret = SR_ERR; } return ret; } /** * Sanity-check all libsigrok input modules. * * @return SR_OK if all modules are OK, SR_ERR if one or more have issues. */ static int sanity_check_all_input_modules(void) { int i, errors, ret = SR_OK; struct sr_input_format **inputs; const char *d; sr_spew("Sanity-checking all input modules."); inputs = sr_input_list(); for (i = 0; inputs[i]; i++) { errors = 0; d = (inputs[i]->id) ? inputs[i]->id : "NULL"; if (!inputs[i]->id) { sr_err("No ID in module %d ('%s').", i, d); errors++; } if (!inputs[i]->description) { sr_err("No description in module %d ('%s').", i, d); errors++; } if (!inputs[i]->format_match) { sr_err("No format_match in module %d ('%s').", i, d); errors++; } if (!inputs[i]->init) { sr_err("No init in module %d ('%s').", i, d); errors++; } if (!inputs[i]->loadfile) { sr_err("No loadfile in module %d ('%s').", i, d); errors++; } if (errors == 0) continue; ret = SR_ERR; } return ret; } /** * Sanity-check all libsigrok output modules. * * @return SR_OK if all modules are OK, SR_ERR if one or more have issues. */ static int sanity_check_all_output_modules(void) { int i, errors, ret = SR_OK; struct sr_output_format **outputs; const char *d; sr_spew("Sanity-checking all output modules."); outputs = sr_output_list(); for (i = 0; outputs[i]; i++) { errors = 0; d = (outputs[i]->id) ? outputs[i]->id : "NULL"; if (!outputs[i]->id) { sr_err("No ID in module %d ('%s').", i, d); errors++; } if (!outputs[i]->description) { sr_err("No description in module %d ('%s').", i, d); errors++; } if (outputs[i]->df_type < 10000 || outputs[i]->df_type > 10007) { sr_err("Invalid df_type %d in module %d ('%s').", outputs[i]->df_type, i, d); errors++; } /* All modules must provide a data or recv API callback. */ if (!outputs[i]->data && !outputs[i]->receive) { sr_err("No data/receive in module %d ('%s').", i, d); errors++; } /* * Currently most API calls are optional (their function * pointers can thus be NULL) in theory: init, event, cleanup. */ if (errors == 0) continue; ret = SR_ERR; } return ret; } /** * Initialize libsigrok. * * This function must be called before any other libsigrok function. * * @param ctx Pointer to a libsigrok context struct pointer. Must not be NULL. * This will be a pointer to a newly allocated libsigrok context * object upon success, and is undefined upon errors. * * @return SR_OK upon success, a (negative) error code otherwise. Upon errors * the 'ctx' pointer is undefined and should not be used. Upon success, * the context will be free'd by sr_exit() as part of the libsigrok * shutdown. * * @since 0.1.0 (but the API changed in 0.2.0) */ SR_API int sr_init(struct sr_context **ctx) { int ret = SR_ERR; struct sr_context *context; if (!ctx) { sr_err("%s(): libsigrok context was NULL.", __func__); return SR_ERR; } if (sanity_check_all_drivers() < 0) { sr_err("Internal driver error(s), aborting."); return ret; } if (sanity_check_all_input_modules() < 0) { sr_err("Internal input module error(s), aborting."); return ret; } if (sanity_check_all_output_modules() < 0) { sr_err("Internal output module error(s), aborting."); return ret; } /* + 1 to handle when struct sr_context has no members. */ context = g_try_malloc0(sizeof(struct sr_context) + 1); if (!context) { ret = SR_ERR_MALLOC; goto done; } #ifdef HAVE_LIBUSB_1_0 ret = libusb_init(&context->libusb_ctx); if (LIBUSB_SUCCESS != ret) { sr_err("libusb_init() returned %s.\n", libusb_error_name(ret)); ret = SR_ERR; goto done; } #endif *ctx = context; context = NULL; session = NULL; ret = SR_OK; done: if (context) g_free(context); return ret; } /** * Shutdown libsigrok. * * @param ctx Pointer to a libsigrok context struct. Must not be NULL. * * @return SR_OK upon success, a (negative) error code otherwise. * * @since 0.1.0 (but the API changed in 0.2.0) */ SR_API int sr_exit(struct sr_context *ctx) { if (!ctx) { sr_err("%s(): libsigrok context was NULL.", __func__); return SR_ERR; } sr_hw_cleanup_all(); #ifdef HAVE_LIBUSB_1_0 libusb_exit(ctx->libusb_ctx); #endif g_free(ctx); return SR_OK; } /** @} */