// SPDX-License-Identifier: GPL-2.0 #include "device.h" #include "dive.h" #include "divelist.h" #include "subsurface-string.h" #include "errorhelper.h" // for verbose flag #include "selection.h" #include "core/settings/qPrefDiveComputer.h" struct device_table device_table; struct fingerprint_table fingerprint_table; static bool same_device(const device &dev1, const device &dev2) { return dev1.model == dev2.model && dev1.serialNumber == dev2.serialNumber; } bool device::operator<(const device &a) const { int diff; diff = model.compare(a.model); if (diff) return diff < 0; return serialNumber < a.serialNumber; } extern "C" const struct device *get_device_for_dc(const struct device_table *table, const struct divecomputer *dc) { if (!dc->model || !dc->serial) return NULL; const std::vector &dcs = table->devices; device dev { dc->model, dc->serial }; auto it = std::lower_bound(dcs.begin(), dcs.end(), dev); return it != dcs.end() && same_device(*it, dev) ? &*it : NULL; } extern "C" int get_or_add_device_for_dc(struct device_table *table, const struct divecomputer *dc) { if (!dc->model || !dc->serial) return -1; const struct device *dev = get_device_for_dc(table, dc); if (dev) { auto it = std::lower_bound(table->devices.begin(), table->devices.end(), *dev); return it - table->devices.begin(); } return create_device_node(table, dc->model, dc->serial, ""); } extern "C" bool device_exists(const struct device_table *device_table, const struct device *dev) { auto it = std::lower_bound(device_table->devices.begin(), device_table->devices.end(), *dev); return it != device_table->devices.end() && same_device(*it, *dev); } void device::showchanges(const std::string &n) const { if (nickName != n) { if (!n.empty()) qDebug("new nickname %s for DC model %s serial %s", n.c_str(), model.c_str(), serialNumber.c_str()); else qDebug("deleted nickname %s for DC model %s serial %s", nickName.c_str(), model.c_str(), serialNumber.c_str()); } } static int addDC(std::vector &dcs, const std::string &m, const std::string &s, const std::string &n) { if (m.empty() || s.empty()) return -1; device dev { m, s, n }; auto it = std::lower_bound(dcs.begin(), dcs.end(), dev); if (it != dcs.end() && same_device(*it, dev)) { // debugging: show changes if (verbose) it->showchanges(n); // Update any non-existent fields from the old entry it->nickName = n; return it - dcs.begin(); } else { dev.deviceId = calculate_string_hash(s.c_str()); dcs.insert(it, dev); return it - dcs.begin(); } } extern "C" int create_device_node(struct device_table *device_table, const char *model, const char *serial, const char *nickname) { return addDC(device_table->devices, model ?: "", serial ?: "", nickname ?: ""); } extern "C" int add_to_device_table(struct device_table *device_table, const struct device *dev) { return create_device_node(device_table, dev->model.c_str(), dev->serialNumber.c_str(), dev->nickName.c_str()); } extern "C" int remove_device(struct device_table *device_table, const struct device *dev) { auto it = std::lower_bound(device_table->devices.begin(), device_table->devices.end(), *dev); if (it != device_table->devices.end() && same_device(*it, *dev)) { int idx = it - device_table->devices.begin(); device_table->devices.erase(it); return idx; } else { return -1; } } extern "C" void remove_from_device_table(struct device_table *device_table, int idx) { if (idx < 0 || idx >= (int)device_table->devices.size()) return; device_table->devices.erase(device_table->devices.begin() + idx); } extern "C" void clear_device_table(struct device_table *device_table) { device_table->devices.clear(); } /* Returns whether the given device is used by a selected dive. */ extern "C" bool device_used_by_selected_dive(const struct device *dev) { for (dive *d: getDiveSelection()) { struct divecomputer *dc; for_each_dc (d, dc) { if (dc->deviceid == dev->deviceId) return true; } } return false; } extern "C" int is_default_dive_computer_device(const char *name) { return qPrefDiveComputer::device() == name; } const char *get_dc_nickname(const struct divecomputer *dc) { const device *existNode = get_device_for_dc(&device_table, dc); if (existNode && !existNode->nickName.empty()) return existNode->nickName.c_str(); else return dc->model; } extern "C" int nr_devices(const struct device_table *table) { return (int)table->devices.size(); } extern "C" const struct device *get_device(const struct device_table *table, int i) { if (i < 0 || i > nr_devices(table)) return NULL; return &table->devices[i]; } extern "C" struct device *get_device_mutable(struct device_table *table, int i) { if (i < 0 || i > nr_devices(table)) return NULL; return &table->devices[i]; } extern "C" const char *device_get_model(const struct device *dev) { return dev ? dev->model.c_str() : NULL; } extern "C" const char *device_get_serial(const struct device *dev) { return dev ? dev->serialNumber.c_str() : NULL; } extern "C" const char *device_get_nickname(const struct device *dev) { return dev ? dev->nickName.c_str() : NULL; } extern "C" struct device_table *alloc_device_table() { return new struct device_table; } extern "C" void free_device_table(struct device_table *devices) { delete devices; } // managing fingerprint data bool fingerprint_record::operator<(const fingerprint_record &a) const { if (model == a.model) return serial < a.serial; return model < a.model; } // annoyingly, the Cressi Edy doesn't support a serial number (it's always 0), but still uses fingerprints // so we can't bail on the serial number being 0 extern "C" unsigned int get_fingerprint_data(const struct fingerprint_table *table, uint32_t model, uint32_t serial, const unsigned char **fp_out) { if (model == 0 || fp_out == nullptr) return 0; struct fingerprint_record fpr = { model, serial }; auto it = std::lower_bound(table->fingerprints.begin(), table->fingerprints.end(), fpr); if (it != table->fingerprints.end() && it->model == model && it->serial == serial) { // std::lower_bound gets us the first element that isn't smaller than what we are looking // for - so if one is found, we still need to check for equality if (has_dive(it->fdeviceid, it->fdiveid)) { *fp_out = it->raw_data; return it->fsize; } } return 0; } extern "C" void create_fingerprint_node(struct fingerprint_table *table, uint32_t model, uint32_t serial, const unsigned char *raw_data_in, unsigned int fsize, uint32_t fdeviceid, uint32_t fdiveid) { // since raw data can contain \0 we copy this manually, not as string unsigned char *raw_data = (unsigned char *)malloc(fsize); if (!raw_data) return; memcpy(raw_data, raw_data_in, fsize); struct fingerprint_record fpr = { model, serial, raw_data, fsize, fdeviceid, fdiveid }; auto it = std::lower_bound(table->fingerprints.begin(), table->fingerprints.end(), fpr); if (it != table->fingerprints.end() && it->model == model && it->serial == serial) { // std::lower_bound gets us the first element that isn't smaller than what we are looking // for - so if one is found, we still need to check for equality - and then we // can update the existing entry; first we free the memory for the stored raw data free(it->raw_data); it->fdeviceid = fdeviceid; it->fdiveid = fdiveid; it->raw_data = raw_data; it->fsize = fsize; } else { // insert a new one table->fingerprints.insert(it, fpr); } } extern "C" void create_fingerprint_node_from_hex(struct fingerprint_table *table, uint32_t model, uint32_t serial, const char *hex_data, uint32_t fdeviceid, uint32_t fdiveid) { QByteArray raw = QByteArray::fromHex(hex_data); create_fingerprint_node(table, model, serial, (const unsigned char *)raw.constData(), raw.size(), fdeviceid, fdiveid); } extern "C" int nr_fingerprints(struct fingerprint_table *table) { return table->fingerprints.size(); } extern "C" uint32_t fp_get_model(struct fingerprint_table *table, unsigned int i) { if (!table || i >= table->fingerprints.size()) return 0; return table->fingerprints[i].model; } extern "C" uint32_t fp_get_serial(struct fingerprint_table *table, unsigned int i) { if (!table || i >= table->fingerprints.size()) return 0; return table->fingerprints[i].serial; } extern "C" uint32_t fp_get_deviceid(struct fingerprint_table *table, unsigned int i) { if (!table || i >= table->fingerprints.size()) return 0; return table->fingerprints[i].fdeviceid; } extern "C" uint32_t fp_get_diveid(struct fingerprint_table *table, unsigned int i) { if (!table || i >= table->fingerprints.size()) return 0; return table->fingerprints[i].fdiveid; } extern "C" char *fp_get_data(struct fingerprint_table *table, unsigned int i) { if (!table || i >= table->fingerprints.size()) return 0; struct fingerprint_record *fpr = &table->fingerprints[i]; // fromRawData() avoids one copy of the raw_data QByteArray hex = QByteArray::fromRawData((char *)fpr->raw_data, fpr->fsize).toHex(); return strdup(hex.constData()); }