/* * Copyright (C) 2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #define LOG_TAG "WifiNetwork" #include #include "NetworkManager.h" #include "WifiNetwork.h" #include "Supplicant.h" #include "WifiController.h" WifiNetwork::WifiNetwork() { // This is private to restrict copy constructors } WifiNetwork::WifiNetwork(WifiController *c, Supplicant *suppl, const char *data) { mController = c; mSuppl = suppl; char *tmp = strdup(data); char *next = tmp; char *id; char *ssid; char *bssid; char *flags; if (!(id = strsep(&next, "\t"))) LOGE("Failed to extract network id"); if (!(ssid = strsep(&next, "\t"))) LOGE("Failed to extract ssid"); if (!(bssid = strsep(&next, "\t"))) LOGE("Failed to extract bssid"); if (!(flags = strsep(&next, "\t"))) LOGE("Failed to extract flags"); // LOGD("id '%s', ssid '%s', bssid '%s', flags '%s'", id, ssid, bssid, // flags ? flags :"null"); if (id) mNetid = atoi(id); if (ssid) mSsid = strdup(ssid); if (bssid) mBssid = strdup(bssid); mPsk = NULL; memset(mWepKeys, 0, sizeof(mWepKeys)); mDefaultKeyIndex = -1; mPriority = -1; mHiddenSsid = NULL; mKeyManagement = KeyManagementMask::UNKNOWN; mProtocols = 0; mAuthAlgorithms = 0; mPairwiseCiphers = 0; mGroupCiphers = 0; mEnabled = true; if (flags && flags[0] != '\0') { if (!strcmp(flags, "[DISABLED]")) mEnabled = false; else LOGW("Unsupported flags '%s'", flags); } free(tmp); createProperties(); } WifiNetwork::WifiNetwork(WifiController *c, Supplicant *suppl, int networkId) { mController = c; mSuppl = suppl; mNetid = networkId; mSsid = NULL; mBssid = NULL; mPsk = NULL; memset(mWepKeys, 0, sizeof(mWepKeys)); mDefaultKeyIndex = -1; mPriority = -1; mHiddenSsid = NULL; mKeyManagement = 0; mProtocols = 0; mAuthAlgorithms = 0; mPairwiseCiphers = 0; mGroupCiphers = 0; mEnabled = false; createProperties(); } WifiNetwork *WifiNetwork::clone() { WifiNetwork *r = new WifiNetwork(); r->mSuppl = mSuppl; r->mNetid = mNetid; if (mSsid) r->mSsid = strdup(mSsid); if (mBssid) r->mBssid = strdup(mBssid); if (mPsk) r->mPsk = strdup(mPsk); r->mController = mController; memcpy(r->mWepKeys, mWepKeys, sizeof(mWepKeys)); r->mDefaultKeyIndex = mDefaultKeyIndex; r->mPriority = mPriority; if (mHiddenSsid) r->mHiddenSsid = strdup(mHiddenSsid); r->mKeyManagement = mKeyManagement; r->mProtocols = mProtocols; r->mAuthAlgorithms = mAuthAlgorithms; r->mPairwiseCiphers = mPairwiseCiphers; r->mGroupCiphers = mGroupCiphers; return r; } void WifiNetwork::createProperties() { asprintf(&mPropNamespace, "wifi.net.%d", mNetid); mStaticProperties.propEnabled = new WifiNetworkEnabledProperty(this); mStaticProperties.propSsid = new WifiNetworkSsidProperty(this); mStaticProperties.propBssid = new WifiNetworkBssidProperty(this); mStaticProperties.propPsk = new WifiNetworkPskProperty(this); mStaticProperties.propWepKey = new WifiNetworkWepKeyProperty(this); mStaticProperties.propDefKeyIdx = new WifiNetworkDefaultKeyIndexProperty(this); mStaticProperties.propPriority = new WifiNetworkPriorityProperty(this); mStaticProperties.propKeyManagement = new WifiNetworkKeyManagementProperty(this); mStaticProperties.propProtocols = new WifiNetworkProtocolsProperty(this); mStaticProperties.propAuthAlgorithms = new WifiNetworkAuthAlgorithmsProperty(this); mStaticProperties.propPairwiseCiphers = new WifiNetworkPairwiseCiphersProperty(this); mStaticProperties.propGroupCiphers = new WifiNetworkGroupCiphersProperty(this); mStaticProperties.propHiddenSsid = new WifiNetworkHiddenSsidProperty(this); } WifiNetwork::~WifiNetwork() { if (mPropNamespace) free(mPropNamespace); if (mSsid) free(mSsid); if (mBssid) free(mBssid); if (mPsk) free(mPsk); for (int i = 0; i < 4; i++) { if (mWepKeys[i]) free(mWepKeys[i]); } if (mHiddenSsid) free(mHiddenSsid); delete mStaticProperties.propEnabled; delete mStaticProperties.propSsid; delete mStaticProperties.propBssid; delete mStaticProperties.propPsk; delete mStaticProperties.propWepKey; delete mStaticProperties.propDefKeyIdx; delete mStaticProperties.propPriority; delete mStaticProperties.propKeyManagement; delete mStaticProperties.propProtocols; delete mStaticProperties.propAuthAlgorithms; delete mStaticProperties.propPairwiseCiphers; delete mStaticProperties.propGroupCiphers; delete mStaticProperties.propHiddenSsid; } int WifiNetwork::refresh() { char buffer[255]; size_t len; uint32_t mask; len = sizeof(buffer); if (mSuppl->getNetworkVar(mNetid, "psk", buffer, len)) mPsk = strdup(buffer); for (int i = 0; i < 4; i++) { char *name; asprintf(&name, "wep_key%d", i); len = sizeof(buffer); if (mSuppl->getNetworkVar(mNetid, name, buffer, len)) mWepKeys[i] = strdup(buffer); free(name); } len = sizeof(buffer); if (mSuppl->getNetworkVar(mNetid, "wep_tx_keyidx", buffer, len)) mDefaultKeyIndex = atoi(buffer); len = sizeof(buffer); if (mSuppl->getNetworkVar(mNetid, "priority", buffer, len)) mPriority = atoi(buffer); len = sizeof(buffer); if (mSuppl->getNetworkVar(mNetid, "scan_ssid", buffer, len)) mHiddenSsid = strdup(buffer); len = sizeof(buffer); if (mSuppl->getNetworkVar(mNetid, "key_mgmt", buffer, len)) { if (WifiNetwork::parseKeyManagementMask(buffer, &mask)) { LOGE("Error parsing key_mgmt (%s)", strerror(errno)); } else { mKeyManagement = mask; } } len = sizeof(buffer); if (mSuppl->getNetworkVar(mNetid, "proto", buffer, len)) { if (WifiNetwork::parseProtocolsMask(buffer, &mask)) { LOGE("Error parsing proto (%s)", strerror(errno)); } else { mProtocols = mask; } } len = sizeof(buffer); if (mSuppl->getNetworkVar(mNetid, "auth_alg", buffer, len)) { if (WifiNetwork::parseAuthAlgorithmsMask(buffer, &mask)) { LOGE("Error parsing auth_alg (%s)", strerror(errno)); } else { mAuthAlgorithms = mask; } } len = sizeof(buffer); if (mSuppl->getNetworkVar(mNetid, "pairwise", buffer, len)) { if (WifiNetwork::parsePairwiseCiphersMask(buffer, &mask)) { LOGE("Error parsing pairwise (%s)", strerror(errno)); } else { mPairwiseCiphers = mask; } } len = sizeof(buffer); if (mSuppl->getNetworkVar(mNetid, "group", buffer, len)) { if (WifiNetwork::parseGroupCiphersMask(buffer, &mask)) { LOGE("Error parsing group (%s)", strerror(errno)); } else { mGroupCiphers = mask; } } return 0; out_err: LOGE("Refresh failed (%s)",strerror(errno)); return -1; } int WifiNetwork::setSsid(const char *ssid) { char tmp[255]; snprintf(tmp, sizeof(tmp), "\"%s\"", ssid); if (mSuppl->setNetworkVar(mNetid, "ssid", tmp)) return -1; if (mSsid) free(mSsid); mSsid = strdup(ssid); return 0; } int WifiNetwork::setBssid(const char *bssid) { if (mSuppl->setNetworkVar(mNetid, "bssid", bssid)) return -1; if (mBssid) free(mBssid); mBssid = strdup(bssid); return 0; } int WifiNetwork::setPsk(const char *psk) { char tmp[255]; snprintf(tmp, sizeof(tmp), "\"%s\"", psk); if (mSuppl->setNetworkVar(mNetid, "psk", tmp)) return -1; if (mPsk) free(mPsk); mPsk = strdup(psk); return 0; } int WifiNetwork::setWepKey(int idx, const char *key) { char *name; asprintf(&name, "wep_key%d", idx); int rc = mSuppl->setNetworkVar(mNetid, name, key); free(name); if (rc) return -1; if (mWepKeys[idx]) free(mWepKeys[idx]); mWepKeys[idx] = strdup(key); return 0; } int WifiNetwork::setDefaultKeyIndex(int idx) { char val[16]; sprintf(val, "%d", idx); if (mSuppl->setNetworkVar(mNetid, "wep_tx_keyidx", val)) return -1; mDefaultKeyIndex = idx; return 0; } int WifiNetwork::setPriority(int priority) { char val[16]; sprintf(val, "%d", priority); if (mSuppl->setNetworkVar(mNetid, "priority", val)) return -1; mPriority = priority; return 0; } int WifiNetwork::setHiddenSsid(const char *ssid) { if (mSuppl->setNetworkVar(mNetid, "scan_ssid", ssid)) return -1; if (mHiddenSsid) free(mHiddenSsid); mHiddenSsid = strdup(ssid); return 0; } int WifiNetwork::setKeyManagement(uint32_t mask) { char accum[64] = {'\0'}; if (mask == KeyManagementMask::NONE) strcpy(accum, "NONE"); else { if (mask & KeyManagementMask::WPA_PSK) strcat(accum, "WPA-PSK"); if (mask & KeyManagementMask::WPA_EAP) { if (accum[0] != '\0') strcat(accum, " "); strcat(accum, "WPA-EAP"); } if (mask & KeyManagementMask::IEEE8021X) { if (accum[0] != '\0') strcat(accum, " "); strcat(accum, "IEEE8021X"); } } if (mSuppl->setNetworkVar(mNetid, "key_mgmt", accum)) return -1; mKeyManagement = mask; return 0; } int WifiNetwork::setProtocols(uint32_t mask) { char accum[64]; accum[0] = '\0'; if (mask & SecurityProtocolMask::WPA) strcpy(accum, "WPA "); if (mask & SecurityProtocolMask::RSN) strcat(accum, "RSN"); if (mSuppl->setNetworkVar(mNetid, "proto", accum)) return -1; mProtocols = mask; return 0; } int WifiNetwork::setAuthAlgorithms(uint32_t mask) { char accum[64]; accum[0] = '\0'; if (mask == 0) strcpy(accum, ""); if (mask & AuthenticationAlgorithmMask::OPEN) strcpy(accum, "OPEN "); if (mask & AuthenticationAlgorithmMask::SHARED) strcat(accum, "SHARED "); if (mask & AuthenticationAlgorithmMask::LEAP) strcat(accum, "LEAP "); if (mSuppl->setNetworkVar(mNetid, "auth_alg", accum)) return -1; mAuthAlgorithms = mask; return 0; } int WifiNetwork::setPairwiseCiphers(uint32_t mask) { char accum[64]; accum[0] = '\0'; if (mask == PairwiseCiphersMask::NONE) strcpy(accum, "NONE"); else { if (mask & PairwiseCiphersMask::TKIP) strcat(accum, "TKIP "); if (mask & PairwiseCiphersMask::CCMP) strcat(accum, "CCMP "); } if (mSuppl->setNetworkVar(mNetid, "pairwise", accum)) return -1; mPairwiseCiphers = mask; return 0; } int WifiNetwork::setGroupCiphers(uint32_t mask) { char accum[64]; accum[0] = '\0'; if (mask & GroupCiphersMask::WEP40) strcat(accum, "WEP40 "); if (mask & GroupCiphersMask::WEP104) strcat(accum, "WEP104 "); if (mask & GroupCiphersMask::TKIP) strcat(accum, "TKIP "); if (mask & GroupCiphersMask::CCMP) strcat(accum, "CCMP "); if (mSuppl->setNetworkVar(mNetid, "group", accum)) return -1; mGroupCiphers = mask; return 0; } int WifiNetwork::setEnabled(bool enabled) { if (enabled) { if (getPriority() == -1) { LOGE("Cannot enable network when priority is not set"); errno = EAGAIN; return -1; } if (getKeyManagement() == KeyManagementMask::UNKNOWN) { LOGE("Cannot enable network when KeyManagement is not set"); errno = EAGAIN; return -1; } } if (mSuppl->enableNetwork(mNetid, enabled)) return -1; mEnabled = enabled; return 0; } int WifiNetwork::attachProperties(PropertyManager *pm, const char *nsName) { pm->attachProperty(nsName, mStaticProperties.propSsid); pm->attachProperty(nsName, mStaticProperties.propBssid); pm->attachProperty(nsName, mStaticProperties.propPsk); pm->attachProperty(nsName, mStaticProperties.propWepKey); pm->attachProperty(nsName, mStaticProperties.propDefKeyIdx); pm->attachProperty(nsName, mStaticProperties.propPriority); pm->attachProperty(nsName, mStaticProperties.propKeyManagement); pm->attachProperty(nsName, mStaticProperties.propProtocols); pm->attachProperty(nsName, mStaticProperties.propAuthAlgorithms); pm->attachProperty(nsName, mStaticProperties.propPairwiseCiphers); pm->attachProperty(nsName, mStaticProperties.propGroupCiphers); pm->attachProperty(nsName, mStaticProperties.propHiddenSsid); pm->attachProperty(nsName, mStaticProperties.propEnabled); return 0; } int WifiNetwork::detachProperties(PropertyManager *pm, const char *nsName) { pm->detachProperty(nsName, mStaticProperties.propEnabled); pm->detachProperty(nsName, mStaticProperties.propSsid); pm->detachProperty(nsName, mStaticProperties.propBssid); pm->detachProperty(nsName, mStaticProperties.propPsk); pm->detachProperty(nsName, mStaticProperties.propWepKey); pm->detachProperty(nsName, mStaticProperties.propDefKeyIdx); pm->detachProperty(nsName, mStaticProperties.propPriority); pm->detachProperty(nsName, mStaticProperties.propKeyManagement); pm->detachProperty(nsName, mStaticProperties.propProtocols); pm->detachProperty(nsName, mStaticProperties.propAuthAlgorithms); pm->detachProperty(nsName, mStaticProperties.propPairwiseCiphers); pm->detachProperty(nsName, mStaticProperties.propGroupCiphers); pm->detachProperty(nsName, mStaticProperties.propHiddenSsid); return 0; } int WifiNetwork::parseKeyManagementMask(const char *buffer, uint32_t *mask) { bool none = false; char *v_tmp = strdup(buffer); char *v_next = v_tmp; char *v_token; // LOGD("parseKeyManagementMask(%s)", buffer); *mask = 0; while((v_token = strsep(&v_next, " "))) { if (!strcasecmp(v_token, "NONE")) { *mask = KeyManagementMask::NONE; none = true; } else if (!none) { if (!strcasecmp(v_token, "WPA-PSK")) *mask |= KeyManagementMask::WPA_PSK; else if (!strcasecmp(v_token, "WPA-EAP")) *mask |= KeyManagementMask::WPA_EAP; else if (!strcasecmp(v_token, "IEEE8021X")) *mask |= KeyManagementMask::IEEE8021X; else { LOGW("Invalid KeyManagementMask value '%s'", v_token); errno = EINVAL; free(v_tmp); return -1; } } else { LOGW("KeyManagementMask value '%s' when NONE", v_token); errno = EINVAL; free(v_tmp); return -1; } } free(v_tmp); return 0; } int WifiNetwork::parseProtocolsMask(const char *buffer, uint32_t *mask) { bool none = false; char *v_tmp = strdup(buffer); char *v_next = v_tmp; char *v_token; // LOGD("parseProtocolsMask(%s)", buffer); *mask = 0; while((v_token = strsep(&v_next, " "))) { if (!strcasecmp(v_token, "WPA")) *mask |= SecurityProtocolMask::WPA; else if (!strcasecmp(v_token, "RSN")) *mask |= SecurityProtocolMask::RSN; else { LOGW("Invalid ProtocolsMask value '%s'", v_token); errno = EINVAL; free(v_tmp); return -1; } } free(v_tmp); return 0; } int WifiNetwork::parseAuthAlgorithmsMask(const char *buffer, uint32_t *mask) { bool none = false; char *v_tmp = strdup(buffer); char *v_next = v_tmp; char *v_token; // LOGD("parseAuthAlgorithmsMask(%s)", buffer); *mask = 0; if (buffer[0] == '\0') return 0; while((v_token = strsep(&v_next, " "))) { if (!strcasecmp(v_token, "OPEN")) *mask |= AuthenticationAlgorithmMask::OPEN; else if (!strcasecmp(v_token, "SHARED")) *mask |= AuthenticationAlgorithmMask::SHARED; else if (!strcasecmp(v_token, "LEAP")) *mask |= AuthenticationAlgorithmMask::LEAP; else { LOGW("Invalid AuthAlgorithmsMask value '%s'", v_token); errno = EINVAL; free(v_tmp); return -1; } } free(v_tmp); return 0; } int WifiNetwork::parsePairwiseCiphersMask(const char *buffer, uint32_t *mask) { bool none = false; char *v_tmp = strdup(buffer); char *v_next = v_tmp; char *v_token; // LOGD("parsePairwiseCiphersMask(%s)", buffer); *mask = 0; while((v_token = strsep(&v_next, " "))) { if (!strcasecmp(v_token, "NONE")) { *mask = PairwiseCiphersMask::NONE; none = true; } else if (!none) { if (!strcasecmp(v_token, "TKIP")) *mask |= PairwiseCiphersMask::TKIP; else if (!strcasecmp(v_token, "CCMP")) *mask |= PairwiseCiphersMask::CCMP; else { LOGW("PairwiseCiphersMask value '%s' when NONE", v_token); errno = EINVAL; free(v_tmp); return -1; } } else { LOGW("Invalid PairwiseCiphersMask value '%s'", v_token); errno = EINVAL; free(v_tmp); return -1; } } free(v_tmp); return 0; } int WifiNetwork::parseGroupCiphersMask(const char *buffer, uint32_t *mask) { bool none = false; char *v_tmp = strdup(buffer); char *v_next = v_tmp; char *v_token; // LOGD("parseGroupCiphersMask(%s)", buffer); *mask = 0; while((v_token = strsep(&v_next, " "))) { if (!strcasecmp(v_token, "WEP40")) *mask |= GroupCiphersMask::WEP40; else if (!strcasecmp(v_token, "WEP104")) *mask |= GroupCiphersMask::WEP104; else if (!strcasecmp(v_token, "TKIP")) *mask |= GroupCiphersMask::TKIP; else if (!strcasecmp(v_token, "CCMP")) *mask |= GroupCiphersMask::CCMP; else { LOGW("Invalid GroupCiphersMask value '%s'", v_token); errno = EINVAL; free(v_tmp); return -1; } } free(v_tmp); return 0; } WifiNetwork::WifiNetworkIntegerProperty::WifiNetworkIntegerProperty(WifiNetwork *wn, const char *name, bool ro, int elements) : IntegerProperty(name, ro, elements) { mWn = wn; } WifiNetwork::WifiNetworkStringProperty::WifiNetworkStringProperty(WifiNetwork *wn, const char *name, bool ro, int elements) : StringProperty(name, ro, elements) { mWn = wn; } WifiNetwork::WifiNetworkEnabledProperty::WifiNetworkEnabledProperty(WifiNetwork *wn) : WifiNetworkIntegerProperty(wn, "Enabled", false, 1) { } int WifiNetwork::WifiNetworkEnabledProperty::get(int idx, int *buffer) { *buffer = mWn->mEnabled; return 0; } int WifiNetwork::WifiNetworkEnabledProperty::set(int idx, int value) { return mWn->setEnabled(value == 1); } WifiNetwork::WifiNetworkSsidProperty::WifiNetworkSsidProperty(WifiNetwork *wn) : WifiNetworkStringProperty(wn, "Ssid", false, 1) { } int WifiNetwork::WifiNetworkSsidProperty::get(int idx, char *buffer, size_t max) { strncpy(buffer, mWn->getSsid() ? mWn->getSsid() : "none", max); return 0; } int WifiNetwork::WifiNetworkSsidProperty::set(int idx, const char *value) { return mWn->setSsid(value); } WifiNetwork::WifiNetworkBssidProperty::WifiNetworkBssidProperty(WifiNetwork *wn) : WifiNetworkStringProperty(wn, "Bssid", false, 1) { } int WifiNetwork::WifiNetworkBssidProperty::get(int idx, char *buffer, size_t max) { strncpy(buffer, mWn->getBssid() ? mWn->getBssid() : "none", max); return 0; } int WifiNetwork::WifiNetworkBssidProperty::set(int idx, const char *value) { return mWn->setBssid(value); } WifiNetwork::WifiNetworkPskProperty::WifiNetworkPskProperty(WifiNetwork *wn) : WifiNetworkStringProperty(wn, "Psk", false, 1) { } int WifiNetwork::WifiNetworkPskProperty::get(int idx, char *buffer, size_t max) { strncpy(buffer, mWn->getPsk() ? mWn->getPsk() : "none", max); return 0; } int WifiNetwork::WifiNetworkPskProperty::set(int idx, const char *value) { return mWn->setPsk(value); } WifiNetwork::WifiNetworkWepKeyProperty::WifiNetworkWepKeyProperty(WifiNetwork *wn) : WifiNetworkStringProperty(wn, "WepKey", false, 4) { } int WifiNetwork::WifiNetworkWepKeyProperty::get(int idx, char *buffer, size_t max) { const char *key = mWn->getWepKey(idx); strncpy(buffer, (key ? key : "none"), max); return 0; } int WifiNetwork::WifiNetworkWepKeyProperty::set(int idx, const char *value) { return mWn->setWepKey(idx, value); } WifiNetwork::WifiNetworkDefaultKeyIndexProperty::WifiNetworkDefaultKeyIndexProperty(WifiNetwork *wn) : WifiNetworkIntegerProperty(wn, "DefaultKeyIndex", false, 1) { } int WifiNetwork::WifiNetworkDefaultKeyIndexProperty::get(int idx, int *buffer) { *buffer = mWn->getDefaultKeyIndex(); return 0; } int WifiNetwork::WifiNetworkDefaultKeyIndexProperty::set(int idx, int value) { return mWn->setDefaultKeyIndex(value); } WifiNetwork::WifiNetworkPriorityProperty::WifiNetworkPriorityProperty(WifiNetwork *wn) : WifiNetworkIntegerProperty(wn, "Priority", false, 1) { } int WifiNetwork::WifiNetworkPriorityProperty::get(int idx, int *buffer) { *buffer = mWn->getPriority(); return 0; } int WifiNetwork::WifiNetworkPriorityProperty::set(int idx, int value) { return mWn->setPriority(value); } WifiNetwork::WifiNetworkKeyManagementProperty::WifiNetworkKeyManagementProperty(WifiNetwork *wn) : WifiNetworkStringProperty(wn, "KeyManagement", false, 1) { } int WifiNetwork::WifiNetworkKeyManagementProperty::get(int idx, char *buffer, size_t max) { if (mWn->getKeyManagement() == KeyManagementMask::NONE) strncpy(buffer, "NONE", max); else { char tmp[80] = { '\0' }; if (mWn->getKeyManagement() & KeyManagementMask::WPA_PSK) strcat(tmp, "WPA-PSK"); if (mWn->getKeyManagement() & KeyManagementMask::WPA_EAP) { if (tmp[0] != '\0') strcat(tmp, " "); strcat(tmp, "WPA-EAP"); } if (mWn->getKeyManagement() & KeyManagementMask::IEEE8021X) { if (tmp[0] != '\0') strcat(tmp, " "); strcat(tmp, "IEEE8021X"); } if (tmp[0] == '\0') { strncpy(buffer, "(internal error)", max); errno = ENOENT; return -1; } if (tmp[strlen(tmp)] == ' ') tmp[strlen(tmp)] = '\0'; strncpy(buffer, tmp, max); } return 0; } int WifiNetwork::WifiNetworkKeyManagementProperty::set(int idx, const char *value) { uint32_t mask; if (mWn->parseKeyManagementMask(value, &mask)) return -1; return mWn->setKeyManagement(mask); } WifiNetwork::WifiNetworkProtocolsProperty::WifiNetworkProtocolsProperty(WifiNetwork *wn) : WifiNetworkStringProperty(wn, "Protocols", false, 1) { } int WifiNetwork::WifiNetworkProtocolsProperty::get(int idx, char *buffer, size_t max) { char tmp[80] = { '\0' }; if (mWn->getProtocols() & SecurityProtocolMask::WPA) strcat(tmp, "WPA"); if (mWn->getProtocols() & SecurityProtocolMask::RSN) { if (tmp[0] != '\0') strcat(tmp, " "); strcat(tmp, "RSN"); } if (tmp[0] == '\0') { strncpy(buffer, "(internal error)", max); errno = ENOENT; return NULL; } if (tmp[strlen(tmp)] == ' ') tmp[strlen(tmp)] = '\0'; strncpy(buffer, tmp, max); return 0; } int WifiNetwork::WifiNetworkProtocolsProperty::set(int idx, const char *value) { uint32_t mask; if (mWn->parseProtocolsMask(value, &mask)) return -1; return mWn->setProtocols(mask); } WifiNetwork::WifiNetworkAuthAlgorithmsProperty::WifiNetworkAuthAlgorithmsProperty(WifiNetwork *wn) : WifiNetworkStringProperty(wn, "AuthAlgorithms", false, 1) { } int WifiNetwork::WifiNetworkAuthAlgorithmsProperty::get(int idx, char *buffer, size_t max) { char tmp[80] = { '\0' }; if (mWn->getAuthAlgorithms() == 0) { strncpy(buffer, "NONE", max); return 0; } if (mWn->getAuthAlgorithms() & AuthenticationAlgorithmMask::OPEN) strcat(tmp, "OPEN"); if (mWn->getAuthAlgorithms() & AuthenticationAlgorithmMask::SHARED) { if (tmp[0] != '\0') strcat(tmp, " "); strcat(tmp, "SHARED"); } if (mWn->getAuthAlgorithms() & AuthenticationAlgorithmMask::LEAP) { if (tmp[0] != '\0') strcat(tmp, " "); strcat(tmp, "LEAP"); } if (tmp[0] == '\0') { strncpy(buffer, "(internal error)", max); errno = ENOENT; return NULL; } if (tmp[strlen(tmp)] == ' ') tmp[strlen(tmp)] = '\0'; strncpy(buffer, tmp, max); return 0; } int WifiNetwork::WifiNetworkAuthAlgorithmsProperty::set(int idx, const char *value) { uint32_t mask; if (mWn->parseAuthAlgorithmsMask(value, &mask)) return -1; return mWn->setAuthAlgorithms(mask); } WifiNetwork::WifiNetworkPairwiseCiphersProperty::WifiNetworkPairwiseCiphersProperty(WifiNetwork *wn) : WifiNetworkStringProperty(wn, "PairwiseCiphers", false, 1) { } int WifiNetwork::WifiNetworkPairwiseCiphersProperty::get(int idx, char *buffer, size_t max) { if (mWn->getPairwiseCiphers() == PairwiseCiphersMask::NONE) strncpy(buffer, "NONE", max); else { char tmp[80] = { '\0' }; if (mWn->getPairwiseCiphers() & PairwiseCiphersMask::TKIP) strcat(tmp, "TKIP"); if (mWn->getPairwiseCiphers() & PairwiseCiphersMask::CCMP) { if (tmp[0] != '\0') strcat(tmp, " "); strcat(tmp, "CCMP"); } if (tmp[0] == '\0') { strncpy(buffer, "(internal error)", max); errno = ENOENT; return NULL; } if (tmp[strlen(tmp)] == ' ') tmp[strlen(tmp)] = '\0'; strncpy(buffer, tmp, max); } return 0; } int WifiNetwork::WifiNetworkPairwiseCiphersProperty::set(int idx, const char *value) { uint32_t mask; if (mWn->parsePairwiseCiphersMask(value, &mask)) return -1; return mWn->setPairwiseCiphers(mask); } WifiNetwork::WifiNetworkGroupCiphersProperty::WifiNetworkGroupCiphersProperty(WifiNetwork *wn) : WifiNetworkStringProperty(wn, "GroupCiphers", false, 1) { } int WifiNetwork::WifiNetworkGroupCiphersProperty::get(int idx, char *buffer, size_t max) { char tmp[80] = { '\0' }; if (mWn->getGroupCiphers() & GroupCiphersMask::WEP40) strcat(tmp, "WEP40"); if (mWn->getGroupCiphers() & GroupCiphersMask::WEP104) { if (tmp[0] != '\0') strcat(tmp, " "); strcat(tmp, "WEP104"); } if (mWn->getGroupCiphers() & GroupCiphersMask::TKIP) { if (tmp[0] != '\0') strcat(tmp, " "); strcat(tmp, "TKIP"); } if (mWn->getGroupCiphers() & GroupCiphersMask::CCMP) { if (tmp[0] != '\0') strcat(tmp, " "); strcat(tmp, "CCMP"); } if (tmp[0] == '\0') { strncpy(buffer, "(internal error)", max); errno = ENOENT; return -1; } if (tmp[strlen(tmp)] == ' ') tmp[strlen(tmp)] = '\0'; strncpy(buffer, tmp, max); return 0; } int WifiNetwork::WifiNetworkGroupCiphersProperty::set(int idx, const char *value) { uint32_t mask; if (mWn->parseGroupCiphersMask(value, &mask)) return -1; return mWn->setGroupCiphers(mask); } WifiNetwork::WifiNetworkHiddenSsidProperty::WifiNetworkHiddenSsidProperty(WifiNetwork *wn) : WifiNetworkStringProperty(wn, "HiddenSsid", false, 1) { } int WifiNetwork::WifiNetworkHiddenSsidProperty::get(int idx, char *buffer, size_t max) { const char *scan_ssid = mWn->getHiddenSsid(); strncpy(buffer, (scan_ssid ? scan_ssid : "none"), max); return 0; } int WifiNetwork::WifiNetworkHiddenSsidProperty::set(int idx, const char *value) { return mWn->setHiddenSsid(value); }