strongswan-libs0-5.8.2-lp151.4.9.1<>, ܉^8/=„/:CCMS:jP55mW+&)9e}kZua*Xb$[fRaԌQZ1K"I҉j('P+3;C<+xh@c1t!Cq Ak48V=AM3 % \ >uTuۭ?ڈ eA׈L"R6w'Kh>;G;a տ>$yo#zI*IӺ\&R|%>D?xd % I 7SY`K0K  K  \K K _SK apKfKmKssKxd;;;$(3(98@9:P>l@lFlGlKHqKIwKXxPdYyd\zxK]K^bIcdefluKvhwԈKxٴKyz(,2tCstrongswan-libs05.8.2lp151.4.9.1OpenSource IPsec-based VPN SolutionStrongSwan is an OpenSource IPsec-based VPN Solution for Linux This package provides the strongswan library and plugins.^8cloud135:openSUSE Leap 15.1openSUSEGPL-2.0+http://bugs.opensuse.orgProductivity/Networking/Securityhttps://www.strongswan.org/linuxx86_64/sbin/ldconfig [ -z "${TRANSACTIONAL_UPDATE}" -a -x /usr/bin/systemd-tmpfiles ] && /usr/bin/systemd-tmpfiles --create /usr/lib/tmpfiles.d/strongswan.conf || :9L+jpN%  Zo -aTfg)AOq!88hJ9  Ș#pYn{ ~P>(y(Y9H89H+98)8())8jxYP((JXJ(x(()H[Ip9(Z`)):8)p)I((*(PXx+O`)0((()P~OKP:P'`9zP)@)(((p98I088J9(i(9hn`~iM0=HX((9()XjpN%  Zo -aTfg)9L+AOqr4)pAA큀AAAAAAA큤A큤AA큤A^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^'^'^#^#^#^#^ ^#^ ^#^^#^^#^^#^^#^^#^^#^ ^ ^#^ ^ ^#^(^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^#^ ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ ^ ^ ^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.so.0.0.0libimcv.so.0.0.0libpttls.so.0.0.0libradius.so.0.0.0libsimaka.so.0.0.0libstrongswan.so.0.0.0libtls.so.0.0.0libtnccs.so.0.0.0libtpmtss.so.0.0.0libtpmtss.so.0.0.0libvici.so.0.0.0libvici.so.0.0.0rootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootrootstrongswan-5.8.2-lp151.4.9.1.src.rpmconfig(strongswan-libs0)libcharon.so.0()(64bit)libimcv.so.0()(64bit)libpttls.so.0()(64bit)libradius.so.0()(64bit)libsimaka.so.0()(64bit)libstrongswan-addrblock.so()(64bit)libstrongswan-aes.so()(64bit)libstrongswan-af-alg.so()(64bit)libstrongswan-agent.so()(64bit)libstrongswan-attr-sql.so()(64bit)libstrongswan-attr.so()(64bit)libstrongswan-blowfish.so()(64bit)libstrongswan-ccm.so()(64bit)libstrongswan-certexpire.so()(64bit)libstrongswan-cmac.so()(64bit)libstrongswan-constraints.so()(64bit)libstrongswan-counters.so()(64bit)libstrongswan-coupling.so()(64bit)libstrongswan-ctr.so()(64bit)libstrongswan-curl.so()(64bit)libstrongswan-curve25519.so()(64bit)libstrongswan-des.so()(64bit)libstrongswan-dhcp.so()(64bit)libstrongswan-dnskey.so()(64bit)libstrongswan-duplicheck.so()(64bit)libstrongswan-eap-aka-3gpp2.so()(64bit)libstrongswan-eap-aka.so()(64bit)libstrongswan-eap-dynamic.so()(64bit)libstrongswan-eap-gtc.so()(64bit)libstrongswan-eap-identity.so()(64bit)libstrongswan-eap-md5.so()(64bit)libstrongswan-eap-mschapv2.so()(64bit)libstrongswan-eap-peap.so()(64bit)libstrongswan-eap-radius.so()(64bit)libstrongswan-eap-sim-file.so()(64bit)libstrongswan-eap-sim-pcsc.so()(64bit)libstrongswan-eap-sim.so()(64bit)libstrongswan-eap-simaka-pseudonym.so()(64bit)libstrongswan-eap-simaka-reauth.so()(64bit)libstrongswan-eap-simaka-sql.so()(64bit)libstrongswan-eap-tls.so()(64bit)libstrongswan-eap-tnc.so()(64bit)libstrongswan-eap-ttls.so()(64bit)libstrongswan-farp.so()(64bit)libstrongswan-fips-prf.so()(64bit)libstrongswan-gcm.so()(64bit)libstrongswan-gcrypt.so()(64bit)libstrongswan-gmp.so()(64bit)libstrongswan-ha.so()(64bit)libstrongswan-hmac.so()(64bit)libstrongswan-kernel-netlink.so()(64bit)libstrongswan-ldap.so()(64bit)libstrongswan-led.so()(64bit)libstrongswan-md4.so()(64bit)libstrongswan-md5.so()(64bit)libstrongswan-mgf1.so()(64bit)libstrongswan-nonce.so()(64bit)libstrongswan-openssl.so()(64bit)libstrongswan-pem.so()(64bit)libstrongswan-pgp.so()(64bit)libstrongswan-pkcs1.so()(64bit)libstrongswan-pkcs11.so()(64bit)libstrongswan-pkcs12.so()(64bit)libstrongswan-pkcs7.so()(64bit)libstrongswan-pkcs8.so()(64bit)libstrongswan-pubkey.so()(64bit)libstrongswan-radattr.so()(64bit)libstrongswan-random.so()(64bit)libstrongswan-rc2.so()(64bit)libstrongswan-resolve.so()(64bit)libstrongswan-revocation.so()(64bit)libstrongswan-sha1.so()(64bit)libstrongswan-sha2.so()(64bit)libstrongswan-smp.so()(64bit)libstrongswan-socket-default.so()(64bit)libstrongswan-soup.so()(64bit)libstrongswan-sql.so()(64bit)libstrongswan-sshkey.so()(64bit)libstrongswan-tnc-imc.so()(64bit)libstrongswan-tnc-imv.so()(64bit)libstrongswan-tnc-pdp.so()(64bit)libstrongswan-tnc-tnccs.so()(64bit)libstrongswan-tnccs-11.so()(64bit)libstrongswan-tnccs-20.so()(64bit)libstrongswan-tnccs-dynamic.so()(64bit)libstrongswan-unity.so()(64bit)libstrongswan-vici.so()(64bit)libstrongswan-x509.so()(64bit)libstrongswan-xauth-eap.so()(64bit)libstrongswan-xauth-generic.so()(64bit)libstrongswan-xauth-pam.so()(64bit)libstrongswan-xcbc.so()(64bit)libstrongswan.so.0()(64bit)libtls.so.0()(64bit)libtnccs.so.0()(64bit)libtpmtss.so.0()(64bit)libvici.so.0()(64bit)strongswan-libs0strongswan-libs0(x86-64)@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@    /bin/sh/sbin/ldconfigconfig(strongswan-libs0)libc.so.6()(64bit)libc.so.6(GLIBC_2.10)(64bit)libc.so.6(GLIBC_2.14)(64bit)libc.so.6(GLIBC_2.15)(64bit)libc.so.6(GLIBC_2.17)(64bit)libc.so.6(GLIBC_2.2.5)(64bit)libc.so.6(GLIBC_2.22)(64bit)libc.so.6(GLIBC_2.25)(64bit)libc.so.6(GLIBC_2.3)(64bit)libc.so.6(GLIBC_2.3.4)(64bit)libc.so.6(GLIBC_2.4)(64bit)libc.so.6(GLIBC_2.7)(64bit)libc.so.6(GLIBC_2.8)(64bit)libcap.so.2()(64bit)libcrypto.so.1.1()(64bit)libcrypto.so.1.1(OPENSSL_1_1_0)(64bit)libcurl.so.4()(64bit)libdl.so.2()(64bit)libdl.so.2(GLIBC_2.2.5)(64bit)libgcrypt.so.20()(64bit)libgcrypt.so.20(GCRYPT_1.6)(64bit)libglib-2.0.so.0()(64bit)libgmp.so.10()(64bit)libgobject-2.0.so.0()(64bit)libgpg-error.so.0()(64bit)libgpg-error.so.0(GPG_ERROR_1.0)(64bit)libimcv.so.0()(64bit)liblber-2.4.so.2()(64bit)libldap_r-2.4.so.2()(64bit)libm.so.6()(64bit)libm.so.6(GLIBC_2.2.5)(64bit)libpam.so.0()(64bit)libpam.so.0(LIBPAM_1.0)(64bit)libpcsclite.so.1()(64bit)libpthread.so.0()(64bit)libpthread.so.0(GLIBC_2.2.5)(64bit)libpthread.so.0(GLIBC_2.3.2)(64bit)libpthread.so.0(GLIBC_2.3.3)(64bit)libpttls.so.0()(64bit)libradius.so.0()(64bit)libsimaka.so.0()(64bit)libsoup-2.4.so.1()(64bit)libstrongswan.so.0()(64bit)libsystemd.so.0()(64bit)libsystemd.so.0(LIBSYSTEMD_227)(64bit)libtls.so.0()(64bit)libtnccs.so.0()(64bit)libtpmtss.so.0()(64bit)libxml2.so.2()(64bit)libxml2.so.2(LIBXML2_2.4.30)(64bit)libxml2.so.2(LIBXML2_2.5.0)(64bit)libxml2.so.2(LIBXML2_2.6.0)(64bit)rpmlib(CompressedFileNames)rpmlib(FileDigests)rpmlib(PayloadFilesHavePrefix)rpmlib(PayloadIsXz)5.8.2-lp151.4.9.13.0.4-14.6.0-14.0-15.2-1strongswan5.8.24.14.1^|@^0"@]A]@]@]@ZYYYY$$@WzOVEUp=UlI@T|Tp@T@Tto@To)@TmMadhu Mohan Nelemane Madhu Mohan Nelemane Madhu Mohan Nelemane Madhu Mohan Nelemane Madhu Mohan Nelemane Madhu Mohan Nelemane mmnelemane@suse.comndas@suse.dendas@suse.dendas@suse.dendas@suse.dedoug@uq.edu.aumt@suse.demt@suse.demt@suse.demt@suse.demt@suse.demt@suse.demt@suse.demt@suse.demt@suse.de- Fix for to resolve multiple definition of swanctl_dir (bsc #1164493) [+ 0006-Resolve-multiple-definition-of-swanctl_dir.patch]- Updated to version 5.8.2 (jsc#SLE-11370) - Dropped following patches due to irrelevance in the updated version: [- strongswan_modprobe_syslog.patch ] [- strongswan_fipsfilter.patch ] [- 0006-fix-compilation-error-by-adding-stdint.h.patch ] [- 0007-strongswan-5.3.1-5.6.0_gmp-pkcs1-verify.patch ] [- 0008-strongswan-5.1.2-5.6.2_stroke_msg_len.patch ] [- 0009-strongswan-5.5.0-5.6.2_skeyseed_init.patch ] [- 0010-strongswan-4.4.0-5.7.0_gmp-pkcs1-overflow.patch ] - Version 5.8.2 =============== * Identity-based CA constraints, which enforce that the certificate chain of the remote peer contains a CA certificate with a specific identity, are supported via vici/swanctl.conf. This is similar to the existing CA constraints but doesn't require that the CA certificate is locally installed, for instance, intermediate CA certificates received from the peers. Wildcard identity matching (e.g. ..., OU=Research, CN=*) could also be used for the latter but requires trust in the intermediate CAs to only issue certificates with legitimate subject DNs (e.g. the "Sales" CA must not issue certificates with OU=Research). With the new constraint that's not necessary as long as a path length basic constraint (--pathlen for pki --issue) prevents intermediate CAs from issuing further intermediate CAs. * Intermediate CA certificates may now be sent in hash-and-URL encoding by configuring a base URL for the parent CA (#3234, swanctl/rw-hash-and-url-multi-level). * Implemented NIST SP-800-90A Deterministic Random Bit Generator (DRBG) based on AES-CTR and SHA2-HMAC modes. Currently used by the gmp and ntru plugins. * Random nonces sent in an OCSP requests are now expected in the corresponding OCSP responses. * The kernel-netlink plugin now ignores deprecated IPv6 addresses for MOBIKE. Whether temporary or permanent IPv6 addresses are included now depends on the charon.prefer_temporary_addrs setting (#3192). * Extended Sequence Numbers (ESN) are configured via PF_KEY if supported by the kernel. * The PF_KEY socket's receive buffer in the kernel-pfkey plugin is now cleared before sending requests, as many of the messages sent by the kernel are sent as broadcasts to all PF_KEY sockets. This is an issue if an external tool is used to manage SAs/policies unrelated to IPsec (#3225). * The vici plugin now uses unique section names for CHILD_SAs in child-updown events (7c74ce9190). * For individually deleted CHILD_SAs (in particular for IKEv1) the vici child-updown event now includes more information about the CHILD_SAs such as traffic statistics (#3198). * Custom loggers are correctly re-registered if log levels are changed via stroke loglevel (#3182). * Avoid lockups during startup on low entropy systems when using OpenSSL 1.1.1 (095a2c2eac). * Instead of failing later when setting a key, creating HMACs via openssl plugin now fails instantly if the underlying hash algorithm isn't supported (e.g. MD5 in FIPS-mode) so fallbacks to other plugins work properly (#3284). * Exponents of RSA keys read from TPM 2.0 via SAPI are correctly converted (8ee1242f1438). * Routing table IDs > 255 are supported for custom routes on Linux. * To avoid races, the check for hardware offloading support in the kernel-netlink plugin is performed during initialization of the plugin (a605452c03). * The D-Bus config file for charon-nm is now installed in $(datadir)/dbus-1/system.d instead of $(sysconfdir)/dbus-1/system.d, which is intended for sysadmin overrides. INVALID_MAJOR_VERSION notifies are now correctly sent in messages of the same exchange type and with the same message ID as the request. * IKEv2 SAs are now immediately destroyed when sending or receiving INVALID_SYNTAX notifies in authenticated messages. * For developers working from the repository the configure script now aborts if GNU gperf is not found. - Version 5.8.1 =============== * RDNs in DNs of X.509 certificates can now optionally be matched less strict. The global strongswan.conf option charon.rdn_matching takes two alternative values that cause the matching algorithm to either ignore the order of matched RDNs (reordered) or additionally (relaxed) accept DNs that contain more RDNs than configured (unmatched RDNs are treated like wildcard matches). * The updown plugin now passes the same interface to the script that is also used for the automatically installed routes, that is, the interface over which the peer is reached instead of the interface on which the local address is found (#3095). * TPM 2.0 contexts are now protected by a mutex to prevent issues if multiple IKE_SAs use the same private key concurrently (4b25885025). * Do a rekey check after the third QM message was received (#3060). * If available, explicit_bzero() is now used as memwipe() instead of our own implementation. * An .editorconfig file has been added, mainly so Github shows files with proper indentation (68346b6962). * The internal certificate of the load-tester plugin has been modified so it can again be used as end-entity cert with 5.6.3 and later (#3139). * The maximum data length of received COOKIE notifies (64 bytes) is now enforced (#3160). - Version 5.8.0 =============== * The systemd service units have been renamed. The modern unit, which was called strongswan-swanctl, is now called strongswan (the previous name is configured as alias in the unit, for which a symlink is created when the unit is enabled). The legacy unit is now called strongswan-starter. * Support for XFRM interfaces (available since Linux 4.19) has been added, which are intended to replace VTI devices (they are similar but offer several advantages, for instance, they are not bound to an address or address family). * IPsec SAs and policies are associated with such interfaces via interface IDs that can be configured in swanctl.conf (dynamic IDs may optionally be allocated for each SA and even direction). It's possible to use separate interfaces for in- and outbound traffic (or only use an interface in one direction and regular policies in the other). * Interfaces may be created dynamically via updown/vici scripts, or statically before or after establishing the SAs. Routes must be added manually as needed (the daemon will not install any routes for outbound policies with an interface ID). * When moving XFRM interfaces to other network namespaces they retain access to the SAs and policies installed in the original namespace, which allows providing IPsec tunnels for processes in other network namespaces without giving them access to the IPsec keys or IKE credentials. More information can be found on the page about route-based VPNs. * Initiation of childless IKE_SAs is supported (RFC 6023). If enabled and supported by the responder, no CHILD_SA is established during IKE_AUTH. Instead, all CHILD_SAs are created with CREATE_CHILD_SA exchanges. This allows using a separate DH exchange even for the first CHILD_SA, which is otherwise created during IKE_AUTH with keys derived from the IKE_SA's key material. * The swanctl --initiate command may be used to initiate only the IKE_SA via --ike option if --child is omitted and the peer supports this extension. * The NetworkManager backend and plugin support IPv6. * The new wolfssl plugin is a wrapper around the wolfSSL crypto library. Thanks to Sean Parkinson of wolfSSL Inc. for the initial patch. * IKE SPIs may optionally be labeled via the charon.spi_mask|label options in strongswan.conf. This feature was extracted from charon-tkm, however, now applies the mask/label in network order. * The openssl plugin supports ChaCha20-Poly1305 when built with OpenSSL 1.1.0. * The PB-TNC finite state machine according to section 3.2 of RFC 5793 was not correctly implemented when sending either a CRETRY or SRETRY batch. These batches can only be sent in the "Decided" state and a CRETRY batch can immediately carry all messages usually transported by a CDATA batch. It is currently not possible to send a SRETRY batch since full-duplex mode for PT-TLS transport is not supported. * Instead of marking IPv6 virtual IPs as deprecated, the kernel-netlink plugin now uses address labels to avoid that such addresses are used for non-VPN traffic (00a953d090). * The agent plugin now creates sockets to the ssh/gpg-agent dynamically and does not keep them open, which otherwise might prevent the agent from getting terminated. * To avoid broadcast loops the forecast plugin now only reinjects packets that are marked or received from the configured interface. * UTF-8 encoded passwords are supported via EAP-MSCHAPv2, which internally uses an UTF-16LE encoding to calculate the NT hash (#3014). * Properly delete temporary drop policies (used when updating IP addresses of SAs) if manual priorities are used, which was broken since 5.6.2 (8e31d65730). * Avoid overwriting start_action when parsing the inactivity timeout in the vici plugin (#2954). * Fixed the automatic termination of reloaded vici connections with start_action=start, which was broken since 5.6.3 (71b22c250f). * The lookup for shared secrets for IKEv1 SAs via sql plugin should now work better (6ec9f68f32). * Fixed a race condition in the trap manager between installation and removal of a policy (69cbe2ca3f). * Compilation of the kernel-netlink plugin has been fixed on old kernels (< 2.6.39), which was caused by the HW offload changes (c7f579fa17). * The IPsec stack detection and module loading in starter has been removed (it wasn't enforced anyway and loading modules doesn't seem necessary, also KLIPS hasn't been supported for a long time and PF_KEY will eventually be removed from the Linux kernel, ba817d2917). * Several IKEv2 protocol details are now handled more strictly: Unrequested virtual IPs are ignored, CFG_REPLY payloads are ignored if no CFG_REQUEST payloads were sent, a USE TRANSPORT_MODE notify received from the responder is checked against the local configuration. * The keys and certificates used by the scenarios in the testing environment are now generated dynamically. Running the testing/scripts/build-certs script after creating the base and root images uses the pki utility installed in the latter to create the keys and certificates for all the CAs and in some cases for individual scenarios. These credentials are stored in the source tree, not the image, so this has to be called only once even if the images are later rebuilt. The script automatically (re-)rebuilds the guest images as that generates fresh CRLs and signs the DNS zones. The only keys/certificates currently not generated are the very large ones used by the ikev2/rw-eap-tls-fragments scenario. - Version 5.7.2 =============== * For RSA with PSS padding, the TPM 2.0 specification mandates the maximum salt length (as defined by the length of the key and hash). However, if the TPM is FIPS-168-4 compliant, the salt length equals the hash length. This is assumed for FIPS-140-2 compliant TPMs, but if that's not the case, it might be necessary to manually enable charon.plugins.tpm.fips_186_4 if the TPM doesn't use the maximum salt length. * Directories for credentials loaded by swanctl are now accessed relative to the loaded swanctl.conf file, in particular, when loading it from a custom location via --file argument. * The base directory, which is used if no custom location for swanctl.conf is specified, is now also configurable at runtime via SWANCTL_DIR environment variable. * If RADIUS Accounting is enabled, the eap-radius plugin will add the session ID (Acct-Session-Id) to Access-Request messages, which e.g. simplifies associating database entries for IP leases and accounting with sessions (the session ID does not change when IKE_SAs are rekeyed, #2853). * All IP addresses assigned by a RADIUS server are included in Accounting-Stop messages even if the client did not claim them, allowing to release them early in case of connection errors (#2856). * Selectors installed on transport mode SAs by the kernel-netlink plugin are now updated if an IP address changes (e.g. via MOBIKE) and it was part of the selectors. * No deletes are sent anymore when a rekeyed CHILD_SA expires (#2815). * The bypass-lan plugin now tracks interfaces to handle subnets that move from one interface to another and properly update associated routes (#2820). * Only valid and expected inbound IKEv2 messages are used to update the timestamp of the last received message (previously, retransmits also triggered an update). * IKEv2 requests from responders are now ignored until the IKE_SA is fully established (e.g. if a DPD request from the peer arrives before the IKE_AUTH response does, 46bea1add9). Delayed IKE_SA_INIT responses with COOKIE notifies we already recevied are ignored, they caused another reset of the IKE_SA previously (#2837). * Active and queued Quick Mode tasks are now adopted if the peer reauthenticates an IKEv1 SA while creating lots of CHILD_SAs. * Newer versions of the FreeBSD kernel add an SADB_X_EXT_SA2 extension to SADB_ACQUIRE messages, which allows the kernel-pfkey plugin to determine the reqid of the policy even if it wasn't installed by the daemon previously (e.g. when using FreeBSD's if_ipsec(4) VTIs, which install policies themselves, 872b9b3e8d). * Added support for RSA signatures with SHA-256 and SHA-512 to the agent plugin. For older versions of ssh/gpg-agent that only support SHA-1, IKEv2 signature authentication has to be disabled via charon.signature_authentication. * The sshkey and agent plugins support Ed25519/Ed448 SSH keys and signatures. * The openssl plugin supports X25519/X448 Diffie-Hellman and Ed25519/Ed448 keys and signatures when built against OpenSSL 1.1.1. * Support for Ed25519, ChaCha20/Poly1305, SHA-3 and AES-CCM were added to the botan plugin. * The mysql plugin now properly handles database connections with transactions under heavy load (#2779). * IP addresses in ha pools are now distributed evenly among all segments (#2828). * Private key implementations may optionally provide a list of supported signature schemes, which, as described above, is used by the tpm plugin because for each key on a TPM 2.0 the hash algorithm and for RSA also the padding scheme is predefined. * The testing environment is now based on Debian 9 (stretch) by default. This required some changes, in particular, updating to FreeRADIUS 3.x (which forced us to abandon the TNC@FHH patches and scenarios, 2fbe44bef3) and removing FIPS-enabled versions of OpenSSL (the FIPS module only supports OpenSSL 1.0.2). * Most test scenarios were migrated to swanctl. - Version 5.7.1 =============== * Fixes a vulnerability in the gmp plugin triggered by crafted certificates with RSA keys with very small moduli. When verifying signatures with such keys, the code patched with the fix for CVE-2018-16151/2 caused an integer underflow and subsequent heap buffer overflow that results in a crash of the daemon. * The vulnerability has been registered as CVE-2018-17540. - Version 5.7.0 =============== * Fixes a potential authorization bypass vulnerability in the gmp plugin that was caused by a too lenient verification of PKCS#1 v1.5 signatures. Several flaws could be exploited by a Bleichenbacher-style attack to forge signatures for low-exponent keys (i.e. with e=3). * CVE-2018-16151 has been assigned to the problem of accepting random bytes after the OID of the hash function in such signatures, and CVE-2018-16152 has been assigned to the issue of not verifying that the parameters in the ASN.1 algorithmIdentitifer structure is empty. Other flaws that don't lead to a vulnerability directly (e.g. not checking for at least 8 bytes of padding) have no separate CVE assigned. * Dots are not allowed anymore in section names in swanctl.conf and strongswan.conf. This mainly affects the configuration of file loggers. If the path for such a log file contains dots it now has to be configured in the new path setting within the arbitrarily renamed subsection in the filelog section. * Sections in swanctl.conf and strongswan.conf may now reference other sections. All settings and subsections from such a section are inherited. This allows to simplify configs as redundant information has only to be specified once and may then be included in other sections (see strongswan.conf for an example). * The originally selected IKE config (based on the IPs and IKE version) can now change if no matching algorithm proposal is found. This way the order of the configs doesn't matter that much anymore and it's easily possible to specify separate configs for clients that require weaker algorithms (instead of having to also add them in other configs that might be selected). * Support for Postquantum Preshared Keys for IKEv2 (draft-ietf-ipsecme-qr-ikev2) has been added. For an example refer to the swanctl/rw-cert-ppk scenario (or with EAP, or PSK authentication). * The new botan plugin is a wrapper around the Botan C++ crypto library. It requires a fairly recent build from Botan's master branch (or the upcoming 2.8.0 release). Thanks to René Korthaus and his team from Rohde & Schwarz Cybersecurity for the initial patch and to Jack Lloyd for quickly adding missing functions to Botan's FFI (C89) interface. * Implementation of RFC 8412 "Software Inventory Message and Attributes (SWIMA) for PA-TNC". * SWIMA subscription option sets CLOSE_WRITE trigger on apt history.log file resulting in a ClientRetry PB-TNC batch to initialize a new measurement cycle. The new imv/imc-swima plugins replace the previous imv/imc-swid plugins, which were removed. * Added support for fuzzing the PA-TNC (RFC 5792) and PB-TNC (RFC 5793) NEA protocols on Google's OSS-Fuzz infrastructure. * Support for version 2 of Intel's TPM2-TSS TGC Software Stack. The presence of the in-kernel /dev/tpmrm0 resource manager is automatically detected. * The pki tool accepts a xmppAddr otherName as a subjectAlternativeName using the syntax --san xmppaddr:. * swanctl.conf supports the configuration of marks the in- and/or outbound SA should apply to packets after processing on Linux. Configuring such a mark for outbound SAs requires at least a 4.14 kernel. The ability to set a mask and configuring a mark/mask for inbound SAs will be added with the upcoming 4.19 kernel. * New options in swanctl.conf allow configuring how/whether DF, ECN and DS fields in the IP headers are copied during IPsec processing. Controlling this is currently only possible on Linux. * The handling of sequence numbers in IKEv1 DPDs has been improved (#2714). * To avoid conflicts, the dhcp plugin now only uses the DHCP server port if explicitly configured. - Version 5.6.3 =============== * Fixed a DoS vulnerability in the IKEv2 key derivation if the openssl plugin is used in FIPS mode and HMAC-MD5 is negotiated as PRF. This vulnerability has been registered as CVE-2018-10811. * Fixed a vulnerability in the stroke plugin, which did not check the received length before reading a message from the socket. Unless a group is configured, root privileges are required to access that socket, so in the default configuration this shouldn't be an issue. This vulnerability has been registered as CVE-2018-5388. * CRLs that are not yet valid are now ignored to avoid problems in scenarios where expired certificates are removed from new CRLs and the clock on the host doing the revocation check is trailing behind that of the host issuing CRLs. Not doing this could result in accepting a revoked and expired certificate, if it's still valid according to the trailing clock but not contained anymore in not yet valid CRLs. * The issuer of fetched CRLs is now compared to the issuer of the checked certificate (#2608). * CRL validation results other than revocation (e.g. a skipped check because the CRL couldn't be fetched) are now stored also for intermediate CA certificates and not only for end-entity certificates, so a strict CRL policy can be enforced in such cases. * In compliance with RFC 4945, section 5.1.3.2, certificates used for IKE must now either not contain a keyUsage extension (like the ones generated by pki), or have at least one of the digitalSignature or nonRepudiation bits set. * New options for vici/swanctl allow forcing the local termination of an IKE_SA. This might be useful in situations where it's known the other end is not reachable anymore, or that it already removed the IKE_SA, so retransmitting a DELETE and waiting for a response would be pointless. * Waiting only a certain amount of time for a response (i.e. shorter than all retransmits would be) before destroying the IKE_SA is also possible by additionally specifying a timeout in the forced termination request. * When removing routes, the kernel-netlink plugin now checks if it tracks other routes for the same destination and replaces the installed route instead of just removing it. Same during installation, where existing routes previously weren't replaced. This should allow using traps with virtual IPs on Linux (#2162). * The dhcp plugin now only sends the client identifier DHCP option if the identity_lease setting is enabled (7b660944b6). It can also send identities of up to 255 bytes length, instead of the previous 64 bytes (30e886fe3b, 0e5b94d038). If a server address is configured, DHCP requests are now sent from port 67 instead of 68 to avoid ICMP port unreachables (becf027cd9). * The handling of faulty INVALID_KE_PAYLOAD notifies (e.g. one containing a DH group that wasn't proposed) during CREATE_CHILD_SA exchanges has been improved (#2536). * Roam events are now completely ignored for IKEv1 SAs (there is no MOBIKE to handle such changes properly). * ChaCha20/Poly1305 is now correctly proposed without key length (#2614). For compatibility with older releases the chacha20poly1305compat keyword may be included in proposals to also propose the algorithm with a key length (c58434aeff). * Configuration of hardware offload of IPsec SAs is now more flexible and allows a new setting (auto), which automatically uses it if the kernel and device both support it. If hw offload is set to yes and offloading is not supported, the CHILD_SA installation now fails. * The kernel-pfkey plugin optionally installs routes via internal interface (one with an IP in the local traffic selector). On FreeBSD, enabling this selects the correct source IP when sending packets from the gateway itself (e811659323). * SHA-2 based PRFs are supported in PKCS#8 files as generated by OpenSSL 1.1 (#2574). * The pki --verify tool may load CA certificates and CRLs from directories. * The IKE daemon now also switches to port 4500 if the remote port is not 500 (e.g. because the remote maps the response to a different port, as might happen on Azure), as long as the local port is 500 (85bfab621d). * Fixed an issue with DNS servers passed to NetworkManager in charon-nm (ee8c25516a). * Logged traffic selectors now always contain the protocol if either protocol or port are set (a36d8097ed). * Only the inbound SA/policy will be updated as reaction to IP address changes for rekeyed CHILD_SAs that are kept around. * The parser for strongswan.conf/swanctl.conf now accepts = characters in values without having to put the value in quotes (e.g. for Base64 encoded shared secrets). Notes for developers: * trap_manager_t: Trap policies are now unistalled by peer/child name and not the reqid. * No reqid is returned anymore when installing trap policies. * child_sa_t: A new state (CHILD_DELETED) is used for CHILD_SAs that have been deleted but not yet destroyed (after a rekeying CHILD_SAs are kept around for a while to process delayed packets). This way child_updown events are not triggered anymore for such SAs when an IKE_SA that has such CHILD_SAs assigned is deleted. - Version 5.6.2 =============== * Fixed a DoS vulnerability in the parser for PKCS#1 RSASSA-PSS signatures that was caused by insufficient input validation. One of the configurable parameters in algorithm identifier structures for RSASSA-PSS signatures is the mask generation function (MGF). Only MGF1 is currently specified for this purpose. However, this in turn takes itself a parameter that specifies the underlying hash function. strongSwan's parser did not correctly handle the case of this parameter being absent, causing an undefined data read. This vulnerability has been registered as CVE-2018-6459. * When rekeying IKEv2 IKE_SAs the previously negotiated DH group will be reused, instead of using the first configured group, which avoids an additional exchange if the peer previously selected a different DH group via INVALID_KE_PAYLOAD notify. The same is also done when rekeying CHILD_SAs except for the first rekeying of the CHILD_SA that was created with the IKE_SA, where no DH group was negotiated yet. Also, the selected DH group is moved to the front in all sent proposals that contain it and all proposals that don't are moved to the back in order to convey the preference for this group to the peer. * Handling of MOBIKE task queuing has been improved. In particular, the response to an address update (with NAT-D payloads) is not ignored anymore if only an address list update or DPD is queued as that could prevent updating the UDP encapsulation in the kernel. * On Linux, roam events may optionally be triggered by changes to the routing rules, which can be useful if routing rules (instead of e.g. route metrics) are used to switch from one to another interface (i.e. from one to another routing table). Since routing rules are currently not evaluated when doing route lookups this is only useful if the kernel-based route lookup is used (4664992f7d). * The fallback drop policies installed to avoid traffic leaks when replacing addresses in installed policies are now replaced by temporary drop policies, which also prevent acquires because we currently delete and reinstall IPsec SAs to update their addresses (35ef1b032d). * Access X.509 certificates held in non-volatile storage of a TPM 2.0 referenced via the NV index. Adding the --keyid parameter to pki --print allows to print private keys or certificates stored in a smartcard or a TPM 2.0. * Fixed proposal selection if a peer incorrectly sends DH groups in the ESP proposal during IKE_AUTH and also if a DH group is configured in the local ESP proposal and charon.prefer configured_proposals is disabled (d058fd3c32). * The lookup for PSK secrets for IKEv1 has been improved for certain scenarios (see #2497 for details). * MSKs received via RADIUS are now padded to 64 bytes to avoid compatibility issues with EAP-MSCHAPv2 and PRFs that have a block size < 64 bytes (e.g. AES-XCBC-PRF-128, see 73cbce6013). * The tpm_extendpcr command line tool extends a digest into a TPM PCR. * Ported the NetworkManager backend from the deprecated libnm-glib to libnm. * The save-keys debugging/development plugin saves IKE and/or ESP keys to files compatible with Wireshark. - Version 5.6.1 =============== * Several algorithms were removed from the default ESP/AH and IKE proposals in compliance with RFC 8221 and RFC 8247, respectively. Removed from the default ESP/AH proposal were the 3DES and Blowfish encryption algorithms and the HMAC-MD5 integrity algorithm. From the IKE default proposal the HMAC-MD5 integrity algorithm and the MODP-1024 Diffie-Hellman group were removed (the latter is significant for Windows clients in their default configuration). These algorithms may still be used in custom proposals. * Support for RSASSA-PSS signatures has been added. For compatibility with previous releases they are currently not used automatically, by default, to change that charon.rsa_pss may be enabled. To explicitly use or require such signatures during IKEv2 signature authentication (RFC 7427) ike:rsa/pss... authentication constraints may be used for specific connections (regardless of whether the strongswan.conf option above is enabled). Only the hash algorithm can be specified in such constraints, the MGF1 will be based on that hash and the salt length will equal the hash length (when verifying the salt length is not enforced). To enforce such signatures during PKI verification use rsa/pss... authentication constraints. * All pki commands that create certificates/CRLs can be made to sign with RSASSA-PSS instead of the classing PKCS#1 scheme with the --rsa-padding pss option. As with signatures during authentication, only the hash algorithm is configurable (via --digest option), the MGF1 will be based on that and the salt length will equal the hash length. * These signatures are supported by all RSA backends except pkcs11 (i.e. gmp, gcrypt, openssl). The gmp plugin requires the mgf1 plugin. Note that RSASSA-PSS algorithm identifiers and parameters in keys (public keys in certificates or private keys in PKCS#8 files) are currently not used as constraints. * The sec-updater tool checks for security updates in dpkg-based repositories (e.g. Debian/Ubuntu) and sets the security flags in the IMV policy database accordingly. Additionally for each new package version a SWID tag for the given OS and HW architecture is created and stored in the database. * Using the sec-updater.sh script template the lookup can be automated (e.g. via an hourly cron job). * When restarting an IKEv2 negotiation after receiving an INVALID_KE_PAYLOAD notify (or due to other reasons like too many retransmits) a new initiator SPI is allocated. This prevents issues caused by retransmits for IKE_SA_INIT messages. * Because the initiator SPI was previously reused when restarting the connection delayed responses for previous connection attempts were processed and might have caused fatal errors due to a failed DH negotiation or because of the internal retry counter in the ike-init task. For instance, if we proposed a DH group the responder rejected we might have later received delayed responses that either contained INVALID_KE_PAYLOAD notifies with the DH group we already switched to, or, if we retransmitted an IKE_SA_INIT with the requested group but then had to restart again, a KE payload with a group different from the one we proposed. * The introduction of file versions in the IMV database scheme broke file reference hash measurements. This has been fixed by creating generic product versions having an empty package name. * A new timeout option for the systime-fix plugin stops periodic system time checks after a while and enforces a certificate verification, closing or reauthenticating all SAs with invalid certificates. * The IKE event counters, previously only available via ipsec listcounters command, may now also be queried and reset via vici and the new swanctl --counters command. They are collected and provided by the optional counters plugin (enabled by default for backwards compatibility if the stroke plugin is built). * Class attributes received in RADIUS Access-Accept messages may optionally be added to RADIUS accounting messages (655924074b). * Basic support for systemd sockets has been added, which may be used for privilege separation (59db98fb94). * Inbound marks may optionally be installed in the SA again (was removed with 5.5.2) by enabling the mark_in_sa option in swanctl.conf. * The timeout of leases in pools configured via pool utility may be configured in other units than hours. INITIAL_CONTACT notifies are now only omitted if never is configured as uniqueness policy. * Outbound FWD policies for shunts are not installed anymore, by default (as is the case for other policies since 5.5.1). * Don't consider a DH group mismatch during CHILD_SA rekeying as failure as responder (e7276f78aa). * Handling of fragmented IPv4 and IPv6 packets in libipsec has been improved (e138003de9). * Trigger expire events for the correct IPsec SA in libipsec (6e861947a0). * A crash in CRL verification via openssl plugin using OpenSSL 1.1 has been fixed (78acaba6a1). * No hard-coded default proposals are passed from starter to the stroke plugin anymore (the IKE proposal used curve25519 since 5.5.2, which is an optional plugin). * A workaround for an issue with virtual IPs on macOS 10.13 (High Sierra) has been added (039b85dd43). * Handling of IKE_SA rekey collisions in charon-tkm has been fixed. * Instead of failing or just silently doing nothing unit tests may now warn about certain conditions (e.g. if a test was not executed due to external dependencies).- Added patch to fix vulnerability: CVE-2018-17540 (bsc#1109845) [+ 0010-strongswan-4.4.0-5.7.0_gmp-pkcs1-overflow.patch]- Added patch to fix vulnerability: CVE-2018-10811 (bsc#1093536) - denial-of-service vulnerability [+ 0009-strongswan-5.5.0-5.6.2_skeyseed_init.patch]- Added patch to fix vulnerability: CVE-2018-5388 (bsc#1094462) - Buffer Underflow in stroke_socket.c [+ 0008-strongswan-5.1.2-5.6.2_stroke_msg_len.patch]- Added patch to fix vulnerability: CVE-2018-16151,CVE-2018-16152 (bsc#1107874) - Insufficient input validation in gmp plugin [+ 0007-strongswan-5.3.1-5.6.0_gmp-pkcs1-verify.patch]- Removed unused requires and macro calls(bsc#1083261)- Updated to strongSwan 5.6.0 providing the following changes: * Fixed a DoS vulnerability in the gmp plugin that was caused by insufficient input validation when verifying RSA signatures, which requires decryption with the operation m^e mod n, where m is the signature, and e and n are the exponent and modulus of the public key. The value m is an integer between 0 and n-1, however, the gmp plugin did not verify this. So if m equals n the calculation results in 0, in which case mpz_export() returns NULL. This result wasn't handled properly causing a null-pointer dereference. This vulnerability has been registered as CVE-2017-11185. (bsc#1051222) * New SWIMA IMC/IMV pair implements the draft-ietf-sacm-nea-swima-patnc Internet Draft and has been demonstrated at the IETF 99 Prague Hackathon. * The IMV database template has been adapted to achieve full compliance with the ISO 19770-2:2015 SWID tag standard. * The pt-tls-client can attach and use TPM 2.0 protected private keys via the --keyid parameter. * By default the /etc/swanctl/conf.d directory is created and *.conf files in it are included in the default swanctl.conf file. * The curl plugin now follows HTTP redirects (configurable via strongswan.conf). * The CHILD_SA rekeying was fixed in charon-tkm and the behavior is refined a bit more since 5.5.3 * libtpmtss supports Intel's TSS2 Architecture Broker and Resource Manager interface (tcti-tabrmd). * more on https://wiki.strongswan.org/versions/66- fix "uintptr_t’ undeclared" compilation error. [+0006-fix-compilation-error-by-adding-stdint.h.patch]- Updated to strongSwan 5.3.5(bsc#1050691) providing the following changes: * Fixed a DoS vulnerability in the gmp plugin that was caused by insufficient input validation when verifying RSA signatures. More specifically, mpz_powm_sec() has two requirements regarding the passed exponent and modulus that the plugin did not enforce, if these are not met the calculation will result in a floating point exception that crashes the whole process. This vulnerability has been registered as CVE-2017-9022. Please refer to our blog for details. * Fixed a DoS vulnerability in the x509 plugin that was caused because the ASN.1 parser didn't handle ASN.1 CHOICE types properly, which could result in an infinite loop when parsing X.509 extensions that use such types. This vulnerability has been registered as CVE-2017-9023. Please refer to our blog for details. * The behavior during IKEv2 CHILD_SA rekeying has been changed in order to avoid traffic loss. When responding to a CREATE_CHILD_SA request to rekey a CHILD_SA the responder already has everything available to install and use the new CHILD_SA. However, this could lead to lost traffic as the initiator won't be able to process inbound packets until it processed the CREATE_CHILD_SA response and updated the inbound SA. To avoid this the responder now only installs the new inbound SA and delays installing the outbound SA until it receives the DELETE for the replaced CHILD_SA. * The messages transporting these DELETEs could reach the peer before packets sent with the deleted outbound SAs reach it. To reduce the chance of traffic loss due to this the inbound SA of the replaced CHILD_SA is not removed for a configurable amount of seconds (charon.delete_rekeyed_delay) after the DELETE has been processed. * The code base has been ported to Apple's ARM64 iOS platform, which required several changes regarding the use of variadic functions. This was necessary because the calling conventions for variadic and regular functions are different there. This means that assigning a non-variadic function to a variadic function pointer, as we did with our enumerator_t::enumerate() implementations and several callbacks, will result in crashes as the called function accesses the arguments differently than the caller provided them. To avoid this issue the enumerator_t interface has been changed and the signature of the callback functions for enumerator_create_filter() and two methods on linked_list_t have been changed. Refer to the developer notes below for details. * Adds support for fuzzing the certificate parser provided by the default plugins (x509, pem, gmp etc.) on Google's OSS-Fuzz infrastructure (or generally with libFuzzer). Several issues found while fuzzing these plugins were fixed. * Two new options have been added to charon's retransmission settings: retransmit_limit and retransmit_jitter. The former adds an upper limit to the calculated retransmission timeout, the latter randomly reduces it. Refer to Retransmission for details. * A bug in swanctl's --load-creds command was fixed that caused unencrypted private keys to get unloaded if the command was called multiple times. The load-key VICI command now returns the key ID of the loaded key on success. * The credential manager now enumerates local credential sets before global ones. This means certificates supplied by the peer will now be preferred over certificates with the same identity that may be locally stored (e.g. in the certificate cache). * Adds support for hardware offload of IPsec SAs as introduced by Linux 4.11 for specific hardware that supports this. * The pki tool loads the curve25519 plugin by default. [- 0006-Make-sure-the-modulus-is-odd-and-the-exponent-not-zero.patch, - 0007-asn1-parser-Fix-CHOICE-parsing.patch] - libhydra is removed as all kernel plugins moved to libcharon- Applied patch for "Don't retransmit Aggressive Mode response" bsc#985012. - Applied upstream patch for "Insufficient Input Validation in gmp Plugin" bsc#1039514(CVE-2017-9022). - Applied upstream patch for "Incorrect x509 ASN.1 parser error handling" bsc#1039515(CVE-2017-9023). [+0005-ikev1-Don-t-retransmit-Aggressive-Mode-response.patch, +0006-Make-sure-the-modulus-is-odd-and-the-exponent-not-zero.patch, +0007-asn1-parser-Fix-CHOICE-parsing.patch]- Updated to strongSwan 5.3.5 providing the following changes: Changes in version 5.3.5: * Properly handle potential EINTR errors in sigwaitinfo(2) calls that replaced sigwait(3) calls with 5.3.4. * RADIUS retransmission timeouts are now configurable, courtesy of Thom Troy. Changes in version 5.3.4: * Fixed an authentication bypass vulnerability in the eap-mschapv2 plugin that was caused by insufficient verification of the internal state when handling MSCHAPv2 Success messages received by the client. This vulnerability has been registered as CVE-2015-8023. * The sha3 plugin implements the SHA3 Keccak-F1600 hash algorithm family. Within the strongSwan framework SHA3 is currently used for BLISS signatures only because the OIDs for other signature algorithms haven't been defined yet. Also the use of SHA3 for IKEv2 has not been standardized yet. Changes in version 5.3.3: * Added support for the ChaCha20/Poly1305 AEAD cipher specified in RFC 7539 and RFC 7634 using the chacha20poly1305 ike/esp proposal keyword. The new chapoly plugin implements the cipher, if possible SSE-accelerated on x86/x64 architectures. It is usable both in IKEv2 and the strongSwan libipsec ESP backend. On Linux 4.2 or newer the kernel-netlink plugin can configure the cipher for ESP SAs. * The vici interface now supports the configuration of auxiliary certification authority information as CRL and OCSP URIs. * In the bliss plugin the c_indices derivation using a SHA-512 based random oracle has been fixed, generalized and standardized by employing the MGF1 mask generation function with SHA-512. As a consequence BLISS signatures unsing the improved oracle are not compatible with the earlier implementation. * Support for auto=route with right=%any for transport mode connections has been added (the ikev2/trap-any scenario provides examples). * The starter daemon does not flush IPsec policies and SAs anymore when it is stopped. Already existing duplicate policies are now overwritten by the IKE daemon when it installs its policies. * Init limits (like charon.init_limit_half_open) can now optionally be enforced when initiating SAs via VICI. For this, IKE_SAs initiated by the daemon are now also counted as half open SAs, which, as a side-effect, fixes the status output while connecting (e.g. in ipsec status). * Symmetric configuration of EAP methods in left|rightauth is now possible when mutual EAP-only authentication is used (previously, the client had to configure rightauth=eap or rightauth=any, which prevented it from using this same config as responder). * The initiator flag in the IKEv2 header is compared again (wasn't the case since 5.0.0) and packets that have the flag set incorrectly are again ignored. * Implemented a demo Hardcopy Device IMC/IMV pair based on the "Hardcopy Device Health Assessment Trusted Network Connect Binding" (HCD-TNC) document drafted by the IEEE Printer Working Group (PWG). * Fixed IF-M segmentation which failed in the presence of multiple small attributes in front of a huge attribute to be segmented. Changes in version 5.3.2: * Fixed a vulnerability that allowed rogue servers with a valid certificate accepted by the client to trick it into disclosing its username and even password (if the client accepts EAP-GTC). This was caused because constraints against the responder's authentication were enforced too late. This vulnerability has been registered as CVE-2015-4171. Changes in version 5.3.1: * Fixed a denial-of-service and potential remote code execution vulnerability triggered by IKEv1/IKEv2 messages that contain payloads for the respective other IKE version. Such payload are treated specially since 5.2.2 but because they were still identified by their original payload type they were used as such in some places causing invalid function pointer dereferences. The vulnerability has been registered as CVE-2015-3991. * The new aesni plugin provides CBC, CTR, XCBC, CMAC, CCM and GCM crypto primitives for AES-128/192/256. The plugin requires AES-NI and PCLMULQDQ instructions and works on both x86 and x64 architectures. It provides superior crypto performance in userland without any external libraries. Changes in version 5.3.0: * Added support for IKEv2 make-before-break reauthentication. By using a global CHILD_SA reqid allocation mechanism, charon supports overlapping CHILD_SAs. This allows the use of make-before-break instead of the previously supported break-before-make reauthentication, avoiding connectivity gaps during that procedure. As the new mechanism may fail with peers not supporting it (such as any previous strongSwan release) it must be explicitly enabled using the charon.make_before_break strongswan.conf option. * Support for "Signature Authentication in IKEv2" (RFC 7427) has been added. This allows the use of stronger hash algorithms for public key authentication. By default, signature schemes are chosen based on the strength of the signature key, but specific hash algorithms may be configured in leftauth. * Key types and hash algorithms specified in rightauth are now also checked against IKEv2 signature schemes. If such constraints are used for certificate chain validation in existing configurations, in particular with peers that don't support RFC 7427, it may be necessary to disable this feature with the charon.signature_authentication_constraints setting, because the signature scheme used in classic IKEv2 public key authentication may not be strong enough. * The new connmark plugin allows a host to bind conntrack flows to a specific CHILD_SA by applying and restoring the SA mark to conntrack entries. This allows a peer to handle multiple transport mode connections coming over the same NAT device for client-initiated flows. A common use case is to protect L2TP/IPsec, as supported by some systems. * The forecast plugin can forward broadcast and multicast messages between connected clients and a LAN. For CHILD_SA using unique marks, it sets up the required Netfilter rules and uses a multicast/broadcast listener that forwards such messages to all connected clients. This plugin is designed for Windows 7 IKEv2 clients, which announces its services over the tunnel if the negotiated IPsec policy allows it. * For the vici plugin a Python Egg has been added to allow Python applications to control or monitor the IKE daemon using the VICI interface, similar to the existing ruby gem. The Python library has been contributed by Björn Schuberg. * EAP server methods now can fulfill public key constraints, such as rightcert or rightca. Additionally, public key and signature constraints can be specified for EAP methods in the rightauth keyword. Currently the EAP-TLS and EAP-TTLS methods provide verification details to constraints checking. * Upgrade of the BLISS post-quantum signature algorithm to the improved BLISS-B variant. Can be used in conjunction with the SHA256, SHA384 and SHA512 hash algorithms with SHA512 being the default. * The IF-IMV 1.4 interface now makes the IP address of the TNC access requestor as seen by the TNC server available to all IMVs. This information can be forwarded to policy enforcement points (e.g. firewalls or routers). * The new mutual tnccs-20 plugin parameter activates mutual TNC measurements in PB-TNC half-duplex mode between two endpoints over either a PT-EAP or PT-TLS transport medium. - Adjusted file lists and removed obsolete patches [- 0005-strongswan-5.2.2-5.3.0_unknown_payload.patch, - 0006-strongswan-5.1.0-5.3.1_enforce_remote_auth.patch, - 0007-strongswan-4.4.0-5.3.3_eap_mschapv2_state.patch]- Applied upstream fix for a authentication bypass vulnerability in the eap-mschapv2 plugin (CVE-2015-8023,bsc#953817). [+ 0007-strongswan-4.4.0-5.3.3_eap_mschapv2_state.patch]- Applied upstream fix for a rogue servers vulnerability, that may enable rogue servers able to authenticate itself with certificate issued by any CA the client trusts, to gain user credentials from a client in certain IKEv2 setups (bsc#933591,CVE-2015-4171). [+ 0006-strongswan-5.1.0-5.3.1_enforce_remote_auth.patch] - Fix to apply unknown_payload patch if fips is disabled (<= 13.1) and renamed it to use number prefix corresponding with patch nr. [- strongswan-5.2.2-5.3.0_unknown_payload.patch, + 0005-strongswan-5.2.2-5.3.0_unknown_payload.patch]- Applied upstream fix for a DoS and potential remote code execution vulnerability through payload type (bsc#931272,CVE-2015-3991) [+ strongswan-5.2.2-5.3.0_unknown_payload.patch]- Updated to strongSwan 5.2.2 providing the following changes: Changes in version 5.2.2: * Fixed a denial-of-service vulnerability triggered by an IKEv2 Key Exchange payload that contains the Diffie-Hellman group 1025. This identifier was used internally for DH groups with custom generator and prime. Because these arguments are missing when creating DH objects based on the KE payload an invalid pointer dereference occurred. This allowed an attacker to crash the IKE daemon with a single IKE_SA_INIT message containing such a KE payload. The vulnerability has been registered as CVE-2014-9221. * The left/rightid options in ipsec.conf, or any other identity in strongSwan, now accept prefixes to enforce an explicit type, such as email: or fqdn:. Note that no conversion is done for the remaining string, refer to ipsec.conf(5) for details. * The post-quantum Bimodal Lattice Signature Scheme (BLISS) can be used as an IKEv2 public key authentication method. The pki tool offers full support for the generation of BLISS key pairs and certificates. * Fixed mapping of integrity algorithms negotiated for AH via IKEv1. This could cause interoperability issues when connecting to older versions of charon. Changes in version 5.2.1: * The new charon-systemd IKE daemon implements an IKE daemon tailored for use with systemd. It avoids the dependency on ipsec starter and uses swanctl as configuration backend, building a simple and lightweight solution. It supports native systemd journal logging. * Support for IKEv2 fragmentation as per RFC 7383 has been added. Like IKEv1 fragmentation it can be enabled by setting fragmentation=yes in ipsec.conf. * Support of the TCG TNC IF-M Attribute Segmentation specification proposal. All attributes can be segmented. Additionally TCG/SWID Tag, TCG/SWID Tag ID and IETF/Installed Packages attributes can be processed incrementally on a per segment basis. * The new ext-auth plugin calls an external script to implement custom IKE_SA authorization logic, courtesy of Vyronas Tsingaras. * For the vici plugin a ruby gem has been added to allow ruby applications to control or monitor the IKE daemon. The vici documentation has been updated to include a description of the available operations and some simple examples using both the libvici C interface and the ruby gem. Changes in version 5.2.0: * strongSwan has been ported to the Windows platform. Using a MinGW toolchain, many parts of the strongSwan codebase run natively on Windows 7 / 2008 R2 and newer releases. charon-svc implements a Windows IKE service based on libcharon, the kernel-iph and kernel-wfp plugins act as networking and IPsec backend on the Windows platform. socket-win provides a native IKE socket implementation, while winhttp fetches CRL and OCSP information using the WinHTTP API. * The new vici plugin provides a Versatile IKE Configuration Interface for charon. Using the stable IPC interface, external applications can configure, control and monitor the IKE daemon. Instead of scripting the ipsec tool and generating ipsec.conf, third party applications can use the new interface for more control and better reliability. * Built upon the libvici client library, swanctl implements the first user of the VICI interface. Together with a swanctl.conf configuration file, connections can be defined, loaded and managed. swanctl provides a portable, complete IKE configuration and control interface for the command line. The first six swanctl example scenarios have been added. * The SWID IMV implements a JSON-based REST API which allows the exchange of SWID tags and Software IDs with the strongTNC policy manager. * The SWID IMC can extract all installed packages from the dpkg (Debian, Ubuntu, Linux Mint etc.), rpm (Fedora, RedHat, OpenSUSE, etc.), or pacman (Arch Linux, Manjaro, etc.) package managers, respectively, using the swidGenerator (https://github.com/strongswan/swidGenerator) which generates SWID tags according to the new ISO/IEC 19770-2:2014 standard. * All IMVs now share the access requestor ID, device ID and product info of an access requestor via a common imv_session object. * The Attestation IMC/IMV pair supports the IMA-NG measurement format introduced with the Linux 3.13 kernel. * The aikgen tool generates an Attestation Identity Key bound to a TPM. * Implemented the PT-EAP transport protocol (RFC 7171) for Trusted Network Connect. * The ipsec.conf replay_window option defines connection specific IPsec replay windows. Original patch courtesy of Zheng Zhong and Christophe Gouault from 6Wind. - Adjusted file lists and removed obsolete patches [- 0005-restore-registration-algorithm-order.bug897512.patch, - 0006-strongswan-5.1.2-5.2.1_modp_custom.CVE-2014-9221.patch] - Adopted/Merged fipscheck patches [* strongswan_fipscheck.patch, strongswan_fipsfilter.patch]- Disallow brainpool elliptic curve groups in fips mode (bnc#856322). [* strongswan_fipsfilter.patch]- Applied an upstream fix for a denial-of-service vulnerability, which can be triggered by an IKEv2 Key Exchange payload, that contains the Diffie-Hellman group 1025 (bsc#910491,CVE-2014-9221). [+ 0006-strongswan-5.1.2-5.2.1_modp_custom.CVE-2014-9221.patch] - Adjusted whilelist of approved algorithms in fips mode (bsc#856322). [* strongswan_fipsfilter.patch] - Renamed patch file to match it's patch number: [- 0001-restore-registration-algorithm-order.bug897512.patch, + 0005-restore-registration-algorithm-order.bug897512.patch]- Updated strongswan-hmac package description (bsc#856322).- Disabled explicit gpg validation; osc source_validator does it. - Guarded fipscheck and hmac package in the spec file for >13.1.- Added generation of fips hmac hash files using fipshmac utility and a _fipscheck script to verify binaries/libraries/plugings shipped in the strongswan-hmac package. With enabled fips in the kernel, the ipsec script will call it before any action or in a enforced/manual "ipsec _fipscheck" call. Added config file to load openssl and kernel af-alg plugins, but not all the other modules which provide further/alternative algs. Applied a filter disallowing non-approved algorithms in fips mode. (fate#316931,bnc#856322). [+ strongswan_fipscheck.patch, strongswan_fipsfilter.patch] - Fixed file list in the optional (disabled) strongswan-test package. - Fixed build of the strongswan built-in integrity checksum library and enabled building it only on architectures tested to work. - Fix to use bug number 897048 instead 856322 in last changes entry. - Applied an upstream patch reverting to store algorithms in the registration order again as ordering them by identifier caused weaker algorithms to be proposed first by default (bsc#897512). [+0001-restore-registration-algorithm-order.bug897512.patch]/bin/sh/sbin/ldconfigcloud135 1587918136  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJK5.8.2-lp151.4.9.15.8.2-lp151.4.9.15.8.2-lp151.4.9.1 strongswan.confstrongswan.dcharoncharon-logging.confcharon-systemd.confcharon.confaddrblock.confaes.confaf-alg.confagent.confattr-sql.confattr.confblowfish.confccm.confcertexpire.confcmac.confconstraints.confcounters.confcoupling.confctr.confcurl.confcurve25519.confdes.confdhcp.confdnskey.confdrbg.confduplicheck.confeap-aka-3gpp2.confeap-aka.confeap-dynamic.confeap-gtc.confeap-identity.confeap-md5.confeap-mschapv2.confeap-peap.confeap-radius.confeap-sim-file.confeap-sim-pcsc.confeap-sim.confeap-simaka-pseudonym.confeap-simaka-reauth.confeap-simaka-sql.confeap-tls.confeap-tnc.confeap-ttls.conffarp.conffips-prf.confgcm.confgcrypt.confgmp.confha.confhmac.confkernel-netlink.confldap.confled.confmd4.confmd5.confmgf1.confnonce.confopenssl.confpem.confpgp.confpkcs1.confpkcs11.confpkcs12.confpkcs7.confpkcs8.confpubkey.confradattr.confrandom.confrc2.confresolve.confrevocation.confsha1.confsha2.confsmp.confsocket-default.confsoup.confsql.confsshkey.confstroke.conftnc-imc.conftnc-imv.conftnc-pdp.conftnc-tnccs.conftnccs-11.conftnccs-20.conftnccs-dynamic.confunity.confupdown.confvici.confx509.confxauth-eap.confxauth-generic.confxauth-pam.confxcbc.confimcv.confpki.confpool.confscepclient.confstarter.confswanctl.conftnc.confstrongswan.confipsecimcvsimc-scanner.soimc-test.soimv-scanner.soimv-test.solibcharon.so.0libcharon.so.0.0.0libimcv.so.0libimcv.so.0.0.0libpttls.so.0libpttls.so.0.0.0libradius.so.0libradius.so.0.0.0libsimaka.so.0libsimaka.so.0.0.0libstrongswan.so.0libstrongswan.so.0.0.0libtls.so.0libtls.so.0.0.0libtnccs.so.0libtnccs.so.0.0.0libtpmtss.solibtpmtss.so.0libtpmtss.so.0.0.0libvici.solibvici.so.0libvici.so.0.0.0pluginslibstrongswan-addrblock.solibstrongswan-aes.solibstrongswan-af-alg.solibstrongswan-agent.solibstrongswan-attr-sql.solibstrongswan-attr.solibstrongswan-blowfish.solibstrongswan-ccm.solibstrongswan-certexpire.solibstrongswan-cmac.solibstrongswan-constraints.solibstrongswan-counters.solibstrongswan-coupling.solibstrongswan-ctr.solibstrongswan-curl.solibstrongswan-curve25519.solibstrongswan-des.solibstrongswan-dhcp.solibstrongswan-dnskey.solibstrongswan-duplicheck.solibstrongswan-eap-aka-3gpp2.solibstrongswan-eap-aka.solibstrongswan-eap-dynamic.solibstrongswan-eap-gtc.solibstrongswan-eap-identity.solibstrongswan-eap-md5.solibstrongswan-eap-mschapv2.solibstrongswan-eap-peap.solibstrongswan-eap-radius.solibstrongswan-eap-sim-file.solibstrongswan-eap-sim-pcsc.solibstrongswan-eap-sim.solibstrongswan-eap-simaka-pseudonym.solibstrongswan-eap-simaka-reauth.solibstrongswan-eap-simaka-sql.solibstrongswan-eap-tls.solibstrongswan-eap-tnc.solibstrongswan-eap-ttls.solibstrongswan-farp.solibstrongswan-fips-prf.solibstrongswan-gcm.solibstrongswan-gcrypt.solibstrongswan-gmp.solibstrongswan-ha.solibstrongswan-hmac.solibstrongswan-kernel-netlink.solibstrongswan-ldap.solibstrongswan-led.solibstrongswan-md4.solibstrongswan-md5.solibstrongswan-mgf1.solibstrongswan-nonce.solibstrongswan-openssl.solibstrongswan-pem.solibstrongswan-pgp.solibstrongswan-pkcs1.solibstrongswan-pkcs11.solibstrongswan-pkcs12.solibstrongswan-pkcs7.solibstrongswan-pkcs8.solibstrongswan-pubkey.solibstrongswan-radattr.solibstrongswan-random.solibstrongswan-rc2.solibstrongswan-resolve.solibstrongswan-revocation.solibstrongswan-sha1.solibstrongswan-sha2.solibstrongswan-smp.solibstrongswan-socket-default.solibstrongswan-soup.solibstrongswan-sql.solibstrongswan-sshkey.solibstrongswan-tnc-imc.solibstrongswan-tnc-imv.solibstrongswan-tnc-pdp.solibstrongswan-tnc-tnccs.solibstrongswan-tnccs-11.solibstrongswan-tnccs-20.solibstrongswan-tnccs-dynamic.solibstrongswan-unity.solibstrongswan-vici.solibstrongswan-x509.solibstrongswan-xauth-eap.solibstrongswan-xauth-generic.solibstrongswan-xauth-pam.solibstrongswan-xcbc.sostrongswantemplatesconfigpluginsaddrblock.confaes.confaf-alg.confagent.confattr-sql.confattr.confblowfish.confccm.confcertexpire.confcmac.confconstraints.confcounters.confcoupling.confctr.confcurl.confcurve25519.confdes.confdhcp.confdnskey.confdrbg.confduplicheck.confeap-aka-3gpp2.confeap-aka.confeap-dynamic.confeap-gtc.confeap-identity.confeap-md5.confeap-mschapv2.confeap-peap.confeap-radius.confeap-sim-file.confeap-sim-pcsc.confeap-sim.confeap-simaka-pseudonym.confeap-simaka-reauth.confeap-simaka-sql.confeap-tls.confeap-tnc.confeap-ttls.conffarp.conffips-prf.confgcm.confgcrypt.confgmp.confha.confhmac.confkernel-netlink.confldap.confled.confmd4.confmd5.confmgf1.confnonce.confopenssl.confpem.confpgp.confpkcs1.confpkcs11.confpkcs12.confpkcs7.confpkcs8.confpubkey.confradattr.confrandom.confrc2.confresolve.confrevocation.confsha1.confsha2.confsmp.confsocket-default.confsoup.confsql.confsshkey.confstroke.conftnc-imc.conftnc-imv.conftnc-pdp.conftnc-tnccs.conftnccs-11.conftnccs-20.conftnccs-dynamic.confunity.confupdown.confvici.confx509.confxauth-eap.confxauth-generic.confxauth-pam.confxcbc.confstrongswan.confstrongswan.dcharon-logging.confcharon-systemd.confcharon.confimcv.confpki.confpool.confscepclient.confstarter.confswanctl.conftnc.confdatabaseimvdata.sqltables.sqlsql/etc//etc/strongswan.d//etc/strongswan.d/charon//usr/lib/tmpfiles.d//usr/lib64//usr/lib64/ipsec//usr/lib64/ipsec/imcvs//usr/lib64/ipsec/plugins//usr/share//usr/share/strongswan//usr/share/strongswan/templates//usr/share/strongswan/templates/config//usr/share/strongswan/templates/config/plugins//usr/share/strongswan/templates/config/strongswan.d//usr/share/strongswan/templates/database//usr/share/strongswan/templates/database/imv/-fmessage-length=0 -grecord-gcc-switches -O2 -Wall -D_FORTIFY_SOURCE=2 -fstack-protector-strong -funwind-tables -fasynchronous-unwind-tables -fstack-clash-protection -gobs://build.opensuse.org/openSUSE:Maintenance:12467/openSUSE_Leap_15.1_Update/ce95465e3f80b9061118043c5b27b3e0-strongswan.openSUSE_Leap_15.1_Updatedrpmxz5x86_64-suse-linux      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefgASCII textdirectoryELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=13cbf85bee4b8dc2a31213172f653619f7c3027a, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=ebfffd8e42a8b7ac042d4b50c7be843e80512c11, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=6ad44fbb6110548f688bf3c33beb5c771262db06, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=962cd2626a966153db795ab762c5c2ff3b300236, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=eea800d15bdeaf3ba61f4634f00510563a54e102, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=07fce1919c321495ab9c54eb8440939cc30d47b8, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=4a5a03bcbc763e82d5316b1fd98629065d34122e, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=c84d715a16d191e28f51f32748df689299405c64, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=132948ad2c2ebb4f7e6eb2b62b6787bd511128c8, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=fdf7393760a182afce890035ad5875cef613cd53, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=9af86592ef4db075fdf99034dfe98ee92a1c478a, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=90ebcbc73e0601d7384aeffd4a792e767c518b60, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=ac5512b7f9a7a25afbc8f1225e7a26f04cf93c28, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=7ea410ec0b9d7322c98d6430803511fc4e3eb46b, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=d50a536208629015cafd0af56cdc1828bc059bea, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=2833570b22d39383ee75abc0b2dc10cc02ae687e, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=11743da9e10b6722603fe1d9fde646cfb4dcf88c, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=334f49f8347f7538de99f98f9c1011d686aad0ae, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=abc335138c00f9548a32165c8baf4f0ce761fd98, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=3b851ef25822773083ee3570327e5b19a95b6d01, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=a4de23a1f5602b15b7082318ef7930509be428dc, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=e88b2a3c5f8ecfcac016a1e52aff8c2e16743545, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=00a20386ac732ca3a483640c38f17689fb230e42, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=d16bb8c197b6abe371ec320b0d8e3ae6628393d5, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=f213ffbf56f27c9ef7530fc4f0c0a058f1e5b058, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=466d59b0f0adcf627e56921a5b3db6d638cfa47d, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=5f3df779aa6faf05764415b5b5ae10fa9a19f2f6, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=2d906c5b9c58c7c19151ab964984ce0088a7e801, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=f7294d973e0be23d6dfafa577d6d6307a6e2f9f1, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=b0c2727cc0c8c8cf146e4ab73fcbd630420e6e35, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=accc64b135ee79982e1f24e906a04488c68ea762, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=ada1a82ef4ff56fd467a3bf0ab3b1058b36fed61, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=7564ae65aff42d4a97e462cbfbd477c2543ced28, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=39de325fc49d020345e47c6069838e777661c0b5, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=e4c436e44df774660888df2d4a626e946f59078c, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=8325439c79d02853932c66e7b67920f9622a204e, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=a7bf2a2bcf903599440c400f9f926f70fb890fd1, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=394c4eb6cddcd4db175bb7a3fd49fa42d45fe798, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=bffd24cff90f7e024c6644966dbcbe47e916a7fe, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=793779c3a17793089fd2ea6ed95a22fc1213bc35, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=a91746dece973719da11a6e371eb58d1a7907ba5, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=d0b39ef70547ddbf681b3ea14bbf07b093efc687, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=70a8ab68c75265b10ac2c275ed8d780dc036d4f8, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=5e021e4474aabff0772799a125d0d205b698fe47, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=735f976a1d4679529444ee4de841713c736f5cc3, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=fe85e4f4c934fc0d8ab578a5e5aebacfccdaef3e, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=a16c591eb4cd1b821490f2ffc4771d2f8083362f, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=a8a5e44b78e1b7f577a19ebf102e7f72bc9e0a7a, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=3c1b4cb08291cc959d91ce911790ce0020430698, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=510832ba9ed42b68b906ccd7fd9085b4408be2b5, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=758264f6262466fe44e814845d9ec30351466e2b, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=8d82070f373fa4d55fe86c5134f29ab003bdc5c5, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=a297707871b69e9586bb567e23904003a5b28ed0, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=d714b27c6c21343e7b8737b33f38eff2285df1f1, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=3258e4cafa0d1c236dca5e0abf4827c0d03f9dde, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=930f7118c09fa174bc0eba35e4932a6457cda3ff, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=8c6d40ea8b9a641c647909fe44dac8a32e7b9820, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=265c6001f6dea9b7c8efe2af7e6fb30d42708810, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=66368c195f01df0cef0fc014058a28c410f49950, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=12012e45c461b729c32717608c739e2d67691786, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=2fa0af1299f33e2d729c7c80b765e4ae1d14f6a9, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=45dbb9b901593fc66575c8d2c32527393330c182, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=769b4806e94da005bda5e21b26bcbc9d93b40a75, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=52703c12369be02def030c89838112a422d7b758, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=7a119c1b119fb119f705c9a1711b47fe2475b682, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=d5f0a354789dc0057f56e9bb68c5b9e9bef39c87, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=0d48f795749693302d61e22b1cce617915a826cd, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=77a2c1a66850a5eb5ee7f00ab4d1825944bd8ca7, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=20f8dabadb122b6194184a610076946a34e92ae8, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=1e380e73a949cbabded8339184ee843bd850dd31, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=b3363e41b2bfa718912bc44343cc134586447063, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=007f03fb50a163f0f55d24ce729db1c6a77ba12f, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=8baea887aa862cccf5dcdbc445366530fe7ba652, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=a299c39d9cc03b0c8338a90cc54b2104a3b2a2d5, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=ed42ab1bfee7e1f52dfa73c44418d33d64a5267d, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=4a044548b423657356aafd81b8dcf1bcfc57680b, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=b76606b67bb50e426aaccdba235f28e8d19e13f5, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=d153f23bfa87c4656f817e3c14206ee56d23d85a, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=1699ed8c9e62911d9affbf5b81a9ca67e5abc920, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=0c5322b5b85bfbc66eaeb3fade5dfef2c6f80106, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=6ebdd8ef279cb058225904d1d4d47dc99189715c, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=9abb31b931402825e0a3339115c333cd2f4caf4e, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=f85fe3dd822f33a4866bf2efc6041c0c1b838828, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=9728042f6f784af6ab4f8fb50d14eac2b452ba68, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=355c8a3c26a36d0ccd4bdb5a85e56617114768ac, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=b9e74c7269ccd0aff1a46bb34986a675d5cf2bd3, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=8aea0d96098fbcda2778549c66baf28863ec5ee7, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=ea0b026660cda58f75e8b968513bfe0b31aa5b2d, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=1bd49c5cc25fd4a451f185e5254cd8a6480266d2, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=b304b4d0879cb2b9efafeec67730cc9e4b0cf499, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=2755029966f3f1921aeadf2f6a26d6d40f78b27a, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=23050fa3b5ea2223048296bc24a08c7a843b7138, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=34f7d3b1edbb27cfbb47c8cbce474d8832f22e39, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=8fbac588fdc37d9a33860f9163c0d80dbca3eb8e, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=5d175b0894b3f27d8943807f8d5f05d5bf764185, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=d66fd6ecb95eaabaa24cb4162ae7047f4d8a0a91, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=c51b286ad70d1864cc1b0a063455e18e1406ffcb, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=f48504edbd8ef75e29fb5d21c57200e7a0d0a372, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=115b9ae1e16e7c8c5b09ccbfa7f8b177dbffd456, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=72ea23f46e31b3a8cda970075bd5f654f3356368, strippedELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, BuildID[sha1]=8829e4ae6d7d8cd187d47b0533ae8c72a7c39af8, stripped "/8CJ_hot} !*28>FLS[_ejt{ &0;FNX_ejqw{           R RRR-RR RRR-RR RR RR-RR RRR-RPR!R&R R RR RR R-R R%RPR&R RRR RR RR2R-R%RPR&R RR R0R-R%RPR!R&R RR RR-R%R RPR RR RR-RP]R/RR(R'R&R R RRR RRRR RR%RRR.RP^R&R RR RR-R%RP_R&R RR-R%RP`R RR-RPa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an]FHAutf-8fe9b6a5a0671e0a2038e6840b6c96bc3093d4473e6d38b87c6452da81dc1fe15?7zXZ !t/@]"k%Fc֘f0mh41"0 +öj!+C䷵}m?,WCBZ2nC|U'$M֖x?&NizD9(ӔEX']ET%7\&*֝uߔ30YiD?7k4Wyo[; %l7!nV_ʎXBAD}a YұW]^,֍W>7F$K\B=8ֽfh/\˶ >9.B7НJeSLZѧu%`VNko;r[GL)p6f&:[EhEnbhRWtcLdtӹ`1~X@qorH3EYAnbA-asX?`A6ixHŮ3l/X9Qb3(nY@)ESy7ce7}_z.Ϲ"Dǟ_Ø`xURٓUPlBZ l*lPڡf]3thU=7S袲 sp8c# H?~dE)V.uEdϵ͌c[?:LTB?|gךzfgz[$ +MQ>i>m9CLkb B&gS^r*(`NcH+3/1( ^E5JXNu{'b(֙ +3^p͍_!71CQ{̉|Il!|l<8i.Y,٘ A  ɡ6rӐ j>,ip#`"YJM5 >?+;\IHHbˆllfvYa=eVtB/=:3b;{V6[Q":hI'?5W'7M]դ3ı 1Vx6e"IqY^3d -DKqA_ۦ)aHK3qdh.c);d8^ xJcmrp1y L'KíBDcVg) <B~tah}M;~gbu*^j[K>PK\#*.heO4jx/_ hBAU(.L7ʞJ!}HG.z ƿ8kc9lhQcD&wD?AD/&8 :_♄ A3Wd%zwonk.([V{}hg㺠ķԯ^}hM|!#J>h;X@b\s7@A(<2n6]:# jl {Os}ΣX6M7Kr!NtsAl5ɑg6/s?ڕKG֛ 8XuaRJԠm%(`VZ:SM׬Iem2h t|EdvPDU= 7]xu0104aÍ7H5duLuo6v zlEM3 8k:2`įӨ.xTGc7315ffÕ23㞄 voBS$(A]oBHv y:j)XLA@m3&^o>7M>l` H}yҋ8ZGnVIOrV~JBS1:oXe>W1ޥ?#D&UT_Sx i`t:"JoPOŹEI6YwS@{`Sm'j"=L.xJٕAoSQF $dDp.)pP*a! t`_UM8ka|$~ZGL:#L ;(c~C4Gg=OXqꑂ F l%d|ƿJ! ;ADkrk<)00knz6:h̍ IoD-6(lzӫۈk5=Vw-74既N&6< %sIa{(z^Ll:Kw Cz Uk6.h'*G9x; zB?(sUO{V\o.sjKS)-#B(/3A|EG6)$W27SҠ<*rWY$Ǡ! /5ވl4YTm|dQ|)~j%c*[>Dw T $nʴ(Ϥ. pQ>Qf$ ·vXjؕOe -3kk$[ }Nz^kG:' 7v<`pйoC!\Ba1b|9pc\8 Mw)_%ׇy4Fz/0 e+_!H*C8g[+ A|.ˬ ȑޓ Fx%),QmBa~+z{])m>/?'ZO$-qBcVk]շÙ:t\StCMHgi2*@k`w %1zú:$OOn8[f=Z`?ʤ+ϱV/}r#ѹpRL Fǟkscx\nZJƐ@B֦[69G'2[/߫^xD>t&@dEИu3}*v^S\\"컝Ii0އapipMQbdod,Uw0C``+ 4WAtLr]2 U6Yc3D! wf'$ڟ4'})Wvg8ͲfAV#^aB<"KE\і-ww6ۃh.>9'-LϘ kJR_m(,0C0z]8 5Eȍ,75AWRQ@SN=%(u[VO56GdW9 8Oi1J۹Aa': Icčf1d@uJ@{}K2)J3u. ۄr +"jr qB>,1/yꯐLH@0gt b$kD`?Ɩ Ax.sXŭa}X(@Fr v9ϽY02-j50UaONAO FGj~P5:Wfd׉3ŠƳbPzB|NvTb1'/0T2s '5Gwg6`h ; ;柶&bR"j^k%=5sߎ+QHq!_8;] Br·C.v~T޴M!v