mirror of
https://gitlab.torproject.org/tpo/core/tor.git
synced 2024-11-30 23:53:32 +01:00
Merge branch 'tor-github/pr/438' into maint-0.3.5
This commit is contained in:
commit
488969fe9c
4
changes/ticket27838
Normal file
4
changes/ticket27838
Normal file
@ -0,0 +1,4 @@
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o Minor bugfixes (hidden service v3):
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- Build the service descriptor signing key certificate before uploading so
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we always have a fresh one leaving no chances for it to expire service
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side. Fixes bug 27838; bugfix on 0.3.2.1-alpha.
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@ -1696,6 +1696,32 @@ build_desc_intro_points(const hs_service_t *service,
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} DIGEST256MAP_FOREACH_END;
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}
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/* Build the descriptor signing key certificate. */
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static void
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build_desc_signing_key_cert(hs_service_descriptor_t *desc, time_t now)
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{
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hs_desc_plaintext_data_t *plaintext;
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tor_assert(desc);
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tor_assert(desc->desc);
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/* Ease our life a bit. */
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plaintext = &desc->desc->plaintext_data;
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/* Get rid of what we have right now. */
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tor_cert_free(plaintext->signing_key_cert);
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/* Fresh certificate for the signing key. */
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plaintext->signing_key_cert =
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tor_cert_create(&desc->blinded_kp, CERT_TYPE_SIGNING_HS_DESC,
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&desc->signing_kp.pubkey, now, HS_DESC_CERT_LIFETIME,
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CERT_FLAG_INCLUDE_SIGNING_KEY);
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/* If the cert creation fails, the descriptor encoding will fail and thus
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* ultimately won't be uploaded. We'll get a stack trace to help us learn
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* where the call came from and the tor_cert_create() will log the error. */
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tor_assert_nonfatal(plaintext->signing_key_cert);
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}
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/* Populate the descriptor encrypted section from the given service object.
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* This will generate a valid list of introduction points that can be used
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* after for circuit creation. Return 0 on success else -1 on error. */
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@ -1811,17 +1837,15 @@ build_service_desc_superencrypted(const hs_service_t *service,
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/* Populate the descriptor plaintext section from the given service object.
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* The caller must make sure that the keys in the descriptors are valid that
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* is are non-zero. Return 0 on success else -1 on error. */
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static int
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* is are non-zero. This can't fail. */
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static void
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build_service_desc_plaintext(const hs_service_t *service,
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hs_service_descriptor_t *desc, time_t now)
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hs_service_descriptor_t *desc)
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{
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int ret = -1;
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hs_desc_plaintext_data_t *plaintext;
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tor_assert(service);
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tor_assert(desc);
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/* XXX: Use a "assert_desc_ok()" ? */
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tor_assert(!tor_mem_is_zero((char *) &desc->blinded_kp,
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sizeof(desc->blinded_kp)));
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tor_assert(!tor_mem_is_zero((char *) &desc->signing_kp,
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@ -1835,24 +1859,13 @@ build_service_desc_plaintext(const hs_service_t *service,
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plaintext->version = service->config.version;
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plaintext->lifetime_sec = HS_DESC_DEFAULT_LIFETIME;
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plaintext->signing_key_cert =
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tor_cert_create(&desc->blinded_kp, CERT_TYPE_SIGNING_HS_DESC,
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&desc->signing_kp.pubkey, now, HS_DESC_CERT_LIFETIME,
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CERT_FLAG_INCLUDE_SIGNING_KEY);
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if (plaintext->signing_key_cert == NULL) {
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log_warn(LD_REND, "Unable to create descriptor signing certificate for "
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"service %s",
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safe_str_client(service->onion_address));
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goto end;
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}
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/* Copy public key material to go in the descriptor. */
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ed25519_pubkey_copy(&plaintext->signing_pubkey, &desc->signing_kp.pubkey);
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ed25519_pubkey_copy(&plaintext->blinded_pubkey, &desc->blinded_kp.pubkey);
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/* Success. */
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ret = 0;
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end:
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return ret;
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/* Create the signing key certificate. This will be updated before each
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* upload but we create it here so we don't complexify our unit tests. */
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build_desc_signing_key_cert(desc, approx_time());
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}
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/** Compute the descriptor's OPE cipher for encrypting revision counters. */
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@ -1942,8 +1955,7 @@ build_service_desc_keys(const hs_service_t *service,
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*
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* This can error if we are unable to create keys or certificate. */
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static void
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build_service_descriptor(hs_service_t *service, time_t now,
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uint64_t time_period_num,
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build_service_descriptor(hs_service_t *service, uint64_t time_period_num,
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hs_service_descriptor_t **desc_out)
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{
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char *encoded_desc;
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@ -1962,9 +1974,8 @@ build_service_descriptor(hs_service_t *service, time_t now,
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goto err;
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}
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/* Setup plaintext descriptor content. */
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if (build_service_desc_plaintext(service, desc, now) < 0) {
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goto err;
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}
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build_service_desc_plaintext(service, desc);
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/* Setup superencrypted descriptor content. */
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if (build_service_desc_superencrypted(service, desc) < 0) {
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goto err;
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@ -2037,10 +2048,8 @@ build_descriptors_for_new_service(hs_service_t *service, time_t now)
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}
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/* Build descriptors. */
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build_service_descriptor(service, now, current_desc_tp,
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&service->desc_current);
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build_service_descriptor(service, now, next_desc_tp,
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&service->desc_next);
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build_service_descriptor(service, current_desc_tp, &service->desc_current);
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build_service_descriptor(service, next_desc_tp, &service->desc_next);
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log_info(LD_REND, "Hidden service %s has just started. Both descriptors "
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"built. Now scheduled for upload.",
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safe_str_client(service->onion_address));
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@ -2070,7 +2079,7 @@ build_all_descriptors(time_t now)
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}
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if (service->desc_next == NULL) {
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build_service_descriptor(service, now, hs_get_next_time_period_num(0),
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build_service_descriptor(service, hs_get_next_time_period_num(0),
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&service->desc_next);
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log_info(LD_REND, "Hidden service %s next descriptor successfully "
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"built. Now scheduled for upload.",
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@ -2282,12 +2291,9 @@ service_desc_schedule_upload(hs_service_descriptor_t *desc,
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}
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}
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/* Update the given descriptor from the given service. The possible update
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* actions includes:
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* - Picking missing intro points if needed.
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*/
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/* Pick missing intro points for this descriptor if needed. */
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static void
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update_service_descriptor(hs_service_t *service,
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update_service_descriptor_intro_points(hs_service_t *service,
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hs_service_descriptor_t *desc, time_t now)
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{
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unsigned int num_intro_points;
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@ -2326,15 +2332,17 @@ update_service_descriptor(hs_service_t *service,
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}
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}
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/* Update descriptors for each service if needed. */
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/* Update descriptor intro points for each service if needed. We do this as
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* part of the periodic event because we need to establish intro point circuits
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* before we publish descriptors. */
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STATIC void
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update_all_descriptors(time_t now)
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update_all_descriptors_intro_points(time_t now)
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{
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FOR_EACH_SERVICE_BEGIN(service) {
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/* We'll try to update each descriptor that is if certain conditions apply
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* in order for the descriptor to be updated. */
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FOR_EACH_DESCRIPTOR_BEGIN(service, desc) {
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update_service_descriptor(service, desc, now);
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update_service_descriptor_intro_points(service, desc, now);
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} FOR_EACH_DESCRIPTOR_END;
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} FOR_EACH_SERVICE_END;
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}
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@ -2619,10 +2627,10 @@ run_build_descriptor_event(time_t now)
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* been rotated or we just started up. */
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build_all_descriptors(now);
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/* Finally, we'll check if we should update the descriptors. Missing
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* introduction points will be picked in this function which is useful for
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* newly built descriptors. */
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update_all_descriptors(now);
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/* Finally, we'll check if we should update the descriptors' intro
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* points. Missing introduction points will be picked in this function which
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* is useful for newly built descriptors. */
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update_all_descriptors_intro_points(now);
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}
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/* For the given service, launch any intro point circuits that could be
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@ -3083,6 +3091,37 @@ should_service_upload_descriptor(const hs_service_t *service,
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return 0;
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}
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/* Refresh the given service descriptor meaning this will update every mutable
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* field that needs to be updated before we upload.
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*
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* This should ONLY be called before uploading a descriptor. It assumes that
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* the descriptor has been built (desc->desc) and that all intro point
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* circuits have been established. */
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static void
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refresh_service_descriptor(const hs_service_t *service,
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hs_service_descriptor_t *desc, time_t now)
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{
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/* There are few fields that we consider "mutable" in the descriptor meaning
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* we need to update them regurlarly over the lifetime fo the descriptor.
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* The rest are set once and should not be modified.
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*
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* - Signing key certificate.
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* - Revision counter.
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* - Introduction points which includes many thing. See
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* hs_desc_intro_point_t. and the setup_desc_intro_point() function.
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*/
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/* Create the signing key certificate. */
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build_desc_signing_key_cert(desc, now);
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/* Build the intro points descriptor section. The refresh step is just
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* before we upload so all circuits have been properly established. */
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build_desc_intro_points(service, desc, now);
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/* Set the desc revision counter right before uploading */
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set_descriptor_revision_counter(desc, now, service->desc_current == desc);
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}
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/* Scheduled event run from the main loop. Try to upload the descriptor for
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* each service. */
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STATIC void
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@ -3118,15 +3157,12 @@ run_upload_descriptor_event(time_t now)
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service->config.num_intro_points,
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(desc->missing_intro_points) ? " (couldn't pick more)" : "");
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/* At this point, we have to upload the descriptor so start by building
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* the intro points descriptor section which we are now sure to be
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* accurate because all circuits have been established. */
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build_desc_intro_points(service, desc, now);
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/* Set the desc revision counter right before uploading */
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set_descriptor_revision_counter(desc, approx_time(),
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service->desc_current == desc);
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/* We are about to upload so we need to do one last step which is to
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* update the service's descriptor mutable fields in order to upload a
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* coherent descriptor. */
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refresh_service_descriptor(service, desc, now);
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/* Proceed with the upload, the descriptor is ready to be encoded. */
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upload_descriptor_to_all(service, desc);
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} FOR_EACH_DESCRIPTOR_END;
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} FOR_EACH_SERVICE_END;
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@ -99,49 +99,65 @@ typedef struct hs_service_intropoints_t {
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digestmap_t *failed_id;
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} hs_service_intropoints_t;
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/* Representation of a service descriptor. */
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typedef struct hs_service_descriptor_t {
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/* Decoded descriptor. This object is used for encoding when the service
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* publishes the descriptor. */
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hs_descriptor_t *desc;
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/* Representation of a service descriptor.
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*
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* Some elements of the descriptor are mutable whereas others are immutable:
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/* Client authorization ephemeral keypair. */
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* Immutable elements are initialized once when the descriptor is built (when
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* service descriptors gets rotated). This means that these elements are
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* initialized once and then they don't change for the lifetime of the
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* descriptor. See build_service_descriptor().
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*
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* Mutable elements are initialized when we build the descriptor but they are
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* also altered during the lifetime of the descriptor. They could be
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* _refreshed_ everytime we upload the descriptor (which happens multiple times
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* over the lifetime of the descriptor), or through periodic events. We do this
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* for elements like the descriptor revision counter and various
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* certificates. See refresh_service_descriptor() and
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* update_service_descriptor_intro_points().
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*/
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typedef struct hs_service_descriptor_t {
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/* Immutable: Client authorization ephemeral keypair. */
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curve25519_keypair_t auth_ephemeral_kp;
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/* Descriptor cookie used to encrypt the descriptor, when the client
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* authorization is enabled */
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/* Immutable: Descriptor cookie used to encrypt the descriptor, when the
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* client authorization is enabled */
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uint8_t descriptor_cookie[HS_DESC_DESCRIPTOR_COOKIE_LEN];
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/* Descriptor signing keypair. */
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/* Immutable: Descriptor signing keypair. */
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ed25519_keypair_t signing_kp;
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/* Blinded keypair derived from the master identity public key. */
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/* Immutable: Blinded keypair derived from the master identity public key. */
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ed25519_keypair_t blinded_kp;
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/* When is the next time when we should upload the descriptor. */
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time_t next_upload_time;
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/* Introduction points assign to this descriptor which contains
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* hs_service_intropoints_t object indexed by authentication key (the RSA
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* key if the node is legacy). */
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hs_service_intropoints_t intro_points;
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/* The time period number this descriptor has been created for. */
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/* Immutable: The time period number this descriptor has been created for. */
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uint64_t time_period_num;
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/* True iff we have missing intro points for this descriptor because we
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* couldn't pick any nodes. */
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/** Immutable: The OPE cipher for encrypting revision counters for this
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* descriptor. Tied to the descriptor blinded key. */
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struct crypto_ope_t *ope_cipher;
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/* Mutable: Decoded descriptor. This object is used for encoding when the
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* service publishes the descriptor. */
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hs_descriptor_t *desc;
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/* Mutable: When is the next time when we should upload the descriptor. */
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time_t next_upload_time;
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/* Mutable: Introduction points assign to this descriptor which contains
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* hs_service_intropoints_t object indexed by authentication key (the RSA key
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* if the node is legacy). */
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hs_service_intropoints_t intro_points;
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/* Mutable: True iff we have missing intro points for this descriptor because
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* we couldn't pick any nodes. */
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unsigned int missing_intro_points : 1;
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/** List of the responsible HSDirs (their b64ed identity digest) last time we
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* uploaded this descriptor. If the set of responsible HSDirs is different
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* from this list, this means we received new dirinfo and we need to
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* reupload our descriptor. */
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/** Mutable: List of the responsible HSDirs (their b64ed identity digest)
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* last time we uploaded this descriptor. If the set of responsible HSDirs
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* is different from this list, this means we received new dirinfo and we
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* need to reupload our descriptor. */
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smartlist_t *previous_hsdirs;
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/** The OPE cipher for encrypting revision counters for this descriptor.
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* Tied to the descriptor blinded key. */
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struct crypto_ope_t *ope_cipher;
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} hs_service_descriptor_t;
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/* Service key material. */
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@ -390,7 +406,7 @@ STATIC int intro_point_should_expire(const hs_service_intro_point_t *ip,
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STATIC void run_housekeeping_event(time_t now);
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STATIC void rotate_all_descriptors(time_t now);
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STATIC void build_all_descriptors(time_t now);
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STATIC void update_all_descriptors(time_t now);
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STATIC void update_all_descriptors_intro_points(time_t now);
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STATIC void run_upload_descriptor_event(time_t now);
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STATIC void service_descriptor_free_(hs_service_descriptor_t *desc);
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|
@ -1457,7 +1457,7 @@ test_build_update_descriptors(void *arg)
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/* Time to test the update of those descriptors. At first, we have no node
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* in the routerlist so this will find NO suitable node for the IPs. */
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setup_full_capture_of_logs(LOG_INFO);
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update_all_descriptors(now);
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update_all_descriptors_intro_points(now);
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expect_log_msg_containing("Unable to find a suitable node to be an "
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"introduction point for service");
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teardown_capture_of_logs();
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@ -1508,7 +1508,7 @@ test_build_update_descriptors(void *arg)
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/* We expect to pick only one intro point from the node above. */
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setup_full_capture_of_logs(LOG_INFO);
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update_all_descriptors(now);
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update_all_descriptors_intro_points(now);
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tor_free(node->ri->onion_curve25519_pkey); /* Avoid memleak. */
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tor_free(node->ri->cache_info.signing_key_cert);
|
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tor_free(node->ri->onion_pkey);
|
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|
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