diff options
author | Robert Newson <rnewson@apache.org> | 2011-05-17 11:15:14 +0000 |
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committer | Robert Newson <rnewson@apache.org> | 2011-05-17 11:15:14 +0000 |
commit | e8e4b0d293021fe90326a85828f3cfb087bf18b7 (patch) | |
tree | 986f544eac623ec23b769b36828894f93a173aa3 /1.1.x/share/www/script/test/replicator_db.js | |
parent | da6a5322b0b8084f434752060caa8be214c6f4fa (diff) |
tagging 1.1.0
git-svn-id: https://svn.apache.org/repos/asf/couchdb/tags/1.1.0@1104149 13f79535-47bb-0310-9956-ffa450edef68
Diffstat (limited to '1.1.x/share/www/script/test/replicator_db.js')
-rw-r--r-- | 1.1.x/share/www/script/test/replicator_db.js | 1155 |
1 files changed, 1155 insertions, 0 deletions
diff --git a/1.1.x/share/www/script/test/replicator_db.js b/1.1.x/share/www/script/test/replicator_db.js new file mode 100644 index 00000000..2810352c --- /dev/null +++ b/1.1.x/share/www/script/test/replicator_db.js @@ -0,0 +1,1155 @@ +// Licensed under the Apache License, Version 2.0 (the "License"); you may not +// use this file except in compliance with the License. You may obtain a copy of +// the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT +// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the +// License for the specific language governing permissions and limitations under +// the License. + +couchTests.replicator_db = function(debug) { + + if (debug) debugger; + + var wait_rep_doc = 500; // number of millisecs to wait after saving a Rep Doc + var host = CouchDB.host; + var dbA = new CouchDB("test_suite_rep_db_a", {"X-Couch-Full-Commit":"false"}); + var dbB = new CouchDB("test_suite_rep_db_b", {"X-Couch-Full-Commit":"false"}); + var repDb = new CouchDB("test_suite_rep_db", {"X-Couch-Full-Commit":"false"}); + var usersDb = new CouchDB("test_suite_auth", {"X-Couch-Full-Commit":"false"}); + + var docs1 = [ + { + _id: "foo1", + value: 11 + }, + { + _id: "foo2", + value: 22 + }, + { + _id: "foo3", + value: 33 + } + ]; + + function waitForRep(repDb, repDoc, state) { + var newRep, + t0 = new Date(), + t1, + ms = 3000; + + do { + newRep = repDb.open(repDoc._id); + t1 = new Date(); + } while (((t1 - t0) <= ms) && newRep._replication_state !== state); + } + + function waitForSeq(sourceDb, targetDb) { + var targetSeq, + sourceSeq = sourceDb.info().update_seq, + t0 = new Date(), + t1, + ms = 3000; + + do { + targetSeq = targetDb.info().update_seq; + t1 = new Date(); + } while (((t1 - t0) <= ms) && targetSeq < sourceSeq); + } + + function waitForDocPos(db, docId, pos) { + var doc, curPos, t0, t1, + maxWait = 3000; + + doc = db.open(docId); + curPos = Number(doc._rev.split("-", 1)); + t0 = t1 = new Date(); + + while ((curPos < pos) && ((t1 - t0) <= maxWait)) { + doc = db.open(docId); + curPos = Number(doc._rev.split("-", 1)); + t1 = new Date(); + } + + return doc; + } + + function wait(ms) { + var t0 = new Date(), t1; + do { + CouchDB.request("GET", "/"); + t1 = new Date(); + } while ((t1 - t0) <= ms); + } + + + function populate_db(db, docs) { + db.deleteDb(); + db.createDb(); + for (var i = 0; i < docs.length; i++) { + var d = docs[i]; + delete d._rev; + T(db.save(d).ok); + } + } + + function simple_replication() { + populate_db(dbA, docs1); + populate_db(dbB, []); + + var repDoc = { + _id: "foo_simple_rep", + source: dbA.name, + target: dbB.name + }; + T(repDb.save(repDoc).ok); + + waitForRep(repDb, repDoc, "completed"); + for (var i = 0; i < docs1.length; i++) { + var doc = docs1[i]; + var copy = dbB.open(doc._id); + T(copy !== null); + T(copy.value === doc.value); + } + + var repDoc1 = repDb.open(repDoc._id); + T(repDoc1 !== null); + T(repDoc1.source === repDoc.source); + T(repDoc1.target === repDoc.target); + T(repDoc1._replication_state === "completed", "simple"); + T(typeof repDoc1._replication_state_time === "number"); + T(typeof repDoc1._replication_id === "string"); + } + + + function filtered_replication() { + var docs2 = docs1.concat([ + { + _id: "_design/mydesign", + language : "javascript", + filters : { + myfilter : (function(doc, req) { + return (doc.value % 2) !== Number(req.query.myparam); + }).toString() + } + } + ]); + + populate_db(dbA, docs2); + populate_db(dbB, []); + + var repDoc = { + _id: "foo_filt_rep_doc", + source: "http://" + host + "/" + dbA.name, + target: dbB.name, + filter: "mydesign/myfilter", + query_params: { + myparam: 1 + } + }; + T(repDb.save(repDoc).ok); + + waitForRep(repDb, repDoc, "completed"); + for (var i = 0; i < docs2.length; i++) { + var doc = docs2[i]; + var copy = dbB.open(doc._id); + + if (typeof doc.value === "number") { + if ((doc.value % 2) !== 1) { + T(copy !== null); + T(copy.value === doc.value); + } else { + T(copy === null); + } + } + } + + var repDoc1 = repDb.open(repDoc._id); + T(repDoc1 !== null); + T(repDoc1.source === repDoc.source); + T(repDoc1.target === repDoc.target); + T(repDoc1._replication_state === "completed", "filtered"); + T(typeof repDoc1._replication_state_time === "number"); + T(typeof repDoc1._replication_id === "string"); + } + + + function continuous_replication() { + populate_db(dbA, docs1); + populate_db(dbB, []); + + var repDoc = { + _id: "foo_cont_rep_doc", + source: "http://" + host + "/" + dbA.name, + target: dbB.name, + continuous: true + }; + + T(repDb.save(repDoc).ok); + + waitForSeq(dbA, dbB); + for (var i = 0; i < docs1.length; i++) { + var doc = docs1[i]; + var copy = dbB.open(doc._id); + T(copy !== null); + T(copy.value === doc.value); + } + + // add another doc to source, it will be replicated to target + var docX = { + _id: "foo1000", + value: 1001 + }; + + T(dbA.save(docX).ok); + + waitForSeq(dbA, dbB); + var copy = dbB.open("foo1000"); + T(copy !== null); + T(copy.value === 1001); + + var repDoc1 = repDb.open(repDoc._id); + T(repDoc1 !== null); + T(repDoc1.source === repDoc.source); + T(repDoc1.target === repDoc.target); + T(repDoc1._replication_state === "triggered"); + T(typeof repDoc1._replication_state_time === "number"); + T(typeof repDoc1._replication_id === "string"); + + // add a design doc to source, it will be replicated to target + // when the "user_ctx" property is not defined in the replication doc, + // the replication will be done under an _admin context, therefore + // design docs will be replicated + var ddoc = { + _id: "_design/foobar", + language: "javascript" + }; + + T(dbA.save(ddoc).ok); + + waitForSeq(dbA, dbB); + var ddoc_copy = dbB.open("_design/foobar"); + T(ddoc_copy !== null); + T(ddoc.language === "javascript"); + + // update the design doc on source, test that the new revision is replicated + ddoc.language = "erlang"; + T(dbA.save(ddoc).ok); + T(ddoc._rev.indexOf("2-") === 0); + + waitForSeq(dbA, dbB); + ddoc_copy = dbB.open("_design/foobar"); + T(ddoc_copy !== null); + T(ddoc_copy._rev === ddoc._rev); + T(ddoc.language === "erlang"); + + // stop replication by deleting the replication document + T(repDb.deleteDoc(repDoc1).ok); + + // add another doc to source, it will NOT be replicated to target + var docY = { + _id: "foo666", + value: 999 + }; + + T(dbA.save(docY).ok); + + wait(200); // is there a way to avoid wait here? + var copy = dbB.open("foo666"); + T(copy === null); + } + + + function by_doc_ids_replication() { + // to test that we can replicate docs with slashes in their IDs + var docs2 = docs1.concat([ + { + _id: "_design/mydesign", + language : "javascript" + } + ]); + + populate_db(dbA, docs2); + populate_db(dbB, []); + + var repDoc = { + _id: "foo_cont_rep_doc", + source: "http://" + host + "/" + dbA.name, + target: dbB.name, + doc_ids: ["foo666", "foo3", "_design/mydesign", "foo999", "foo1"] + }; + T(repDb.save(repDoc).ok); + + waitForRep(repDb, repDoc, "completed"); + var copy = dbB.open("foo1"); + T(copy !== null); + T(copy.value === 11); + + copy = dbB.open("foo2"); + T(copy === null); + + copy = dbB.open("foo3"); + T(copy !== null); + T(copy.value === 33); + + copy = dbB.open("foo666"); + T(copy === null); + + copy = dbB.open("foo999"); + T(copy === null); + + copy = dbB.open("_design/mydesign"); + T(copy !== null); + T(copy.language === "javascript"); + } + + + function successive_identical_replications() { + populate_db(dbA, docs1); + populate_db(dbB, []); + + var repDoc1 = { + _id: "foo_ident_rep_1", + source: dbA.name, + target: dbB.name + }; + T(repDb.save(repDoc1).ok); + + waitForRep(repDb, repDoc1, "completed"); + for (var i = 0; i < docs1.length; i++) { + var doc = docs1[i]; + var copy = dbB.open(doc._id); + T(copy !== null); + T(copy.value === doc.value); + } + + var repDoc1_copy = repDb.open(repDoc1._id); + T(repDoc1_copy !== null); + T(repDoc1_copy.source === repDoc1.source); + T(repDoc1_copy.target === repDoc1.target); + T(repDoc1_copy._replication_state === "completed"); + T(typeof repDoc1_copy._replication_state_time === "number"); + T(typeof repDoc1_copy._replication_id === "string"); + + var newDoc = { + _id: "doc666", + value: 666 + }; + T(dbA.save(newDoc).ok); + + wait(200); + var newDoc_copy = dbB.open(newDoc._id); + // not replicated because first replication is complete (not continuous) + T(newDoc_copy === null); + + var repDoc2 = { + _id: "foo_ident_rep_2", + source: dbA.name, + target: dbB.name + }; + T(repDb.save(repDoc2).ok); + + waitForRep(repDb, repDoc2, "completed"); + var newDoc_copy = dbB.open(newDoc._id); + T(newDoc_copy !== null); + T(newDoc_copy.value === newDoc.value); + + var repDoc2_copy = repDb.open(repDoc2._id); + T(repDoc2_copy !== null); + T(repDoc2_copy.source === repDoc1.source); + T(repDoc2_copy.target === repDoc1.target); + T(repDoc2_copy._replication_state === "completed"); + T(typeof repDoc2_copy._replication_state_time === "number"); + T(typeof repDoc2_copy._replication_id === "string"); + T(repDoc2_copy._replication_id === repDoc1_copy._replication_id); + } + + + // test the case where multiple replication docs (different IDs) + // describe in fact the same replication (source, target, etc) + function identical_rep_docs() { + populate_db(dbA, docs1); + populate_db(dbB, []); + + var repDoc1 = { + _id: "foo_dup_rep_doc_1", + source: "http://" + host + "/" + dbA.name, + target: dbB.name + }; + var repDoc2 = { + _id: "foo_dup_rep_doc_2", + source: "http://" + host + "/" + dbA.name, + target: dbB.name + }; + + T(repDb.save(repDoc1).ok); + T(repDb.save(repDoc2).ok); + + waitForRep(repDb, repDoc1, "completed"); + for (var i = 0; i < docs1.length; i++) { + var doc = docs1[i]; + var copy = dbB.open(doc._id); + T(copy !== null); + T(copy.value === doc.value); + } + + repDoc1 = repDb.open("foo_dup_rep_doc_1"); + T(repDoc1 !== null); + T(repDoc1._replication_state === "completed", "identical"); + T(typeof repDoc1._replication_state_time === "number"); + T(typeof repDoc1._replication_id === "string"); + + repDoc2 = repDb.open("foo_dup_rep_doc_2"); + T(repDoc2 !== null); + T(typeof repDoc2._replication_state === "undefined"); + T(typeof repDoc2._replication_state_time === "undefined"); + T(repDoc2._replication_id === repDoc1._replication_id); + } + + + // test the case where multiple replication docs (different IDs) + // describe in fact the same continuous replication (source, target, etc) + function identical_continuous_rep_docs() { + populate_db(dbA, docs1); + populate_db(dbB, []); + + var repDoc1 = { + _id: "foo_dup_cont_rep_doc_1", + source: "http://" + host + "/" + dbA.name, + target: dbB.name, + continuous: true + }; + var repDoc2 = { + _id: "foo_dup_cont_rep_doc_2", + source: "http://" + host + "/" + dbA.name, + target: dbB.name, + continuous: true + }; + + T(repDb.save(repDoc1).ok); + T(repDb.save(repDoc2).ok); + + waitForSeq(dbA, dbB); + for (var i = 0; i < docs1.length; i++) { + var doc = docs1[i]; + var copy = dbB.open(doc._id); + T(copy !== null); + T(copy.value === doc.value); + } + + repDoc1 = repDb.open("foo_dup_cont_rep_doc_1"); + T(repDoc1 !== null); + T(repDoc1._replication_state === "triggered"); + T(typeof repDoc1._replication_state_time === "number"); + T(typeof repDoc1._replication_id === "string"); + + repDoc2 = repDb.open("foo_dup_cont_rep_doc_2"); + T(repDoc2 !== null); + T(typeof repDoc2._replication_state === "undefined"); + T(typeof repDoc2._replication_state_time === "undefined"); + T(repDoc2._replication_id === repDoc1._replication_id); + + var newDoc = { + _id: "foo666", + value: 999 + }; + T(dbA.save(newDoc).ok); + + waitForSeq(dbA, dbB); + var copy = dbB.open("foo666"); + T(copy !== null); + T(copy.value === 999); + + // deleting second replication doc, doesn't affect the 1st one and + // neither it stops the replication + T(repDb.deleteDoc(repDoc2).ok); + repDoc1 = repDb.open("foo_dup_cont_rep_doc_1"); + T(repDoc1 !== null); + T(repDoc1._replication_state === "triggered"); + T(typeof repDoc1._replication_state_time === "number"); + + var newDoc2 = { + _id: "foo5000", + value: 5000 + }; + T(dbA.save(newDoc2).ok); + + waitForSeq(dbA, dbB); + var copy = dbB.open("foo5000"); + T(copy !== null); + T(copy.value === 5000); + + // deleting the 1st replication document stops the replication + T(repDb.deleteDoc(repDoc1).ok); + var newDoc3 = { + _id: "foo1983", + value: 1983 + }; + T(dbA.save(newDoc3).ok); + + wait(wait_rep_doc); //how to remove wait? + var copy = dbB.open("foo1983"); + T(copy === null); + } + + + function test_replication_credentials_delegation() { + populate_db(usersDb, []); + + var joeUserDoc = CouchDB.prepareUserDoc({ + name: "joe", + roles: ["god", "erlanger"] + }, "erly"); + T(usersDb.save(joeUserDoc).ok); + + var ddoc = { + _id: "_design/beer", + language: "javascript" + }; + populate_db(dbA, docs1.concat([ddoc])); + populate_db(dbB, []); + + T(dbB.setSecObj({ + admins: { + names: [], + roles: ["god"] + } + }).ok); + + var server_admins_config = [ + { + section: "admins", + key: "fdmanana", + value: "qwerty" + } + ]; + + run_on_modified_server(server_admins_config, function() { + + T(CouchDB.login("fdmanana", "qwerty").ok); + T(CouchDB.session().userCtx.name === "fdmanana"); + T(CouchDB.session().userCtx.roles.indexOf("_admin") !== -1); + + var repDoc = { + _id: "foo_rep_del_doc_1", + source: dbA.name, + target: dbB.name, + user_ctx: { + name: "joe", + roles: ["erlanger"] + } + }; + + T(repDb.save(repDoc).ok); + + waitForRep(repDb, repDoc, "completed"); + for (var i = 0; i < docs1.length; i++) { + var doc = docs1[i]; + var copy = dbB.open(doc._id); + T(copy !== null); + T(copy.value === doc.value); + } + + // design doc was not replicated, because joe is not an admin of db B + var doc = dbB.open(ddoc._id); + T(doc === null); + + // now test the same replication but putting the role "god" in the + // delegation user context property + var repDoc2 = { + _id: "foo_rep_del_doc_2", + source: dbA.name, + target: dbB.name, + user_ctx: { + name: "joe", + roles: ["erlanger", "god"] + } + }; + T(repDb.save(repDoc2).ok); + + waitForRep(repDb, repDoc2, "completed"); + for (var i = 0; i < docs1.length; i++) { + var doc = docs1[i]; + var copy = dbB.open(doc._id); + T(copy !== null); + T(copy.value === doc.value); + } + + // because anyone with a 'god' role is an admin of db B, a replication + // that is delegated to a 'god' role can write design docs to db B + doc = dbB.open(ddoc._id); + T(doc !== null); + T(doc.language === ddoc.language); + }); + } + + + function continuous_replication_survives_restart() { + var origRepDbName = CouchDB.request( + "GET", "/_config/replicator/db").responseText; + + repDb.deleteDb(); + + var xhr = CouchDB.request("PUT", "/_config/replicator/db", { + body : JSON.stringify(repDb.name), + headers: {"X-Couch-Persist": "false"} + }); + T(xhr.status === 200); + + populate_db(dbA, docs1); + populate_db(dbB, []); + + var repDoc = { + _id: "foo_cont_rep_survives_doc", + source: "http://" + host + "/" + dbA.name, + target: dbB.name, + continuous: true + }; + + T(repDb.save(repDoc).ok); + + waitForSeq(dbA, dbB); + for (var i = 0; i < docs1.length; i++) { + var doc = docs1[i]; + var copy = dbB.open(doc._id); + T(copy !== null); + T(copy.value === doc.value); + } + + repDb.ensureFullCommit(); + dbA.ensureFullCommit(); + + restartServer(); + + xhr = CouchDB.request("PUT", "/_config/replicator/db", { + body : JSON.stringify(repDb.name), + headers: {"X-Couch-Persist": "false"} + }); + + T(xhr.status === 200); + + // add another doc to source, it will be replicated to target + var docX = { + _id: "foo1000", + value: 1001 + }; + + T(dbA.save(docX).ok); + + waitForSeq(dbA, dbB); + var copy = dbB.open("foo1000"); + T(copy !== null); + T(copy.value === 1001); + + repDoc = waitForDocPos(repDb, "foo_cont_rep_survives_doc", 3); + T(repDoc !== null); + T(repDoc.continuous === true); + + // stop replication + T(repDb.deleteDoc(repDoc).ok); + + xhr = CouchDB.request("PUT", "/_config/replicator/db", { + body : origRepDbName, + headers: {"X-Couch-Persist": "false"} + }); + T(xhr.status === 200); + } + + + function rep_db_write_authorization() { + populate_db(dbA, docs1); + populate_db(dbB, []); + + var server_admins_config = [ + { + section: "admins", + key: "fdmanana", + value: "qwerty" + } + ]; + + run_on_modified_server(server_admins_config, function() { + var repDoc = { + _id: "foo_rep_doc", + source: dbA.name, + target: dbB.name + }; + + T(CouchDB.login("fdmanana", "qwerty").ok); + T(CouchDB.session().userCtx.name === "fdmanana"); + T(CouchDB.session().userCtx.roles.indexOf("_admin") !== -1); + + T(repDb.save(repDoc).ok); + + waitForRep(repDb, repDoc, "completed"); + + for (var i = 0; i < docs1.length; i++) { + var doc = docs1[i]; + var copy = dbB.open(doc._id); + + T(copy !== null); + T(copy.value === doc.value); + } + + repDoc = repDb.open("foo_rep_doc"); + T(repDoc !== null); + repDoc.target = "test_suite_foo_db"; + repDoc.create_target = true; + + // Only the replicator can update replication documents. + // Admins can only add and delete replication documents. + try { + repDb.save(repDoc); + T(false && "Should have thrown an exception"); + } catch (x) { + T(x["error"] === "forbidden"); + } + }); + } + + + function rep_doc_with_bad_rep_id() { + populate_db(dbA, docs1); + populate_db(dbB, []); + + var repDoc = { + _id: "foo_rep", + source: dbA.name, + target: dbB.name, + replication_id: "1234abc" + }; + T(repDb.save(repDoc).ok); + + waitForRep(repDb, repDoc, "completed"); + for (var i = 0; i < docs1.length; i++) { + var doc = docs1[i]; + var copy = dbB.open(doc._id); + T(copy !== null); + T(copy.value === doc.value); + } + + var repDoc1 = repDb.open(repDoc._id); + T(repDoc1 !== null); + T(repDoc1.source === repDoc.source); + T(repDoc1.target === repDoc.target); + T(repDoc1._replication_state === "completed", + "replication document with bad replication id failed"); + T(typeof repDoc1._replication_state_time === "number"); + T(typeof repDoc1._replication_id === "string"); + T(repDoc1._replication_id !== "1234abc"); + } + + + function swap_rep_db() { + var repDb2 = new CouchDB("test_suite_rep_db_2"); + var dbA = new CouchDB("test_suite_rep_db_a"); + var dbA_copy = new CouchDB("test_suite_rep_db_a_copy"); + var dbB = new CouchDB("test_suite_rep_db_b"); + var dbB_copy = new CouchDB("test_suite_rep_db_b_copy"); + var dbC = new CouchDB("test_suite_rep_db_c"); + var dbC_copy = new CouchDB("test_suite_rep_db_c_copy"); + var repDoc1, repDoc2, repDoc3; + var xhr, i, doc, copy, new_doc; + + populate_db(dbA, docs1); + populate_db(dbB, docs1); + populate_db(dbC, docs1); + populate_db(dbA_copy, []); + populate_db(dbB_copy, []); + populate_db(dbC_copy, []); + populate_db(repDb2, []); + + repDoc1 = { + _id: "rep1", + source: CouchDB.protocol + host + "/" + dbA.name, + target: dbA_copy.name, + continuous: true + }; + repDoc2 = { + _id: "rep2", + source: CouchDB.protocol + host + "/" + dbB.name, + target: dbB_copy.name, + continuous: true + }; + repDoc3 = { + _id: "rep3", + source: CouchDB.protocol + host + "/" + dbC.name, + target: dbC_copy.name, + continuous: true + }; + + TEquals(true, repDb.save(repDoc1).ok); + TEquals(true, repDb.save(repDoc2).ok); + + waitForSeq(dbA, dbA_copy); + waitForSeq(dbB, dbB_copy); + + xhr = CouchDB.request("PUT", "/_config/replicator/db",{ + body : JSON.stringify(repDb2.name), + headers: {"X-Couch-Persist": "false"} + }); + TEquals(200, xhr.status); + + new_doc = { + _id: "foo666", + value: 666 + }; + + TEquals(true, dbA.save(new_doc).ok); + TEquals(true, dbB.save(new_doc).ok); + waitForSeq(dbA, dbA_copy); + waitForSeq(dbB, dbB_copy); + + TEquals(true, repDb2.save(repDoc3).ok); + waitForSeq(dbC, dbC_copy); + + for (i = 0; i < docs1.length; i++) { + doc = docs1[i]; + copy = dbA_copy.open(doc._id); + T(copy !== null); + TEquals(doc.value, copy.value); + copy = dbB_copy.open(doc._id); + T(copy !== null); + TEquals(doc.value, copy.value); + copy = dbC_copy.open(doc._id); + T(copy !== null); + TEquals(doc.value, copy.value); + } + + // replications rep1 and rep2 should have been stopped when the replicator + // database was swapped + copy = dbA_copy.open(new_doc._id); + TEquals(null, copy); + copy = dbB_copy.open(new_doc._id); + TEquals(null, copy); + + xhr = CouchDB.request("PUT", "/_config/replicator/db",{ + body : JSON.stringify(repDb.name), + headers: {"X-Couch-Persist": "false"} + }); + TEquals(200, xhr.status); + + // after setting the replicator database to the former, replications rep1 + // and rep2 should have been resumed, while rep3 was stopped + TEquals(true, dbC.save(new_doc).ok); + wait(1000); + + waitForSeq(dbA, dbA_copy); + waitForSeq(dbB, dbB_copy); + + copy = dbA_copy.open(new_doc._id); + T(copy !== null); + TEquals(new_doc.value, copy.value); + copy = dbB_copy.open(new_doc._id); + T(copy !== null); + TEquals(new_doc.value, copy.value); + copy = dbC_copy.open(new_doc._id); + TEquals(null, copy); + } + + + function compact_rep_db() { + var dbA_copy = new CouchDB("test_suite_rep_db_a_copy"); + var dbB_copy = new CouchDB("test_suite_rep_db_b_copy"); + var repDoc1, repDoc2; + var xhr, i, doc, copy, new_doc; + var docs = makeDocs(1, 50); + + populate_db(dbA, docs); + populate_db(dbB, docs); + populate_db(dbA_copy, []); + populate_db(dbB_copy, []); + + repDoc1 = { + _id: "rep1", + source: CouchDB.protocol + host + "/" + dbA.name, + target: dbA_copy.name, + continuous: true + }; + repDoc2 = { + _id: "rep2", + source: CouchDB.protocol + host + "/" + dbB.name, + target: dbB_copy.name, + continuous: true + }; + + TEquals(true, repDb.save(repDoc1).ok); + TEquals(true, repDb.save(repDoc2).ok); + + TEquals(true, repDb.compact().ok); + TEquals(202, repDb.last_req.status); + + waitForSeq(dbA, dbA_copy); + waitForSeq(dbB, dbB_copy); + + while (repDb.info().compact_running) {}; + + for (i = 0; i < docs.length; i++) { + copy = dbA_copy.open(docs[i]._id); + T(copy !== null); + copy = dbB_copy.open(docs[i]._id); + T(copy !== null); + } + + new_doc = { + _id: "foo666", + value: 666 + }; + + TEquals(true, dbA.save(new_doc).ok); + TEquals(true, dbB.save(new_doc).ok); + + waitForSeq(dbA, dbA_copy); + waitForSeq(dbB, dbB_copy); + + copy = dbA.open(new_doc._id); + T(copy !== null); + TEquals(666, copy.value); + copy = dbB.open(new_doc._id); + T(copy !== null); + TEquals(666, copy.value); + } + + + function error_state_replication() { + populate_db(dbA, docs1); + + var repDoc = { + _id: "foo_error_rep", + source: dbA.name, + target: "nonexistent_test_db" + }; + T(repDb.save(repDoc).ok); + + waitForRep(repDb, repDoc, "error"); + var repDoc1 = repDb.open(repDoc._id); + T(repDoc1 !== null); + T(repDoc1._replication_state === "error"); + T(typeof repDoc1._replication_state_time === "number"); + T(typeof repDoc1._replication_id === "string"); + } + + + function rep_doc_field_validation() { + var docs = makeDocs(1, 5); + + populate_db(dbA, docs); + populate_db(dbB, []); + + var repDoc = { + _id: "rep1", + target: dbB.name + }; + + try { + repDb.save(repDoc); + T(false, "should have failed because source field is missing"); + } catch (x) { + TEquals("forbidden", x.error); + } + + repDoc = { + _id: "rep1", + source: 123, + target: dbB.name + }; + + try { + repDb.save(repDoc); + T(false, "should have failed because source field is a number"); + } catch (x) { + TEquals("forbidden", x.error); + } + + repDoc = { + _id: "rep1", + source: dbA.name + }; + + try { + repDb.save(repDoc); + T(false, "should have failed because target field is missing"); + } catch (x) { + TEquals("forbidden", x.error); + } + + repDoc = { + _id: "rep1", + source: dbA.name, + target: null + }; + + try { + repDb.save(repDoc); + T(false, "should have failed because target field is null"); + } catch (x) { + TEquals("forbidden", x.error); + } + + repDoc = { + _id: "rep1", + source: dbA.name, + target: { url: 123 } + }; + + try { + repDb.save(repDoc); + T(false, "should have failed because target.url field is not a string"); + } catch (x) { + TEquals("forbidden", x.error); + } + + repDoc = { + _id: "rep1", + source: dbA.name, + target: { url: dbB.name, auth: null } + }; + + try { + repDb.save(repDoc); + T(false, "should have failed because target.auth field is null"); + } catch (x) { + TEquals("forbidden", x.error); + } + + repDoc = { + _id: "rep1", + source: dbA.name, + target: { url: dbB.name, auth: "foo:bar" } + }; + + try { + repDb.save(repDoc); + T(false, "should have failed because target.auth field is not an object"); + } catch (x) { + TEquals("forbidden", x.error); + } + + repDoc = { + _id: "rep1", + source: dbA.name, + target: dbB.name, + continuous: "true" + }; + + try { + repDb.save(repDoc); + T(false, "should have failed because continuous is not a boolean"); + } catch (x) { + TEquals("forbidden", x.error); + } + + repDoc = { + _id: "rep1", + source: dbA.name, + target: dbB.name, + filter: 123 + }; + + try { + repDb.save(repDoc); + T(false, "should have failed because filter is not a string"); + } catch (x) { + TEquals("forbidden", x.error); + } + } + + + // run all the tests + var server_config = [ + { + section: "replicator", + key: "db", + value: repDb.name + } + ]; + + repDb.deleteDb(); + run_on_modified_server(server_config, simple_replication); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, filtered_replication); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, continuous_replication); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, by_doc_ids_replication); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, successive_identical_replications); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, identical_rep_docs); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, identical_continuous_rep_docs); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, rep_db_write_authorization); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, rep_doc_with_bad_rep_id); + + var server_config_2 = server_config.concat([ + { + section: "couch_httpd_auth", + key: "authentication_db", + value: usersDb.name + } + ]); + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config_2, test_replication_credentials_delegation); + + repDb.deleteDb(); + restartServer(); + continuous_replication_survives_restart(); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, swap_rep_db); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, compact_rep_db); + + repDb.deleteDb(); + restartServer(); + run_on_modified_server(server_config, rep_doc_field_validation); + +/* + * Disabled, since error state would be set on the document only after + * the exponential backoff retry done by the replicator database listener + * terminates, which takes too much time for a unit test. + */ +/* + * repDb.deleteDb(); + * restartServer(); + * run_on_modified_server(server_config, error_state_replication); + */ + + + // cleanup + repDb.deleteDb(); + usersDb.deleteDb(); + dbA.deleteDb(); + dbB.deleteDb(); + (new CouchDB("test_suite_rep_db_2")).deleteDb(); + (new CouchDB("test_suite_rep_db_c")).deleteDb(); + (new CouchDB("test_suite_rep_db_a_copy")).deleteDb(); + (new CouchDB("test_suite_rep_db_b_copy")).deleteDb(); + (new CouchDB("test_suite_rep_db_c_copy")).deleteDb(); +}; |