use anyhow::Result; use serial_test::serial; use test_utils::{git::GitTestRepo, *}; #[test] fn when_to_branch_doesnt_exist_return_error() -> Result<()> { let test_repo = GitTestRepo::default(); test_repo.populate()?; let mut p = CliTester::new_from_dir( &test_repo.dir, ["prs", "create", "--to-branch", "nonexistant"], ); p.expect("Error: cannot find to_branch 'nonexistant'")?; Ok(()) } #[test] fn when_no_to_branch_specified_and_no_main_or_master_branch_return_error() -> Result<()> { let test_repo = GitTestRepo::new("notmain")?; test_repo.populate()?; let mut p = CliTester::new_from_dir(&test_repo.dir, ["prs", "create"]); p.expect("Error: a destination branch (to_branch) is not specified and the defaults (main or master) do not exist")?; Ok(()) } #[test] fn when_from_branch_doesnt_exist_return_error() -> Result<()> { let test_repo = GitTestRepo::default(); test_repo.populate()?; let mut p = CliTester::new_from_dir( &test_repo.dir, ["prs", "create", "--from-branch", "nonexistant"], ); p.expect("Error: cannot find from_branch 'nonexistant'")?; Ok(()) } #[test] fn when_no_commits_ahead_of_main_return_error() -> Result<()> { let test_repo = GitTestRepo::default(); test_repo.populate()?; // create feature branch with 1 commit ahead test_repo.create_branch("feature")?; test_repo.checkout("feature")?; let mut p = CliTester::new_from_dir(&test_repo.dir, ["prs", "create"]); p.expect("Error: 'head' is 0 commits ahead of 'main' so no patches were created")?; Ok(()) } mod when_commits_behind_ask_to_proceed { use super::*; fn prep_test_repo() -> Result { let test_repo = GitTestRepo::default(); test_repo.populate()?; // create feature branch with 2 commit ahead test_repo.create_branch("feature")?; test_repo.checkout("feature")?; std::fs::write(test_repo.dir.join("t3.md"), "some content")?; test_repo.stage_and_commit("add t3.md")?; std::fs::write(test_repo.dir.join("t4.md"), "some content")?; test_repo.stage_and_commit("add t4.md")?; // checkout main and add 1 commit test_repo.checkout("main")?; std::fs::write(test_repo.dir.join("t5.md"), "some content")?; test_repo.stage_and_commit("add t5.md")?; // checkout feature branch test_repo.checkout("feature")?; Ok(test_repo) } static BEHIND_LEN: u8 = 1; static AHEAD_LEN: u8 = 2; fn expect_confirm_prompt( p: &mut CliTester, behind: u8, ahead: u8, ) -> Result { p.expect_confirm( format!("'head' is {behind} commits behind 'main' and {ahead} ahead. Consider rebasing before sending patches. Proceed anyway?").as_str(), Some(false), ) } #[test] fn asked_with_default_no() -> Result<()> { let test_repo = prep_test_repo()?; let mut p = CliTester::new_from_dir(&test_repo.dir, ["prs", "create"]); expect_confirm_prompt(&mut p, BEHIND_LEN, AHEAD_LEN)?; p.exit()?; Ok(()) } #[test] fn when_response_is_false_aborts() -> Result<()> { let test_repo = prep_test_repo()?; let mut p = CliTester::new_from_dir(&test_repo.dir, ["prs", "create"]); expect_confirm_prompt(&mut p, BEHIND_LEN, AHEAD_LEN)?.succeeds_with(Some(false))?; p.expect_end_with("Error: aborting so branch can be rebased\r\n")?; Ok(()) } #[test] #[serial] fn when_response_is_true_proceeds() -> Result<()> { let test_repo = prep_test_repo()?; let mut p = CliTester::new_from_dir(&test_repo.dir, ["prs", "create"]); expect_confirm_prompt(&mut p, BEHIND_LEN, AHEAD_LEN)?.succeeds_with(Some(true))?; p.expect( format!("creating patch for {AHEAD_LEN} commits from 'head' that are {BEHIND_LEN} behind 'main'",) .as_str(), )?; p.exit()?; Ok(()) } } #[test] #[serial] fn cli_message_creating_patches() -> Result<()> { let test_repo = GitTestRepo::default(); test_repo.populate()?; // create feature branch with 2 commit ahead test_repo.create_branch("feature")?; test_repo.checkout("feature")?; std::fs::write(test_repo.dir.join("t3.md"), "some content")?; test_repo.stage_and_commit("add t3.md")?; std::fs::write(test_repo.dir.join("t4.md"), "some content")?; test_repo.stage_and_commit("add t4.md")?; let mut p = CliTester::new_from_dir(&test_repo.dir, ["prs", "create"]); p.expect("creating patch for 2 commits from 'head' that can be merged into 'main'")?; p.exit()?; Ok(()) } mod sends_pr_and_2_patches_to_3_relays { use futures::join; use test_utils::relay::Relay; use super::*; fn prep_git_repo() -> Result { let test_repo = GitTestRepo::default(); test_repo.populate()?; // create feature branch with 2 commit ahead test_repo.create_branch("feature")?; test_repo.checkout("feature")?; std::fs::write(test_repo.dir.join("t3.md"), "some content")?; test_repo.stage_and_commit("add t3.md")?; std::fs::write(test_repo.dir.join("t4.md"), "some content")?; test_repo.stage_and_commit("add t4.md")?; Ok(test_repo) } fn cli_tester_create_pr(git_repo: &GitTestRepo) -> CliTester { CliTester::new_from_dir( &git_repo.dir, [ "--nsec", TEST_KEY_1_NSEC, "--password", TEST_PASSWORD, "--disable-cli-spinners", "prs", "create", "--title", "exampletitle", "--description", "exampledescription", ], ) } fn expect_msgs_first(p: &mut CliTester) -> Result<()> { p.expect("creating patch for 2 commits from 'head' that can be merged into 'main'\r\n")?; p.expect("searching for your details...\r\n")?; p.expect("\r")?; p.expect("logged in as fred\r\n")?; p.expect("posting 1 pull request with 2 commits...\r\n")?; Ok(()) } async fn prep_run_create_pr() -> Result<( Relay<'static>, Relay<'static>, Relay<'static>, Relay<'static>, Relay<'static>, )> { let git_repo = prep_git_repo()?; // fallback (51,52) user write (53, 55) repo (55, 56) let (mut r51, mut r52, mut r53, mut r55, mut r56) = ( Relay::new( 8051, None, Some(&|relay, client_id, subscription_id, _| -> Result<()> { relay.respond_events( client_id, &subscription_id, &vec![ generate_test_key_1_metadata_event("fred"), generate_test_key_1_relay_list_event(), ], )?; Ok(()) }), ), Relay::new(8052, None, None), Relay::new(8053, None, None), Relay::new( 8055, None, Some(&|relay, client_id, subscription_id, _| -> Result<()> { relay.respond_events( client_id, &subscription_id, &vec![generate_repo_ref_event()], )?; Ok(()) }), ), Relay::new(8056, None, None), ); // // check relay had the right number of events let cli_tester_handle = std::thread::spawn(move || -> Result<()> { let mut p = cli_tester_create_pr(&git_repo); p.expect_end_eventually()?; for p in [51, 52, 53, 55, 56] { relay::shutdown_relay(8000 + p)?; } Ok(()) }); // launch relay let _ = join!( r51.listen_until_close(), r52.listen_until_close(), r53.listen_until_close(), r55.listen_until_close(), r56.listen_until_close(), ); cli_tester_handle.join().unwrap()?; Ok((r51, r52, r53, r55, r56)) } #[test] #[serial] fn only_1_pr_kind_event_sent_to_each_relay() -> Result<()> { let (_, _, r53, r55, r56) = futures::executor::block_on(prep_run_create_pr())?; for relay in [&r53, &r55, &r56] { assert_eq!( relay .events .iter() .filter(|e| e.kind.as_u64().eq(&PR_KIND)) .count(), 1, ); } Ok(()) } #[test] #[serial] fn only_1_pr_kind_event_sent_to_user_relays() -> Result<()> { let (_, _, r53, r55, _) = futures::executor::block_on(prep_run_create_pr())?; for relay in [&r53, &r55] { assert_eq!( relay .events .iter() .filter(|e| e.kind.as_u64().eq(&PR_KIND)) .count(), 1, ); } Ok(()) } #[test] #[serial] fn only_1_pr_kind_event_sent_to_repo_relays() -> Result<()> { let (_, _, _, r55, r56) = futures::executor::block_on(prep_run_create_pr())?; for relay in [&r55, &r56] { assert_eq!( relay .events .iter() .filter(|e| e.kind.as_u64().eq(&PR_KIND)) .count(), 1, ); } Ok(()) } #[test] #[serial] fn pr_not_sent_to_fallback_relay() -> Result<()> { let (r51, r52, _, _, _) = futures::executor::block_on(prep_run_create_pr())?; for relay in [&r51, &r52] { assert_eq!( relay .events .iter() .filter(|e| e.kind.as_u64().eq(&PR_KIND)) .count(), 0, ); } Ok(()) } #[test] #[serial] fn only_2_patch_kind_events_sent_to_each_relay() -> Result<()> { let (_, _, r53, r55, r56) = futures::executor::block_on(prep_run_create_pr())?; for relay in [&r53, &r55, &r56] { assert_eq!( relay .events .iter() .filter(|e| e.kind.as_u64().eq(&PATCH_KIND)) .count(), 2, ); } Ok(()) } #[test] #[serial] fn patch_content_contains_patch_in_email_format() -> Result<()> { let (_, _, r53, r55, r56) = futures::executor::block_on(prep_run_create_pr())?; for relay in [&r53, &r55, &r56] { let patch_events: Vec<&nostr::Event> = relay .events .iter() .filter(|e| e.kind.as_u64().eq(&PATCH_KIND)) .collect(); assert_eq!( patch_events[0].content, "\ From fe973a840fba2a8ab37dd505c154854a69a6505c Mon Sep 17 00:00:00 2001\n\ From: Joe Bloggs \n\ Date: Thu, 1 Jan 1970 00:00:00 +0000\n\ Subject: [PATCH] add t4.md\n\ \n\ ---\n \ t4.md | 1 +\n \ 1 file changed, 1 insertion(+)\n \ create mode 100644 t4.md\n\ \n\ diff --git a/t4.md b/t4.md\n\ new file mode 100644\n\ index 0000000..f0eec86\n\ --- /dev/null\n\ +++ b/t4.md\n\ @@ -0,0 +1 @@\n\ +some content\n\\ \ No newline at end of file\n\ --\n\ libgit2 1.7.1\n\ \n\ ", ); assert_eq!( patch_events[1].content, "\ From 232efb37ebc67692c9e9ff58b83c0d3d63971a0a Mon Sep 17 00:00:00 2001\n\ From: Joe Bloggs \n\ Date: Thu, 1 Jan 1970 00:00:00 +0000\n\ Subject: [PATCH] add t3.md\n\ \n\ ---\n \ t3.md | 1 +\n \ 1 file changed, 1 insertion(+)\n \ create mode 100644 t3.md\n\ \n\ diff --git a/t3.md b/t3.md\n\ new file mode 100644\n\ index 0000000..f0eec86\n\ --- /dev/null\n\ +++ b/t3.md\n\ @@ -0,0 +1 @@\n\ +some content\n\\ \ No newline at end of file\n\ --\n\ libgit2 1.7.1\n\ \n\ ", ); } Ok(()) } mod pr_tags { use super::*; #[test] #[serial] fn pr_tags_repo_commit() -> Result<()> { let (_, _, r53, r55, r56) = futures::executor::block_on(prep_run_create_pr())?; let root_commit = GitTestRepo::default().initial_commit()?; for relay in [&r53, &r55, &r56] { let pr_event: &nostr::Event = relay .events .iter() .find(|e| e.kind.as_u64().eq(&PR_KIND)) .unwrap(); // root commit 'r' tag assert!( pr_event.tags.iter().any(|t| t.as_vec()[0].eq("r") && t.as_vec()[1].eq(&format!("r-{}", root_commit))) ); } Ok(()) } #[test] #[serial] fn pr_tags_title_as_name() -> Result<()> { let (_, _, r53, r55, r56) = futures::executor::block_on(prep_run_create_pr())?; for relay in [&r53, &r55, &r56] { let pr_event: &nostr::Event = relay .events .iter() .find(|e| e.kind.as_u64().eq(&PR_KIND)) .unwrap(); assert_eq!( pr_event .tags .iter() .find(|t| t.as_vec()[0].eq("name")) .unwrap() .as_vec()[1], "exampletitle" ); } Ok(()) } #[test] #[serial] fn pr_tags_description() -> Result<()> { let (_, _, r53, r55, r56) = futures::executor::block_on(prep_run_create_pr())?; for relay in [&r53, &r55, &r56] { let pr_event: &nostr::Event = relay .events .iter() .find(|e| e.kind.as_u64().eq(&PR_KIND)) .unwrap(); assert_eq!( pr_event .tags .iter() .find(|t| t.as_vec()[0].eq("description")) .unwrap() .as_vec()[1], "exampledescription" ); } Ok(()) } #[test] #[serial] fn pr_tags_branch_name() -> Result<()> { let (_, _, r53, r55, r56) = futures::executor::block_on(prep_run_create_pr())?; for relay in [&r53, &r55, &r56] { let pr_event: &nostr::Event = relay .events .iter() .find(|e| e.kind.as_u64().eq(&PR_KIND)) .unwrap(); // branch-name tag assert_eq!( pr_event .tags .iter() .find(|t| t.as_vec()[0].eq("branch-name")) .unwrap() .as_vec()[1], "feature" ); } Ok(()) } } mod patch_tags { use super::*; fn prep() -> Result { let (_, _, r53, _, _) = futures::executor::block_on(prep_run_create_pr())?; Ok(r53 .events .iter() .find(|e| e.kind.as_u64().eq(&PATCH_KIND)) .unwrap() .clone()) } #[test] #[serial] fn commit_and_commit_r() -> Result<()> { static COMMIT_ID: &str = "fe973a840fba2a8ab37dd505c154854a69a6505c"; let most_recent_patch = prep()?; assert!( most_recent_patch .tags .iter() .any(|t| t.as_vec()[0].eq("r") && t.as_vec()[1].eq(COMMIT_ID)) ); assert!( most_recent_patch .tags .iter() .any(|t| t.as_vec()[0].eq("commit") && t.as_vec()[1].eq(COMMIT_ID)) ); Ok(()) } #[test] #[serial] fn parent_commit() -> Result<()> { // commit parent 'r' and 'parent-commit' tag static COMMIT_PARENT_ID: &str = "232efb37ebc67692c9e9ff58b83c0d3d63971a0a"; let most_recent_patch = prep()?; assert!( most_recent_patch.tags.iter().any( |t| t.as_vec()[0].eq("parent-commit") && t.as_vec()[1].eq(COMMIT_PARENT_ID) ) ); Ok(()) } #[test] #[serial] fn root_commit_as_r() -> Result<()> { assert!(prep()?.tags.iter().any(|t| t.as_vec()[0].eq("r") && t.as_vec()[1].eq("9ee507fc4357d7ee16a5d8901bedcd103f23c17d"))); Ok(()) } #[test] #[serial] fn description_with_commit_message() -> Result<()> { assert_eq!( prep()? .tags .iter() .find(|t| t.as_vec()[0].eq("description")) .unwrap() .as_vec()[1], "add t4.md" ); Ok(()) } #[test] #[serial] fn commit_author() -> Result<()> { assert_eq!( prep()? .tags .iter() .find(|t| t.as_vec()[0].eq("author")) .unwrap() .as_vec(), vec!["author", "Joe Bloggs", "joe.bloggs@pm.me", "0", "0"], ); Ok(()) } #[test] #[serial] fn commit_committer() -> Result<()> { assert_eq!( prep()? .tags .iter() .find(|t| t.as_vec()[0].eq("committer")) .unwrap() .as_vec(), vec!["committer", "Joe Bloggs", "joe.bloggs@pm.me", "0", "0"], ); Ok(()) } #[test] #[serial] fn patch_tags_pr_event_as_root() -> Result<()> { let (_, _, r53, r55, r56) = futures::executor::block_on(prep_run_create_pr())?; for relay in [&r53, &r55, &r56] { let patch_events: Vec<&nostr::Event> = relay .events .iter() .filter(|e| e.kind.as_u64().eq(&PATCH_KIND)) .collect(); let most_recent_patch = patch_events[0]; let pr_event = relay .events .iter() .find(|e| e.kind.as_u64().eq(&PR_KIND)) .unwrap(); let root_event_tag = most_recent_patch .tags .iter() .find(|t| { t.as_vec()[0].eq("e") && t.as_vec().len().eq(&4) && t.as_vec()[3].eq("root") }) .unwrap(); assert_eq!(root_event_tag.as_vec()[1], pr_event.id.to_string()); } Ok(()) } } mod cli_ouput { use super::*; async fn run_test_async() -> Result<()> { let git_repo = prep_git_repo()?; let (mut r51, mut r52, mut r53, mut r55, mut r56) = ( Relay::new( 8051, None, Some(&|relay, client_id, subscription_id, _| -> Result<()> { relay.respond_events( client_id, &subscription_id, &vec![ generate_test_key_1_metadata_event("fred"), generate_test_key_1_relay_list_event(), ], )?; Ok(()) }), ), Relay::new(8052, None, None), Relay::new(8053, None, None), Relay::new( 8055, None, Some(&|relay, client_id, subscription_id, _| -> Result<()> { relay.respond_events( client_id, &subscription_id, &vec![generate_repo_ref_event()], )?; Ok(()) }), ), Relay::new(8056, None, None), ); // // check relay had the right number of events let cli_tester_handle = std::thread::spawn(move || -> Result<()> { let mut p = cli_tester_create_pr(&git_repo); expect_msgs_first(&mut p)?; relay::expect_send_with_progress( &mut p, vec![ (" [my-relay] [repo-relay] ws://localhost:8055", true, ""), (" [my-relay] ws://localhost:8053", true, ""), (" [repo-relay] ws://localhost:8056", true, ""), ], 3, )?; p.expect_end_with_whitespace()?; for p in [51, 52, 53, 55, 56] { relay::shutdown_relay(8000 + p)?; } Ok(()) }); // launch relay let _ = join!( r51.listen_until_close(), r52.listen_until_close(), r53.listen_until_close(), r55.listen_until_close(), r56.listen_until_close(), ); cli_tester_handle.join().unwrap()?; Ok(()) } #[test] #[serial] fn check_cli_output() -> Result<()> { futures::executor::block_on(run_test_async())?; Ok(()) } } mod first_event_rejected_by_1_relay { use super::*; mod only_first_rejected_event_sent_to_relay { use super::*; async fn run_test_async() -> Result<()> { let git_repo = prep_git_repo()?; let (mut r51, mut r52, mut r53, mut r55, mut r56) = ( Relay::new( 8051, None, Some(&|relay, client_id, subscription_id, _| -> Result<()> { relay.respond_events( client_id, &subscription_id, &vec![ generate_test_key_1_metadata_event("fred"), generate_test_key_1_relay_list_event(), ], )?; Ok(()) }), ), Relay::new(8052, None, None), Relay::new(8053, None, None), Relay::new( 8055, None, Some(&|relay, client_id, subscription_id, _| -> Result<()> { relay.respond_events( client_id, &subscription_id, &vec![generate_repo_ref_event()], )?; Ok(()) }), ), Relay::new( 8056, Some(&|relay, client_id, event| -> Result<()> { relay.respond_ok(client_id, event, Some("Payment Required"))?; Ok(()) }), None, ), ); // // check relay had the right number of events let cli_tester_handle = std::thread::spawn(move || -> Result<()> { let mut p = cli_tester_create_pr(&git_repo); p.expect_end_eventually()?; for p in [51, 52, 53, 55, 56] { relay::shutdown_relay(8000 + p)?; } Ok(()) }); // launch relay let _ = join!( r51.listen_until_close(), r52.listen_until_close(), r53.listen_until_close(), r55.listen_until_close(), r56.listen_until_close(), ); cli_tester_handle.join().unwrap()?; assert_eq!(r56.events.len(), 1); Ok(()) } #[test] #[serial] fn only_first_rejected_event_sent_to_relay() -> Result<()> { futures::executor::block_on(run_test_async())?; Ok(()) } } mod cli_show_rejection_with_comment { use super::*; async fn run_test_async() -> Result<(Relay<'static>, Relay<'static>, Relay<'static>)> { let git_repo = prep_git_repo()?; let (mut r51, mut r52, mut r53, mut r55, mut r56) = ( Relay::new( 8051, None, Some(&|relay, client_id, subscription_id, _| -> Result<()> { relay.respond_events( client_id, &subscription_id, &vec![ generate_test_key_1_metadata_event("fred"), generate_test_key_1_relay_list_event(), ], )?; Ok(()) }), ), Relay::new(8052, None, None), Relay::new(8053, None, None), Relay::new( 8055, None, Some(&|relay, client_id, subscription_id, _| -> Result<()> { relay.respond_events( client_id, &subscription_id, &vec![generate_repo_ref_event()], )?; Ok(()) }), ), Relay::new( 8056, Some(&|relay, client_id, event| -> Result<()> { relay.respond_ok(client_id, event, Some("Payment Required"))?; Ok(()) }), None, ), ); // // check relay had the right number of events let cli_tester_handle = std::thread::spawn(move || -> Result<()> { let mut p = cli_tester_create_pr(&git_repo); expect_msgs_first(&mut p)?; // p.expect_end_with("bla")?; relay::expect_send_with_progress( &mut p, vec![ (" [my-relay] [repo-relay] ws://localhost:8055", true, ""), (" [my-relay] ws://localhost:8053", true, ""), ( " [repo-relay] ws://localhost:8056", false, "error: Payment Required", ), ], 3, )?; p.expect_end_with_whitespace()?; for p in [51, 52, 53, 55, 56] { relay::shutdown_relay(8000 + p)?; } Ok(()) }); // launch relay let _ = join!( r51.listen_until_close(), r52.listen_until_close(), r53.listen_until_close(), r55.listen_until_close(), r56.listen_until_close(), ); cli_tester_handle.join().unwrap()?; Ok((r51, r52, r53)) } #[test] #[serial] fn cli_show_rejection_with_comment() -> Result<()> { futures::executor::block_on(run_test_async())?; Ok(()) } } } }