use anyhow::Context; mod common; use crate::common::constants::*; use crate::common::fragments::*; fn main() { // IMAP /*rfc3501_imap4rev1_base(); rfc6851_imapext_move(); rfc4551_imapext_condstore(); rfc2177_imapext_idle(); rfc5161_imapext_enable(); rfc3691_imapext_unselect(); rfc7888_imapext_literal(); rfc4315_imapext_uidplus(); rfc5819_imapext_liststatus();*/ // WebDAV rfc4918_webdav_core(); rfc5397_webdav_principal(); rfc4791_webdav_caldav(); rfc6578_webdav_sync(); println!("✅ SUCCESS 🌟🚀🥳🙏🥹"); } fn rfc3501_imap4rev1_base() { println!("🧪 rfc3501_imap4rev1_base"); common::aerogramme_provider_daemon_dev(|imap_socket, lmtp_socket, _dav_socket| { connect(imap_socket).context("server says hello")?; capability(imap_socket, Extension::None).context("check server capabilities")?; login(imap_socket, Account::Alice).context("login test")?; create_mailbox(imap_socket, Mailbox::Archive).context("created mailbox archive")?; let select_res = select(imap_socket, Mailbox::Inbox, SelectMod::None).context("select inbox")?; assert!(select_res.contains("* 0 EXISTS")); check(imap_socket).context("check must run")?; status(imap_socket, Mailbox::Archive, StatusKind::UidNext) .context("status of archive from inbox")?; lmtp_handshake(lmtp_socket).context("handshake lmtp done")?; lmtp_deliver_email(lmtp_socket, Email::Multipart).context("mail delivered successfully")?; noop_exists(imap_socket, 1).context("noop loop must detect a new email")?; let srv_msg = fetch( imap_socket, Selection::FirstId, FetchKind::Rfc822, FetchMod::None, ) .context("fetch rfc822 message, should be our first message")?; let orig_email = std::str::from_utf8(EMAIL1)?; assert!(srv_msg.contains(orig_email)); copy(imap_socket, Selection::FirstId, Mailbox::Archive) .context("copy message to the archive mailbox")?; append(imap_socket, Email::Basic).context("insert email in INBOX")?; noop_exists(imap_socket, 2).context("noop loop must detect a new email")?; search(imap_socket, SearchKind::Text("OoOoO")).expect("search should return something"); store( imap_socket, Selection::FirstId, Flag::Deleted, StoreAction::AddFlags, StoreMod::None, ) .context("should add delete flag to the email")?; expunge(imap_socket).context("expunge emails")?; rename_mailbox(imap_socket, Mailbox::Archive, Mailbox::Drafts) .context("Archive mailbox is renamed Drafts")?; delete_mailbox(imap_socket, Mailbox::Drafts).context("Drafts mailbox is deleted")?; Ok(()) }) .expect("test fully run"); } fn rfc3691_imapext_unselect() { println!("🧪 rfc3691_imapext_unselect"); common::aerogramme_provider_daemon_dev(|imap_socket, lmtp_socket, _dav_socket| { connect(imap_socket).context("server says hello")?; lmtp_handshake(lmtp_socket).context("handshake lmtp done")?; lmtp_deliver_email(lmtp_socket, Email::Basic).context("mail delivered successfully")?; capability(imap_socket, Extension::Unselect).context("check server capabilities")?; login(imap_socket, Account::Alice).context("login test")?; let select_res = select(imap_socket, Mailbox::Inbox, SelectMod::None).context("select inbox")?; assert!(select_res.contains("* 0 EXISTS")); noop_exists(imap_socket, 1).context("noop loop must detect a new email")?; store( imap_socket, Selection::FirstId, Flag::Deleted, StoreAction::AddFlags, StoreMod::None, ) .context("add delete flags to the email")?; unselect(imap_socket) .context("unselect inbox while preserving email with the \\Delete flag")?; let select_res = select(imap_socket, Mailbox::Inbox, SelectMod::None).context("select inbox again")?; assert!(select_res.contains("* 1 EXISTS")); let srv_msg = fetch( imap_socket, Selection::FirstId, FetchKind::Rfc822, FetchMod::None, ) .context("message is still present")?; let orig_email = std::str::from_utf8(EMAIL2)?; assert!(srv_msg.contains(orig_email)); close(imap_socket).context("close inbox and expunge message")?; let select_res = select(imap_socket, Mailbox::Inbox, SelectMod::None) .context("select inbox again and check it's empty")?; assert!(select_res.contains("* 0 EXISTS")); Ok(()) }) .expect("test fully run"); } fn rfc5161_imapext_enable() { println!("🧪 rfc5161_imapext_enable"); common::aerogramme_provider_daemon_dev(|imap_socket, _lmtp_socket, _dav_socket| { connect(imap_socket).context("server says hello")?; login(imap_socket, Account::Alice).context("login test")?; enable(imap_socket, Enable::Utf8Accept, Some(Enable::Utf8Accept))?; enable(imap_socket, Enable::Utf8Accept, None)?; logout(imap_socket)?; Ok(()) }) .expect("test fully run"); } fn rfc6851_imapext_move() { println!("🧪 rfc6851_imapext_move"); common::aerogramme_provider_daemon_dev(|imap_socket, lmtp_socket, _dav_socket| { connect(imap_socket).context("server says hello")?; capability(imap_socket, Extension::Move).context("check server capabilities")?; login(imap_socket, Account::Alice).context("login test")?; create_mailbox(imap_socket, Mailbox::Archive).context("created mailbox archive")?; let select_res = select(imap_socket, Mailbox::Inbox, SelectMod::None).context("select inbox")?; assert!(select_res.contains("* 0 EXISTS")); lmtp_handshake(lmtp_socket).context("handshake lmtp done")?; lmtp_deliver_email(lmtp_socket, Email::Basic).context("mail delivered successfully")?; noop_exists(imap_socket, 1).context("noop loop must detect a new email")?; r#move(imap_socket, Selection::FirstId, Mailbox::Archive) .context("message from inbox moved to archive")?; unselect(imap_socket) .context("unselect inbox while preserving email with the \\Delete flag")?; let select_res = select(imap_socket, Mailbox::Archive, SelectMod::None).context("select archive")?; assert!(select_res.contains("* 1 EXISTS")); let srv_msg = fetch( imap_socket, Selection::FirstId, FetchKind::Rfc822, FetchMod::None, ) .context("check mail exists")?; let orig_email = std::str::from_utf8(EMAIL2)?; assert!(srv_msg.contains(orig_email)); logout(imap_socket).context("must quit")?; Ok(()) }) .expect("test fully run"); } fn rfc7888_imapext_literal() { println!("🧪 rfc7888_imapext_literal"); common::aerogramme_provider_daemon_dev(|imap_socket, _lmtp_socket, _dav_socket| { connect(imap_socket).context("server says hello")?; capability(imap_socket, Extension::LiteralPlus).context("check server capabilities")?; login_with_literal(imap_socket, Account::Alice).context("use literal to connect Alice")?; Ok(()) }) .expect("test fully run"); } fn rfc4551_imapext_condstore() { println!("🧪 rfc4551_imapext_condstore"); common::aerogramme_provider_daemon_dev(|imap_socket, lmtp_socket, _dav_socket| { // Setup the test connect(imap_socket).context("server says hello")?; // RFC 3.1.1 Advertising Support for CONDSTORE capability(imap_socket, Extension::Condstore).context("check server capabilities")?; login(imap_socket, Account::Alice).context("login test")?; // RFC 3.1.8. CONDSTORE Parameter to SELECT and EXAMINE let select_res = select(imap_socket, Mailbox::Inbox, SelectMod::Condstore).context("select inbox")?; // RFC 3.1.2 New OK Untagged Responses for SELECT and EXAMINE assert!(select_res.contains("[HIGHESTMODSEQ 1]")); // RFC 3.1.3. STORE and UID STORE Commands lmtp_handshake(lmtp_socket).context("handshake lmtp done")?; lmtp_deliver_email(lmtp_socket, Email::Basic).context("mail delivered successfully")?; lmtp_deliver_email(lmtp_socket, Email::Multipart).context("mail delivered successfully")?; noop_exists(imap_socket, 2).context("noop loop must detect a new email")?; let store_res = store( imap_socket, Selection::All, Flag::Important, StoreAction::AddFlags, StoreMod::UnchangedSince(1), )?; assert!(store_res.contains("[MODIFIED 2]")); assert!(store_res.contains("* 1 FETCH (FLAGS (\\Important) MODSEQ (3))")); assert!(!store_res.contains("* 2 FETCH")); assert_eq!(store_res.lines().count(), 2); // RFC 3.1.4. FETCH and UID FETCH Commands let fetch_res = fetch( imap_socket, Selection::All, FetchKind::Rfc822Size, FetchMod::ChangedSince(2), )?; assert!(fetch_res.contains("* 1 FETCH (RFC822.SIZE 81 MODSEQ (3))")); assert!(!fetch_res.contains("* 2 FETCH")); assert_eq!(store_res.lines().count(), 2); // RFC 3.1.5. MODSEQ Search Criterion in SEARCH let search_res = search(imap_socket, SearchKind::ModSeq(3))?; // RFC 3.1.6. Modified SEARCH Untagged Response assert!(search_res.contains("* SEARCH 1 (MODSEQ 3)")); // RFC 3.1.7 HIGHESTMODSEQ Status Data Items let status_res = status(imap_socket, Mailbox::Inbox, StatusKind::HighestModSeq)?; assert!(status_res.contains("HIGHESTMODSEQ 3")); Ok(()) }) .expect("test fully run"); } fn rfc2177_imapext_idle() { println!("🧪 rfc2177_imapext_idle"); common::aerogramme_provider_daemon_dev(|imap_socket, lmtp_socket, _dav_socket| { // Test setup, check capability connect(imap_socket).context("server says hello")?; capability(imap_socket, Extension::Idle).context("check server capabilities")?; login(imap_socket, Account::Alice).context("login test")?; select(imap_socket, Mailbox::Inbox, SelectMod::None).context("select inbox")?; // Check that new messages from LMTP are correctly detected during idling start_idle(imap_socket).context("can't start idling")?; lmtp_handshake(lmtp_socket).context("handshake lmtp done")?; lmtp_deliver_email(lmtp_socket, Email::Basic).context("mail delivered successfully")?; let srv_msg = stop_idle(imap_socket).context("stop idling")?; assert!(srv_msg.contains("* 1 EXISTS")); Ok(()) }) .expect("test fully run"); } fn rfc4315_imapext_uidplus() { println!("🧪 rfc4315_imapext_uidplus"); common::aerogramme_provider_daemon_dev(|imap_socket, lmtp_socket, _dav_socket| { // Test setup, check capability, insert 2 emails connect(imap_socket).context("server says hello")?; capability(imap_socket, Extension::UidPlus).context("check server capabilities")?; login(imap_socket, Account::Alice).context("login test")?; select(imap_socket, Mailbox::Inbox, SelectMod::None).context("select inbox")?; lmtp_handshake(lmtp_socket).context("handshake lmtp done")?; lmtp_deliver_email(lmtp_socket, Email::Basic).context("mail delivered successfully")?; lmtp_deliver_email(lmtp_socket, Email::Multipart).context("mail delivered successfully")?; noop_exists(imap_socket, 2).context("noop loop must detect a new email")?; // Check UID EXPUNGE seqset store( imap_socket, Selection::All, Flag::Deleted, StoreAction::AddFlags, StoreMod::None, )?; let res = uid_expunge(imap_socket, Selection::FirstId)?; assert_eq!(res.lines().count(), 2); assert!(res.contains("* 1 EXPUNGE")); // APPENDUID check UID + UID VALIDITY // Note: 4 and not 3, as we update the UID counter when we delete an email // it's part of our UID proof let res = append(imap_socket, Email::Multipart)?; assert!(res.contains("[APPENDUID 1 4]")); // COPYUID, check create_mailbox(imap_socket, Mailbox::Archive).context("created mailbox archive")?; let res = copy(imap_socket, Selection::FirstId, Mailbox::Archive)?; assert!(res.contains("[COPYUID 1 2 1]")); // MOVEUID, check let res = r#move(imap_socket, Selection::FirstId, Mailbox::Archive)?; assert!(res.contains("[COPYUID 1 2 2]")); Ok(()) }) .expect("test fully run"); } /// /// Example /// /// ```text /// 30 list "" "*" RETURN (STATUS (MESSAGES UNSEEN)) /// * LIST (\Subscribed) "." INBOX /// * STATUS INBOX (MESSAGES 2 UNSEEN 1) /// 30 OK LIST completed /// ``` fn rfc5819_imapext_liststatus() { println!("🧪 rfc5819_imapext_liststatus"); common::aerogramme_provider_daemon_dev(|imap_socket, lmtp_socket, _dav_socket| { // Test setup, check capability, add 2 emails, read 1 connect(imap_socket).context("server says hello")?; capability(imap_socket, Extension::ListStatus).context("check server capabilities")?; login(imap_socket, Account::Alice).context("login test")?; select(imap_socket, Mailbox::Inbox, SelectMod::None).context("select inbox")?; lmtp_handshake(lmtp_socket).context("handshake lmtp done")?; lmtp_deliver_email(lmtp_socket, Email::Basic).context("mail delivered successfully")?; lmtp_deliver_email(lmtp_socket, Email::Multipart).context("mail delivered successfully")?; noop_exists(imap_socket, 2).context("noop loop must detect a new email")?; fetch( imap_socket, Selection::FirstId, FetchKind::Rfc822, FetchMod::None, ) .context("read one message")?; close(imap_socket).context("close inbox")?; // Test return status MESSAGES UNSEEN let ret = list( imap_socket, MbxSelect::All, ListReturn::StatusMessagesUnseen, )?; assert!(ret.contains("* STATUS INBOX (MESSAGES 2 UNSEEN 1)")); // Test that without RETURN, no status is sent let ret = list(imap_socket, MbxSelect::All, ListReturn::None)?; assert!(!ret.contains("* STATUS")); Ok(()) }) .expect("test fully run"); } use aero_dav::acltypes as acl; use aero_dav::caltypes as cal; use aero_dav::realization::{self, All}; use aero_dav::synctypes as sync; use aero_dav::types as dav; use aero_dav::versioningtypes as vers; use crate::common::dav_deserialize; fn rfc4918_webdav_core() { println!("🧪 rfc4918_webdav_core"); common::aerogramme_provider_daemon_dev(|_imap, _lmtp, http| { // --- PROPFIND --- // empty request body (assume "allprop") let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087").send()?.text()?; let multistatus = dav_deserialize::>(&body); let root_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/" => Some(x), _ => None, }) .expect("propstats for root must exist"); let root_success = root_propstats.iter().find(|p| p.status.0.as_u16() == 200).expect("some propstats for root must be 200"); let display_name = root_success.prop.0.iter() .find_map(|v| match v { dav::AnyProperty::Value(dav::Property::DisplayName(x)) => Some(x), _ => None } ) .expect("root has a display name"); let content_type = root_success.prop.0.iter() .find_map(|v| match v { dav::AnyProperty::Value(dav::Property::GetContentType(x)) => Some(x), _ => None } ) .expect("root has a content type"); let resource_type = root_success.prop.0.iter() .find_map(|v| match v { dav::AnyProperty::Value(dav::Property::ResourceType(x)) => Some(x), _ => None } ) .expect("root has a resource type"); assert_eq!(display_name, "DAV Root"); assert_eq!(content_type, "httpd/unix-directory"); assert_eq!(resource_type, &[ dav::ResourceType::Collection ]); // propname let propfind_req = r#""#; let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087").body(propfind_req).send()?.text()?; let multistatus = dav_deserialize::>(&body); let root_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/" => Some(x), _ => None, }) .expect("propstats for root must exist"); let root_success = root_propstats.iter().find(|p| p.status.0.as_u16() == 200).expect("some propstats for root must be 200"); assert!(root_success.prop.0.iter().find(|p| matches!(p, dav::AnyProperty::Request(dav::PropertyRequest::DisplayName))).is_some()); assert!(root_success.prop.0.iter().find(|p| matches!(p, dav::AnyProperty::Request(dav::PropertyRequest::ResourceType))).is_some()); assert!(root_success.prop.0.iter().find(|p| matches!(p, dav::AnyProperty::Request(dav::PropertyRequest::GetContentType))).is_some()); // list of properties let propfind_req = r#""#; let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087").body(propfind_req).send()?.text()?; let multistatus = dav_deserialize::>(&body); let root_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/" => Some(x), _ => None, }) .expect("propstats for root must exist"); let root_success = root_propstats.iter().find(|p| p.status.0.as_u16() == 200).expect("some propstats for root must be 200"); let root_not_found = root_propstats.iter().find(|p| p.status.0.as_u16() == 404).expect("some propstats for root must be not found"); assert!(root_success.prop.0.iter().find(|p| matches!(p, dav::AnyProperty::Value(dav::Property::DisplayName(x)) if x == "DAV Root")).is_some()); assert!(root_success.prop.0.iter().find(|p| matches!(p, dav::AnyProperty::Value(dav::Property::ResourceType(_)))).is_none()); assert!(root_success.prop.0.iter().find(|p| matches!(p, dav::AnyProperty::Value(dav::Property::GetContentType(_)))).is_none()); assert!(root_not_found.prop.0.iter().find(|p| matches!(p, dav::AnyProperty::Request(dav::PropertyRequest::GetContentLength))).is_some()); // depth 1 / -> /alice/ let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087").header("Depth", "1").send()?.text()?; let multistatus = dav_deserialize::>(&body); let _user_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/alice/" => Some(x), _ => None, }) .expect("user collection must exist"); // depth 1 /alice/ -> /alice/calendar/ let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/").header("Depth", "1").send()?.text()?; let multistatus = dav_deserialize::>(&body); let _user_calendars_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/alice/calendar/" => Some(x), _ => None, }) .expect("user collection must exist"); // depth 1 /alice/calendar/ -> /alice/calendar/Personal/ let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/calendar/").header("Depth", "1").send()?.text()?; let multistatus = dav_deserialize::>(&body); let _user_calendars_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/alice/calendar/Personal/" => Some(x), _ => None, }) .expect("Personal calendar must exist"); // depth 1 /alice/calendar/Personal/ -> empty for now... let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/calendar/Personal/").header("Depth", "1").send()?.text()?; let multistatus = dav_deserialize::>(&body); assert_eq!(multistatus.responses.len(), 1); // --- PUT --- // first object let resp = http.put("http://localhost:8087/alice/calendar/Personal/rfc2.ics").header("If-None-Match", "*").body(ICAL_RFC2).send()?; let obj1_etag = resp.headers().get("etag").expect("etag must be set"); assert_eq!(resp.status(), 201); let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/calendar/Personal/").header("Depth", "1").send()?.text()?; let multistatus = dav_deserialize::>(&body); assert_eq!(multistatus.responses.len(), 2); // second object let resp = http.put("http://localhost:8087/alice/calendar/Personal/rfc3.ics").header("If-None-Match", "*").body(ICAL_RFC3).send()?; assert_eq!(resp.status(), 201); let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/calendar/Personal/").header("Depth", "1").send()?.text()?; let multistatus = dav_deserialize::>(&body); assert_eq!(multistatus.responses.len(), 3); // can't create an event on an existing path let resp = http.put("http://localhost:8087/alice/calendar/Personal/rfc2.ics").header("If-None-Match", "*").body(ICAL_RFC1).send()?; assert_eq!(resp.status(), 412); // update first object by knowing its ETag let resp = http.put("http://localhost:8087/alice/calendar/Personal/rfc2.ics").header("If-Match", obj1_etag).body(ICAL_RFC1).send()?; assert_eq!(resp.status(), 201); // --- GET --- let body = http.get("http://localhost:8087/alice/calendar/Personal/rfc2.ics").send()?.text()?; assert_eq!(body.as_bytes(), ICAL_RFC1); let body = http.get("http://localhost:8087/alice/calendar/Personal/rfc3.ics").send()?.text()?; assert_eq!(body.as_bytes(), ICAL_RFC3); // --- DELETE --- // delete 1st object let resp = http.delete("http://localhost:8087/alice/calendar/Personal/rfc2.ics").send()?; assert_eq!(resp.status(), 204); let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/calendar/Personal/").header("Depth", "1").send()?.text()?; let multistatus = dav_deserialize::>(&body); assert_eq!(multistatus.responses.len(), 2); // delete 2nd object let resp = http.delete("http://localhost:8087/alice/calendar/Personal/rfc3.ics").send()?; assert_eq!(resp.status(), 204); let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/calendar/Personal/").header("Depth", "1").send()?.text()?; let multistatus = dav_deserialize::>(&body); assert_eq!(multistatus.responses.len(), 1); Ok(()) }) .expect("test fully run"); } fn rfc5397_webdav_principal() { println!("🧪 rfc5397_webdav_principal"); common::aerogramme_provider_daemon_dev(|_imap, _lmtp, http| { // Find principal let propfind_req = r#""#; let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087").body(propfind_req).send()?.text()?; let multistatus = dav_deserialize::>(&body); let root_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/" => Some(x), _ => None, }) .expect("propstats for root must exist"); let root_success = root_propstats.iter().find(|p| p.status.0.as_u16() == 200).expect("current-user-principal must exist"); let principal = root_success.prop.0.iter() .find_map(|v| match v { dav::AnyProperty::Value(dav::Property::Extension(realization::Property::Acl(acl::Property::CurrentUserPrincipal(acl::User::Authenticated(dav::Href(x)))))) => Some(x), _ => None, }) .expect("request returned an authenticated principal"); assert_eq!(principal, "/alice/"); Ok(()) }) .expect("test fully run") } fn rfc4791_webdav_caldav() { println!("🧪 rfc4791_webdav_caldav"); common::aerogramme_provider_daemon_dev(|_imap, _lmtp, http| { // --- INITIAL TEST SETUP --- // Add entries let resp = http .put("http://localhost:8087/alice/calendar/Personal/rfc1.ics") .header("If-None-Match", "*") .body(ICAL_RFC1) .send()?; let obj1_etag = resp.headers().get("etag").expect("etag must be set"); assert_eq!(resp.status(), 201); let resp = http .put("http://localhost:8087/alice/calendar/Personal/rfc2.ics") .header("If-None-Match", "*") .body(ICAL_RFC2) .send()?; let obj2_etag = resp.headers().get("etag").expect("etag must be set"); assert_eq!(resp.status(), 201); let resp = http .put("http://localhost:8087/alice/calendar/Personal/rfc3.ics") .header("If-None-Match", "*") .body(ICAL_RFC3) .send()?; let obj3_etag = resp.headers().get("etag").expect("etag must be set"); assert_eq!(resp.status(), 201); let resp = http .put("http://localhost:8087/alice/calendar/Personal/rfc4.ics") .header("If-None-Match", "*") .body(ICAL_RFC4) .send()?; let _obj4_etag = resp.headers().get("etag").expect("etag must be set"); assert_eq!(resp.status(), 201); let resp = http .put("http://localhost:8087/alice/calendar/Personal/rfc5.ics") .header("If-None-Match", "*") .body(ICAL_RFC5) .send()?; let _obj5_etag = resp.headers().get("etag").expect("etag must be set"); assert_eq!(resp.status(), 201); let resp = http .put("http://localhost:8087/alice/calendar/Personal/rfc6.ics") .header("If-None-Match", "*") .body(ICAL_RFC6) .send()?; let obj6_etag = resp.headers().get("etag").expect("etag must be set"); assert_eq!(resp.status(), 201); let resp = http .put("http://localhost:8087/alice/calendar/Personal/rfc7.ics") .header("If-None-Match", "*") .body(ICAL_RFC7) .send()?; let obj7_etag = resp.headers().get("etag").expect("etag must be set"); assert_eq!(resp.status(), 201); // A generic function to check a query result let check_cal = |multistatus: &dav::Multistatus, (ref_path, ref_etag, ref_ical): (&str, Option<&str>, Option<&[u8]>)| { let obj_stats = multistatus .responses .iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == ref_path => { Some(x) } _ => None, }) .expect("propstats must exist"); let obj_success = obj_stats .iter() .find(|p| p.status.0.as_u16() == 200) .expect("some propstats must be 200"); let etag = obj_success.prop.0.iter().find_map(|p| match p { dav::AnyProperty::Value(dav::Property::GetEtag(x)) => Some(x.as_str()), _ => None, }); assert_eq!(etag, ref_etag); let calendar_data = obj_success.prop.0.iter().find_map(|p| match p { dav::AnyProperty::Value(dav::Property::Extension( realization::Property::Cal(cal::Property::CalendarData(x)), )) => Some(x.payload.as_bytes()), _ => None, }); assert_eq!(calendar_data, ref_ical); }; // --- AUTODISCOVERY --- // Check calendar discovery from principal let propfind_req = r#" "#; let body = http .request( reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/", ) .body(propfind_req) .send()? .text()?; let multistatus = dav_deserialize::>(&body); let principal_propstats = multistatus .responses .iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/alice/" => { Some(x) } _ => None, }) .expect("propstats for root must exist"); let principal_success = principal_propstats .iter() .find(|p| p.status.0.as_u16() == 200) .expect("current-user-principal must exist"); let calendar_home_set = principal_success .prop .0 .iter() .find_map(|v| match v { dav::AnyProperty::Value(dav::Property::Extension(realization::Property::Cal( cal::Property::CalendarHomeSet(dav::Href(x)), ))) => Some(x), _ => None, }) .expect("request returns a calendar home set"); assert_eq!(calendar_home_set, "/alice/calendar/"); // Check calendar access support let _resp = http .request( reqwest::Method::from_bytes(b"OPTIONS")?, "http://localhost:8087/alice/calendar/", ) .send()?; //@FIXME not yet supported. returns DAV: 1 ; expects DAV: 1 calendar-access // Not used by any client I know, so not implementing it now. // --- REPORT calendar-multiget --- let cal_query = r#" /alice/calendar/Personal/rfc1.ics /alice/calendar/Personal/rfc3.ics "#; let resp = http .request( reqwest::Method::from_bytes(b"REPORT")?, "http://localhost:8087/alice/calendar/Personal/", ) .body(cal_query) .send()?; assert_eq!(resp.status(), 207); let multistatus = dav_deserialize::>(&resp.text()?); assert_eq!(multistatus.responses.len(), 2); [ ("/alice/calendar/Personal/rfc1.ics", obj1_etag, ICAL_RFC1), ("/alice/calendar/Personal/rfc3.ics", obj3_etag, ICAL_RFC3), ] .iter() .for_each(|(ref_path, ref_etag, ref_ical)| { check_cal( &multistatus, ( ref_path, Some(ref_etag.to_str().expect("etag header convertible to str")), Some(ref_ical), ), ) }); // --- REPORT calendar-query, only filtering --- // 7.8.8. Example: Retrieval of Events Only let cal_query = r#" "#; let resp = http .request( reqwest::Method::from_bytes(b"REPORT")?, "http://localhost:8087/alice/calendar/Personal/", ) .body(cal_query) .send()?; assert_eq!(resp.status(), 207); let multistatus = dav_deserialize::>(&resp.text()?); assert_eq!(multistatus.responses.len(), 4); [ ("/alice/calendar/Personal/rfc1.ics", obj1_etag, ICAL_RFC1), ("/alice/calendar/Personal/rfc2.ics", obj2_etag, ICAL_RFC2), ("/alice/calendar/Personal/rfc3.ics", obj3_etag, ICAL_RFC3), ("/alice/calendar/Personal/rfc7.ics", obj7_etag, ICAL_RFC7), ] .iter() .for_each(|(ref_path, ref_etag, ref_ical)| { check_cal( &multistatus, ( ref_path, Some(ref_etag.to_str().expect("etag header convertible to str")), Some(ref_ical), ), ) }); // 8.2.1.2. Synchronize by Time Range (here: July 2006) let cal_query = r#" "#; let resp = http .request( reqwest::Method::from_bytes(b"REPORT")?, "http://localhost:8087/alice/calendar/Personal/", ) .body(cal_query) .send()?; assert_eq!(resp.status(), 207); let multistatus = dav_deserialize::>(&resp.text()?); assert_eq!(multistatus.responses.len(), 1); check_cal( &multistatus, ( "/alice/calendar/Personal/rfc2.ics", Some(obj2_etag.to_str().expect("etag header convertible to str")), None, ), ); // 7.8.5. Example: Retrieval of To-Dos by Alarm Time Range let cal_query = r#" "#; let resp = http .request( reqwest::Method::from_bytes(b"REPORT")?, "http://localhost:8087/alice/calendar/Personal/", ) .body(cal_query) .send()?; assert_eq!(resp.status(), 207); let multistatus = dav_deserialize::>(&resp.text()?); assert_eq!(multistatus.responses.len(), 1); check_cal( &multistatus, ( "/alice/calendar/Personal/rfc6.ics", Some(obj6_etag.to_str().expect("etag header convertible to str")), Some(ICAL_RFC6), ), ); // 7.8.6. Example: Retrieval of Event by UID let cal_query = r#" DC6C50A017428C5216A2F1CD@example.com "#; let resp = http .request( reqwest::Method::from_bytes(b"REPORT")?, "http://localhost:8087/alice/calendar/Personal/", ) .body(cal_query) .send()?; assert_eq!(resp.status(), 207); let multistatus = dav_deserialize::>(&resp.text()?); assert_eq!(multistatus.responses.len(), 1); check_cal( &multistatus, ( "/alice/calendar/Personal/rfc3.ics", Some(obj3_etag.to_str().expect("etag header convertible to str")), Some(ICAL_RFC3), ), ); // 7.8.7. Example: Retrieval of Events by PARTSTAT let cal_query = r#" mailto:lisa@example.com NEEDS-ACTION "#; let resp = http .request( reqwest::Method::from_bytes(b"REPORT")?, "http://localhost:8087/alice/calendar/Personal/", ) .body(cal_query) .send()?; assert_eq!(resp.status(), 207); let multistatus = dav_deserialize::>(&resp.text()?); assert_eq!(multistatus.responses.len(), 1); check_cal( &multistatus, ( "/alice/calendar/Personal/rfc7.ics", Some(obj7_etag.to_str().expect("etag header convertible to str")), Some(ICAL_RFC7), ), ); // 7.8.9. Example: Retrieval of All Pending To-Dos let cal_query = r#" CANCELLED "#; let resp = http .request( reqwest::Method::from_bytes(b"REPORT")?, "http://localhost:8087/alice/calendar/Personal/", ) .body(cal_query) .send()?; assert_eq!(resp.status(), 207); let multistatus = dav_deserialize::>(&resp.text()?); assert_eq!(multistatus.responses.len(), 1); check_cal( &multistatus, ( "/alice/calendar/Personal/rfc6.ics", Some(obj6_etag.to_str().expect("etag header convertible to str")), Some(ICAL_RFC6), ), ); // --- REPORT calendar-query, with calendar-data tx --- let cal_query = r#" "#; let resp = http .request( reqwest::Method::from_bytes(b"REPORT")?, "http://localhost:8087/alice/calendar/Personal/", ) .body(cal_query) .send()?; assert_eq!(resp.status(), 207); let multistatus = dav_deserialize::>(&resp.text()?); assert_eq!(multistatus.responses.len(), 1); check_cal( &multistatus, ( "/alice/calendar/Personal/rfc3.ics", Some(obj3_etag.to_str().expect("etag header convertible to str")), Some(ICAL_RFC3_STRIPPED), ), ); Ok(()) }) .expect("test fully run") } fn rfc6578_webdav_sync() { println!("🧪 rfc6578_webdav_sync"); common::aerogramme_provider_daemon_dev(|_imap, _lmtp, http| { // propname on a calendar node must return + (2nd element is theoretically from versioning) let propfind_req = r#""#; let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/calendar/Personal/").body(propfind_req).send()?.text()?; let multistatus = dav_deserialize::>(&body); let root_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/alice/calendar/Personal/" => Some(x), _ => None, }) .expect("propstats for target must exist"); let root_success = root_propstats.iter().find(|p| p.status.0.as_u16() == 200).expect("some propstats for root must be 200"); assert!(root_success.prop.0.iter().find(|p| matches!(p, dav::AnyProperty::Request(dav::PropertyRequest::Extension( realization::PropertyRequest::Sync(sync::PropertyRequest::SyncToken) )))).is_some()); assert!(root_success.prop.0.iter().find(|p| matches!(p, dav::AnyProperty::Request(dav::PropertyRequest::Extension( realization::PropertyRequest::Vers(vers::PropertyRequest::SupportedReportSet) )))).is_some()); // synctoken and supported report set must contains a meaningful value when queried let propfind_req = r#""#; let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/calendar/Personal/").body(propfind_req).send()?.text()?; let multistatus = dav_deserialize::>(&body); let root_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/alice/calendar/Personal/" => Some(x), _ => None, }) .expect("propstats for target must exist"); let root_success = root_propstats.iter().find(|p| p.status.0.as_u16() == 200).expect("some propstats for root must be 200"); let init_sync_token = root_success.prop.0.iter().find_map(|p| match p { dav::AnyProperty::Value(dav::Property::Extension(realization::Property::Sync(sync::Property::SyncToken(st)))) => Some(st), _ => None, }).expect("sync_token exists"); let supported = root_success.prop.0.iter().find_map(|p| match p { dav::AnyProperty::Value(dav::Property::Extension(realization::Property::Vers(vers::Property::SupportedReportSet(s)))) => Some(s), _ => None }).expect("supported report set exists"); assert_eq!(&supported[..], &[ vers::SupportedReport(vers::ReportName::Extension(realization::ReportTypeName::Cal(cal::ReportTypeName::Multiget))), vers::SupportedReport(vers::ReportName::Extension(realization::ReportTypeName::Cal(cal::ReportTypeName::Query))), vers::SupportedReport(vers::ReportName::Extension(realization::ReportTypeName::Sync(sync::ReportTypeName::SyncCollection))), ]); // synctoken must change if we add a file let resp = http .put("http://localhost:8087/alice/calendar/Personal/rfc1.ics") .header("If-None-Match", "*") .body(ICAL_RFC1) .send()?; assert_eq!(resp.status(), 201); let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/calendar/Personal/").body(propfind_req).send()?.text()?; let multistatus = dav_deserialize::>(&body); let root_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/alice/calendar/Personal/" => Some(x), _ => None, }) .expect("propstats for target must exist"); let root_success = root_propstats.iter().find(|p| p.status.0.as_u16() == 200).expect("some propstats for root must be 200"); let rfc1_sync_token = root_success.prop.0.iter().find_map(|p| match p { dav::AnyProperty::Value(dav::Property::Extension(realization::Property::Sync(sync::Property::SyncToken(st)))) => Some(st), _ => None, }).expect("sync_token exists"); assert!(init_sync_token != rfc1_sync_token); // synctoken must change if we delete a file let resp = http.delete("http://localhost:8087/alice/calendar/Personal/rfc1.ics").send()?; assert_eq!(resp.status(), 204); let body = http.request(reqwest::Method::from_bytes(b"PROPFIND")?, "http://localhost:8087/alice/calendar/Personal/").body(propfind_req).send()?.text()?; let multistatus = dav_deserialize::>(&body); let root_propstats = multistatus.responses.iter() .find_map(|v| match &v.status_or_propstat { dav::StatusOrPropstat::PropStat(dav::Href(p), x) if p.as_str() == "/alice/calendar/Personal/" => Some(x), _ => None, }) .expect("propstats for target must exist"); let root_success = root_propstats.iter().find(|p| p.status.0.as_u16() == 200).expect("some propstats for root must be 200"); let del_sync_token = root_success.prop.0.iter().find_map(|p| match p { dav::AnyProperty::Value(dav::Property::Extension(realization::Property::Sync(sync::Property::SyncToken(st)))) => Some(st), _ => None, }).expect("sync_token exists"); assert!(init_sync_token != del_sync_token); assert!(rfc1_sync_token != del_sync_token); Ok(()) }) .expect("test fully run") }