/* Copyright (c) 2014-2018 Dovecot authors, see the included COPYING file */ #include "imap-common.h" #include "crc32.h" #include "numpack.h" #include "net.h" #include "ostream.h" #include "str.h" #include "str-sanitize.h" #include "imap-util.h" #include "mail-search-build.h" #include "mail-storage-private.h" #include "mailbox-recent-flags.h" #include "imap-client.h" #include "imap-feature.h" #include "imap-fetch.h" #include "imap-search-args.h" #include "imap-state.h" enum imap_state_type_public { IMAP_STATE_TYPE_MAILBOX = 'B', IMAP_STATE_TYPE_ENABLED_FEATURE = 'F', IMAP_STATE_TYPE_SEARCHRES = '1', }; enum imap_state_type_internal { IMAP_STATE_TYPE_ID_LOGGED = 'I', IMAP_STATE_TYPE_TLS_COMPRESSION = 'C', }; struct mailbox_import_state { const char *vname; guid_128_t mailbox_guid; bool examined; uint32_t keywords_count, keywords_crc32, uids_crc32; uint32_t uidvalidity, uidnext, messages; uint64_t highest_modseq; ARRAY_TYPE(seq_range) recent_uids; }; static void export_seq_range(buffer_t *dest, const ARRAY_TYPE(seq_range) *range) { const struct seq_range *uids; unsigned int i, count; uint32_t next_uid; uids = array_get(range, &count); numpack_encode(dest, count); next_uid = 1; for (i = 0; i < count; i++) { i_assert(uids[i].seq1 >= next_uid); if (uids[i].seq1 == uids[i].seq2) { numpack_encode(dest, (uids[i].seq1 - next_uid) << 1); } else { numpack_encode(dest, 1 | ((uids[i].seq1 - next_uid) << 1)); numpack_encode(dest, uids[i].seq2 - uids[i].seq1 - 1); } next_uid = uids[i].seq2 + 1; } } static int import_seq_range(const unsigned char **data, const unsigned char *end, ARRAY_TYPE(seq_range) *range) { uint32_t i, count, next_uid, num, uid1, uid2; if (numpack_decode32(data, end, &count) < 0) return -1; next_uid = 1; for (i = 0; i < count; i++) { if (numpack_decode32(data, end, &num) < 0) return -1; uid1 = next_uid + (num >> 1); if ((num & 1) == 0) { uid2 = uid1; seq_range_array_add(range, uid1); } else { if (numpack_decode32(data, end, &num) < 0) return -1; uid2 = uid1 + num + 1; seq_range_array_add_range(range, uid1, uid2); } next_uid = uid2 + 1; } return 0; } int imap_state_export_internal(struct client *client, buffer_t *dest, const char **error_r) { /* the only IMAP command we allow running is IDLE or X-STATE */ if (client->command_queue_size > 1) { *error_r = "Multiple commands in progress"; return 0; } if (client->command_queue == NULL || strcasecmp(client->command_queue->name, "IDLE") != 0) { /* this would require saving the seq <-> uid mapping and restore it on import. quite a lot of trouble if messages have been expunged in the mean time. */ *error_r = "Non-IDLE connections not supported currently"; return 0; } return client->v.state_export(client, TRUE, dest, error_r); } int imap_state_export_external(struct client *client, buffer_t *dest, const char **error_r) { if (client->command_queue_size > 1) { *error_r = "Multiple commands in progress"; return 0; } i_assert(client->command_queue_size == 1); i_assert(strcmp(client->command_queue->name, "X-STATE") == 0); return client->v.state_export(client, FALSE, dest, error_r); } static int imap_state_import(struct client *client, bool internal, const unsigned char *data, size_t size, const char **error_r) { ssize_t ret; while (size > 0) { ret = client->v.state_import(client, internal, data, size, error_r); if (ret <= 0) { i_assert(*error_r != NULL); return ret < 0 ? -1 : 0; } i_assert((size_t)ret <= size); data += ret; size -= ret; } return 1; } int imap_state_import_internal(struct client *client, const unsigned char *data, size_t size, const char **error_r) { return imap_state_import(client, TRUE, data, size, error_r); } int imap_state_import_external(struct client *client, const unsigned char *data, size_t size, const char **error_r) { return imap_state_import(client, FALSE, data, size, error_r); } static int imap_state_export_mailbox_mails(buffer_t *dest, struct mailbox *box, const char **error_r) { struct mailbox_transaction_context *trans; struct mail_search_args *search_args; struct mail_search_context *search_ctx; struct mail *mail; ARRAY_TYPE(seq_range) recent_uids; uint32_t crc = 0; int ret = 1; search_args = mail_search_build_init(); mail_search_build_add_all(search_args); trans = mailbox_transaction_begin(box, 0, "unhibernate imap_state_export_mailbox_mails"); search_ctx = mailbox_search_init(trans, search_args, NULL, 0, NULL); mail_search_args_unref(&search_args); t_array_init(&recent_uids, 8); while (mailbox_search_next(search_ctx, &mail)) { crc = crc32_data_more(crc, &mail->uid, sizeof(mail->uid)); if ((mail_get_flags(mail) & MAIL_RECENT) != 0) seq_range_array_add(&recent_uids, mail->uid); } if (mailbox_search_deinit(&search_ctx) < 0) { *error_r = mailbox_get_last_internal_error(box, NULL); ret = -1; } (void)mailbox_transaction_commit(&trans); numpack_encode(dest, crc); export_seq_range(dest, &recent_uids); return ret; } static uint32_t mailbox_status_keywords_crc32(const struct mailbox_status *status) { const char *str; uint32_t crc = 0; array_foreach_elem(status->keywords, str) crc = crc32_str(str); return crc; } static int imap_state_export_mailbox(buffer_t *dest, struct client *client, struct mailbox *box, const char **error_r) { struct mailbox_status status; struct mailbox_metadata metadata; const char *vname = mailbox_get_vname(box); enum mail_error mail_error; mailbox_get_open_status(box, STATUS_UIDVALIDITY | STATUS_UIDNEXT | STATUS_MESSAGES | STATUS_HIGHESTMODSEQ | STATUS_KEYWORDS, &status); if (status.nonpermanent_modseqs) { *error_r = "Nonpermanent modseqs"; return 0; } if (mailbox_get_metadata(box, MAILBOX_METADATA_GUID, &metadata) < 0) { *error_r = mailbox_get_last_internal_error(box, &mail_error); /* if the selected mailbox can't have a GUID, fail silently */ return mail_error == MAIL_ERROR_NOTPOSSIBLE ? 0 : -1; } buffer_append_c(dest, IMAP_STATE_TYPE_MAILBOX); buffer_append(dest, vname, strlen(vname)+1); buffer_append(dest, metadata.guid, sizeof(metadata.guid)); buffer_append_c(dest, client->mailbox_examined ? 1 : 0); numpack_encode(dest, status.uidvalidity); numpack_encode(dest, status.uidnext); numpack_encode(dest, status.messages); if (client_has_enabled(client, imap_feature_qresync) && !client->nonpermanent_modseqs) numpack_encode(dest, client->sync_last_full_modseq); else numpack_encode(dest, status.highest_modseq); /* keywords count + CRC32 should be enough to figure out if it needs to be resent */ numpack_encode(dest, array_count(status.keywords)); numpack_encode(dest, mailbox_status_keywords_crc32(&status)); /* we're now basically done, but just in case there's a bug add a checksum of the currently existing UIDs and verify it when importing. this also writes the list of recent UIDs. */ return imap_state_export_mailbox_mails(dest, box, error_r); } int imap_state_export_base(struct client *client, bool internal, buffer_t *dest, const char **error_r) { int ret; str_append(dest, "base\n"); if (array_is_created(&client->search_updates) && array_count(&client->search_updates) > 0) { /* these could be tricky */ *error_r = "CONTEXT=SEARCH updates not supported currently"; return 0; } if (client->notify_ctx != NULL) { /* FIXME: this really should be supported. also IDLE wouldn't be needed if NOTIFY allows sending EXPUNGEs to selected mailbox. */ *error_r = "NOTIFY not supported currently"; return 0; } if (client->mailbox != NULL) { ret = imap_state_export_mailbox(dest, client, client->mailbox, error_r); if (ret <= 0) return ret; } /* IMAP features */ const char *const *features = client_enabled_features(client); if (features != NULL) { for (unsigned int i = 0; features[i] != NULL; i++) { buffer_append_c(dest, IMAP_STATE_TYPE_ENABLED_FEATURE); buffer_append(dest, features[i], strlen(features[i])+1); } } if (internal) { if (client->id_logged) buffer_append_c(dest, IMAP_STATE_TYPE_ID_LOGGED); if (client->tls_compression) buffer_append_c(dest, IMAP_STATE_TYPE_TLS_COMPRESSION); } /* IMAP SEARCHRES extension */ if (array_is_created(&client->search_saved_uidset) && array_count(&client->search_saved_uidset) > 0) { buffer_append_c(dest, IMAP_STATE_TYPE_SEARCHRES); export_seq_range(dest, &client->search_saved_uidset); } return 1; } static int import_string(const unsigned char **data, const unsigned char *end, const char **str_r) { const unsigned char *p; p = memchr(*data, '\0', end - *data); if (p == NULL) return -1; *str_r = (const void *)*data; *data = p + 1; return 0; } static int import_send_expunges(struct client *client, const struct mailbox_import_state *state, unsigned int *expunge_count_r, const char **error_r) { struct mailbox_transaction_context *trans; struct mail_search_args *search_args; struct mail_search_context *search_ctx; struct mail *mail; uint32_t crc = 0, seq, expunged_uid; ARRAY_TYPE(seq_range) uids_filter, expunged_uids; ARRAY_TYPE(uint32_t) expunged_seqs; struct seq_range_iter iter; const uint32_t *seqs; unsigned int i, expunge_count, n = 0; string_t *str; int ret = 0; *expunge_count_r = 0; if (state->messages == 0) { /* the mailbox was empty originally - there couldn't be any pending expunges. */ return 0; } if (state->uidnext <= 1) { *error_r = "Invalid UIDNEXT"; return -1; } /* get all the message UIDs expunged since the last known modseq */ t_array_init(&uids_filter, 1); t_array_init(&expunged_uids, 128); seq_range_array_add_range(&uids_filter, 1, state->uidnext-1); if (!mailbox_get_expunged_uids(client->mailbox, state->highest_modseq, &uids_filter, &expunged_uids)) { *error_r = t_strdup_printf( "Couldn't get recently expunged UIDs " "(uidnext=%u highest_modseq=%"PRIu64")", state->uidnext, state->highest_modseq); return -1; } seq_range_array_iter_init(&iter, &expunged_uids); search_args = mail_search_build_init(); mail_search_build_add_all(search_args); trans = mailbox_transaction_begin(client->mailbox, 0, "unhibernate import_send_expunges"); search_ctx = mailbox_search_init(trans, search_args, NULL, 0, NULL); mail_search_args_unref(&search_args); /* find sequence numbers for the expunged UIDs */ t_array_init(&expunged_seqs, array_count(&expunged_uids)+1); seq = 0; while (mailbox_search_next(search_ctx, &mail)) { while (seq_range_array_iter_nth(&iter, n, &expunged_uid) && expunged_uid < mail->uid && seq < state->messages) { seq++; n++; array_push_back(&expunged_seqs, &seq); crc = crc32_data_more(crc, &expunged_uid, sizeof(expunged_uid)); } if (seq == state->messages) break; crc = crc32_data_more(crc, &mail->uid, sizeof(mail->uid)); if (++seq == state->messages) break; } while (seq_range_array_iter_nth(&iter, n, &expunged_uid) && seq < state->messages) { seq++; n++; array_push_back(&expunged_seqs, &seq); crc = crc32_data_more(crc, &expunged_uid, sizeof(expunged_uid)); } if (mailbox_search_deinit(&search_ctx) < 0) { *error_r = mailbox_get_last_internal_error(client->mailbox, NULL); ret = -1; } else if (seq != state->messages) { *error_r = t_strdup_printf("Message count mismatch after " "handling expunges (%u != %u)", seq, state->messages); ret = -1; } (void)mailbox_transaction_commit(&trans); if (ret < 0) return -1; seqs = array_get(&expunged_seqs, &expunge_count); if (client->messages_count + expunge_count < state->messages) { *error_r = t_strdup_printf("Message count too low after " "handling expunges (%u < %u)", client->messages_count + expunge_count, state->messages); return -1; } if (crc != state->uids_crc32) { *error_r = t_strdup_printf("Message UIDs CRC32 mismatch (%u != %u)", crc, state->uids_crc32); return -1; } if (!client_has_enabled(client, imap_feature_qresync)) { str = t_str_new(32); for (i = expunge_count; i > 0; i--) { str_truncate(str, 0); str_printfa(str, "* %u EXPUNGE", seqs[i-1]); client_send_line(client, str_c(str)); } } else { str = str_new(default_pool, 128); str_append(str, "* VANISHED "); imap_write_seq_range(str, &expunged_uids); str_append(str, "\r\n"); o_stream_nsend(client->output, str_data(str), str_len(str)); str_free(&str); } *expunge_count_r = expunge_count; return 0; } static int import_send_flag_changes(struct client *client, const struct mailbox_import_state *state, unsigned int *flag_change_count_r) { struct imap_fetch_context *fetch_ctx; struct mail_search_args *search_args; ARRAY_TYPE(seq_range) old_uids; pool_t pool; int ret; *flag_change_count_r = 0; if (state->messages == 0) return 0; t_array_init(&old_uids, 1); seq_range_array_add_range(&old_uids, 1, state->uidnext-1); search_args = mail_search_build_init(); search_args->args = p_new(search_args->pool, struct mail_search_arg, 1); search_args->args->type = SEARCH_UIDSET; search_args->args->value.seqset = old_uids; imap_search_add_changed_since(search_args, state->highest_modseq); pool = pool_alloconly_create("imap state flag changes", 1024); fetch_ctx = imap_fetch_alloc(client, pool, "unhibernate"); pool_unref(&pool); imap_fetch_init_nofail_handler(fetch_ctx, imap_fetch_flags_init); if (client_has_enabled(client, imap_feature_qresync)) { imap_fetch_init_nofail_handler(fetch_ctx, imap_fetch_uid_init); imap_fetch_init_nofail_handler(fetch_ctx, imap_fetch_modseq_init); } imap_fetch_begin(fetch_ctx, client->mailbox, search_args); mail_search_args_unref(&search_args); /* FIXME: ideally do this asynchronously.. */ while (imap_fetch_more_no_lock_update(fetch_ctx) == 0) ; ret = imap_fetch_end(fetch_ctx); *flag_change_count_r = fetch_ctx->fetched_mails_count; imap_fetch_free(&fetch_ctx); return ret; } static ssize_t import_state_mailbox_struct(const unsigned char *data, size_t size, struct mailbox_import_state *state_r, const char **error_r) { const unsigned char *p = data, *end = data + size; i_zero(state_r); t_array_init(&state_r->recent_uids, 8); /* vname */ if (import_string(&p, end, &state_r->vname) < 0) { *error_r = "Mailbox state truncated at name"; return 0; } /* GUID */ if (end-p < (int)sizeof(state_r->mailbox_guid)) { *error_r = "Mailbox state truncated at GUID"; return 0; } memcpy(state_r->mailbox_guid, p, sizeof(state_r->mailbox_guid)); p += sizeof(state_r->mailbox_guid); if (guid_128_is_empty(state_r->mailbox_guid)) { *error_r = "Empty GUID"; return 0; } /* EXAMINEd vs SELECTed */ if (p == end) { *error_r = "Mailbox state truncated at examined-flag"; return 0; } state_r->examined = p[0] != 0; p++; /* mailbox state */ if (numpack_decode32(&p, end, &state_r->uidvalidity) < 0 || numpack_decode32(&p, end, &state_r->uidnext) < 0 || numpack_decode32(&p, end, &state_r->messages) < 0 || numpack_decode(&p, end, &state_r->highest_modseq) < 0 || numpack_decode32(&p, end, &state_r->keywords_count) < 0 || numpack_decode32(&p, end, &state_r->keywords_crc32) < 0 || numpack_decode32(&p, end, &state_r->uids_crc32) < 0 || import_seq_range(&p, end, &state_r->recent_uids) < 0) { *error_r = "Mailbox state truncated"; return 0; } if (state_r->uidvalidity == 0) { *error_r = "Empty UIDVALIDITY"; return 0; } if (state_r->uidnext == 0) { *error_r = "Empty UIDNEXT"; return 0; } return p - data; } static int import_state_mailbox_open(struct client *client, const struct mailbox_import_state *state, const char **error_r) { struct mail_namespace *ns; struct mailbox *box; struct mailbox_metadata metadata; struct mailbox_status status; const struct seq_range *range; enum mailbox_flags flags = 0; unsigned int expunge_count, new_mails_count = 0, flag_change_count = 0; uint32_t uid; int ret = 0; ns = mail_namespace_find(client->user->namespaces, state->vname); if (ns == NULL) { *error_r = "Namespace not found for mailbox"; return -1; } if (state->examined) flags |= MAILBOX_FLAG_READONLY; else flags |= MAILBOX_FLAG_DROP_RECENT; box = mailbox_alloc(ns->list, state->vname, flags); if (mailbox_open(box) < 0) { *error_r = t_strdup_printf("Couldn't open mailbox: %s", mailbox_get_last_internal_error(box, NULL)); mailbox_free(&box); return -1; } ret = mailbox_enable(box, client_enabled_mailbox_features(client)); if (ret < 0 || mailbox_sync(box, 0) < 0) { *error_r = t_strdup_printf("Couldn't sync mailbox: %s", mailbox_get_last_internal_error(box, NULL)); mailbox_free(&box); return -1; } /* verify that this still looks like the same mailbox */ if (mailbox_get_metadata(box, MAILBOX_METADATA_GUID, &metadata) < 0) { *error_r = mailbox_get_last_internal_error(box, NULL); mailbox_free(&box); return -1; } if (!guid_128_equals(metadata.guid, state->mailbox_guid)) { *error_r = t_strdup_printf("Mailbox GUID has changed %s->%s", guid_128_to_string(state->mailbox_guid), guid_128_to_string(metadata.guid)); mailbox_free(&box); return -1; } mailbox_get_open_status(box, STATUS_UIDVALIDITY | STATUS_UIDNEXT | STATUS_HIGHESTMODSEQ | STATUS_RECENT | STATUS_KEYWORDS, &status); if (status.uidvalidity != state->uidvalidity) { *error_r = t_strdup_printf("Mailbox UIDVALIDITY has changed %u->%u", state->uidvalidity, status.uidvalidity); mailbox_free(&box); return -1; } if (status.uidnext < state->uidnext) { *error_r = t_strdup_printf("Mailbox UIDNEXT shrank %u -> %u", state->uidnext, status.uidnext); mailbox_free(&box); return -1; } if (status.highest_modseq < state->highest_modseq) { *error_r = t_strdup_printf("Mailbox HIGHESTMODSEQ shrank %"PRIu64" -> %"PRIu64, state->highest_modseq, status.highest_modseq); mailbox_free(&box); return -1; } client->mailbox = box; client->mailbox_examined = state->examined; client->messages_count = status.messages; client->uidvalidity = status.uidvalidity; client->notify_uidnext = status.uidnext; if (import_send_expunges(client, state, &expunge_count, error_r) < 0) return -1; i_assert(expunge_count <= state->messages); if (state->messages - expunge_count > client->messages_count) { *error_r = t_strdup_printf("Mailbox message count shrank %u -> %u", client->messages_count, state->messages - expunge_count); return -1; } client_update_mailbox_flags(client, status.keywords); array_foreach(&state->recent_uids, range) { for (uid = range->seq1; uid <= range->seq2; uid++) { uint32_t seq; if (mail_index_lookup_seq(box->view, uid, &seq)) mailbox_recent_flags_set_uid_forced(box, uid); } } client->recent_count = mailbox_recent_flags_count(box); if (state->messages - expunge_count < client->messages_count) { /* new messages arrived */ new_mails_count = client->messages_count - (state->messages - expunge_count); client_send_line(client, t_strdup_printf("* %u EXISTS", client->messages_count)); client_send_line(client, t_strdup_printf("* %u RECENT", client->recent_count)); } if (array_count(status.keywords) == state->keywords_count && mailbox_status_keywords_crc32(&status) == state->keywords_crc32) { /* no changes to keywords */ client->keywords.announce_count = state->keywords_count; } else { client_send_mailbox_flags(client, TRUE); } if (import_send_flag_changes(client, state, &flag_change_count) < 0) { *error_r = "Couldn't send flag changes"; return -1; } if (client_has_enabled(client, imap_feature_qresync) && !client->nonpermanent_modseqs && status.highest_modseq != state->highest_modseq) { client_send_line(client, t_strdup_printf( "* OK [HIGHESTMODSEQ %"PRIu64"] Highest", status.highest_modseq)); client->sync_last_full_modseq = status.highest_modseq; } e_debug(client->event, "Unhibernation sync: %u expunges, %u new messages, %u flag changes, %"PRIu64" modseq changes", expunge_count, new_mails_count, flag_change_count, status.highest_modseq - state->highest_modseq); return 0; } static ssize_t import_state_mailbox(struct client *client, const unsigned char *data, size_t size, const char **error_r) { struct mailbox_import_state state; ssize_t ret; if (client->mailbox != NULL) { *error_r = "Duplicate mailbox state"; return 0; } ret = import_state_mailbox_struct(data, size, &state, error_r); if (ret <= 0) { i_assert(*error_r != NULL); return ret; } if (import_state_mailbox_open(client, &state, error_r) < 0) { *error_r = t_strdup_printf("Mailbox %s: %s", state.vname, *error_r); return -1; } return ret; } static ssize_t import_state_enabled_feature(struct client *client, const unsigned char *data, size_t size, const char **error_r) { const unsigned char *p = data, *end = data + size; const char *name; unsigned int feature_idx; if (import_string(&p, end, &name) < 0) { *error_r = "Mailbox state truncated at name"; return 0; } if (!imap_feature_lookup(name, &feature_idx)) { *error_r = t_strdup_printf("Unknown feature '%s'", name); return 0; } client_enable(client, feature_idx); return p - data; } static ssize_t import_state_searchres(struct client *client, const unsigned char *data, size_t size, const char **error_r) { const unsigned char *p = data; i_array_init(&client->search_saved_uidset, 128); if (import_seq_range(&p, data+size, &client->search_saved_uidset) < 0) { *error_r = "Invalid SEARCHRES seq-range"; return 0; } return p - data; } static ssize_t import_state_id_logged(struct client *client, const unsigned char *data ATTR_UNUSED, size_t size ATTR_UNUSED, const char **error_r ATTR_UNUSED) { client->id_logged = TRUE; return 0; } static ssize_t import_state_tls_compression(struct client *client, const unsigned char *data ATTR_UNUSED, size_t size ATTR_UNUSED, const char **error_r ATTR_UNUSED) { client->tls_compression = TRUE; return 0; } void imap_state_import_idle_cmd_tag(struct client *client, const char *tag) { if (client->state_import_idle_continue) { /* IDLE command continues */ struct client_command_context *cmd; struct command *command; cmd = client_command_alloc(client); cmd->tag = p_strdup(cmd->pool, tag); cmd->name = "IDLE"; command = command_find("IDLE"); i_assert(command != NULL); cmd->func = command->func; cmd->cmd_flags = command->flags; client_command_init_finished(cmd); if (command_exec(cmd)) { /* IDLE terminated because of an external change, but DONE was already buffered */ client_command_free(&cmd); client_add_missing_io(client); } else { i_assert(cmd->state == CLIENT_COMMAND_STATE_WAIT_INPUT || cmd->state == CLIENT_COMMAND_STATE_WAIT_OUTPUT); } } else { /* we're finishing IDLE command */ client_send_line(client, t_strdup_printf( "%s %s Idle completed.", tag, client->state_import_bad_idle_done ? "BAD" : "OK")); } } static struct { enum imap_state_type_public type; ssize_t (*import)(struct client *client, const unsigned char *data, size_t size, const char **error_r); } imap_states_public[] = { { IMAP_STATE_TYPE_MAILBOX, import_state_mailbox }, { IMAP_STATE_TYPE_ENABLED_FEATURE, import_state_enabled_feature }, { IMAP_STATE_TYPE_SEARCHRES, import_state_searchres } }; static struct { enum imap_state_type_internal type; ssize_t (*import)(struct client *client, const unsigned char *data, size_t size, const char **error_r); } imap_states_internal[] = { { IMAP_STATE_TYPE_ID_LOGGED, import_state_id_logged }, { IMAP_STATE_TYPE_TLS_COMPRESSION, import_state_tls_compression } }; static ssize_t imap_state_try_import_public(struct client *client, const unsigned char *data, size_t size, const char **error_r) { unsigned int i; ssize_t ret; i_assert(size > 0); for (i = 0; i < N_ELEMENTS(imap_states_public); i++) { if (imap_states_public[i].type == data[0]) { ret = imap_states_public[i]. import(client, data+1, size-1, error_r); return ret < 0 ? -1 : ret+1; } } return -2; } static ssize_t imap_state_try_import_internal(struct client *client, const unsigned char *data, size_t size, const char **error_r) { unsigned int i; ssize_t ret; i_assert(size > 0); for (i = 0; i < N_ELEMENTS(imap_states_internal); i++) { if (imap_states_internal[i].type == data[0]) { ret = imap_states_internal[i]. import(client, data+1, size-1, error_r); return ret < 0 ? -1 : ret+1; } } return -2; } ssize_t imap_state_import_base(struct client *client, bool internal, const unsigned char *data, size_t size, const char **error_r) { const unsigned char *p; ssize_t ret; size_t pos; i_assert(client->mailbox == NULL); *error_r = NULL; if (size < 5 || memcmp(data, "base\n", 5) != 0) { p = memchr(data, '\n', size); if (p == NULL) p = data + I_MIN(size, 20); *error_r = t_strdup_printf("Unknown state block '%s'", str_sanitize(t_strdup_until(data, p), 20)); return 0; } pos = 5; while (pos < size) { ret = imap_state_try_import_public(client, data+pos, size-pos, error_r); if (ret == -2 && internal) { ret = imap_state_try_import_internal(client, data+pos, size-pos, error_r); } if (ret < 0 || *error_r != NULL) { if (ret == -2) { *error_r = t_strdup_printf("Unknown type '%c'", data[pos]); } i_assert(*error_r != NULL); return ret < 0 ? -1 : 0; } i_assert(size - pos >= (size_t)ret); pos += ret; } return pos; }