-- -- PostgreSQL database dump -- -- Dumped from database version 14beta3 -- Dumped by pg_dump version 14beta3 SET statement_timeout = 0; SET lock_timeout = 0; SET idle_in_transaction_session_timeout = 0; SET client_encoding = 'UTF8'; SET standard_conforming_strings = on; SELECT pg_catalog.set_config('search_path', '', false); SET check_function_bodies = false; SET xmloption = content; SET client_min_messages = warning; SET row_security = off; -- -- Name: eth; Type: SCHEMA; Schema: -; Owner: - -- CREATE SCHEMA eth; SET default_tablespace = ''; SET default_table_access_method = heap; -- -- Name: header_cids; Type: TABLE; Schema: eth; Owner: - -- CREATE TABLE eth.header_cids ( block_hash character varying(66) NOT NULL, block_number bigint NOT NULL, parent_hash character varying(66) NOT NULL, cid text NOT NULL, mh_key text NOT NULL, td numeric NOT NULL, node_id character varying(128) NOT NULL, reward numeric NOT NULL, state_root character varying(66) NOT NULL, tx_root character varying(66) NOT NULL, receipt_root character varying(66) NOT NULL, uncle_root character varying(66) NOT NULL, bloom bytea NOT NULL, "timestamp" numeric NOT NULL, times_validated integer DEFAULT 1 NOT NULL, base_fee bigint ); -- -- Name: TABLE header_cids; Type: COMMENT; Schema: eth; Owner: - -- COMMENT ON TABLE eth.header_cids IS '@name EthHeaderCids'; -- -- Name: COLUMN header_cids.node_id; Type: COMMENT; Schema: eth; Owner: - -- COMMENT ON COLUMN eth.header_cids.node_id IS '@name EthNodeID'; -- -- Name: child_result; Type: TYPE; Schema: public; Owner: - -- CREATE TYPE public.child_result AS ( has_child boolean, children eth.header_cids[] ); -- -- Name: canonical_header_from_array(eth.header_cids[]); Type: FUNCTION; Schema: public; Owner: - -- CREATE FUNCTION public.canonical_header_from_array(headers eth.header_cids[]) RETURNS eth.header_cids LANGUAGE plpgsql AS $$ DECLARE canonical_header eth.header_cids; canonical_child eth.header_cids; header eth.header_cids; current_child_result child_result; child_headers eth.header_cids[]; current_header_with_child eth.header_cids; has_children_count INT DEFAULT 0; BEGIN -- for each header in the provided set FOREACH header IN ARRAY headers LOOP -- check if it has any children current_child_result = has_child(header.block_hash, header.block_number); IF current_child_result.has_child THEN -- if it does, take note has_children_count = has_children_count + 1; current_header_with_child = header; -- and add the children to the growing set of child headers child_headers = array_cat(child_headers, current_child_result.children); END IF; END LOOP; -- if none of the headers had children, none is more canonical than the other IF has_children_count = 0 THEN -- return the first one selected SELECT * INTO canonical_header FROM unnest(headers) LIMIT 1; -- if only one header had children, it can be considered the heaviest/canonical header of the set ELSIF has_children_count = 1 THEN -- return the only header with a child canonical_header = current_header_with_child; -- if there are multiple headers with children ELSE -- find the canonical header from the child set canonical_child = canonical_header_from_array(child_headers); -- the header that is parent to this header, is the canonical header at this level SELECT * INTO canonical_header FROM unnest(headers) WHERE block_hash = canonical_child.parent_hash; END IF; RETURN canonical_header; END $$; -- -- Name: canonical_header_id(bigint); Type: FUNCTION; Schema: public; Owner: - -- CREATE FUNCTION public.canonical_header_id(height bigint) RETURNS integer LANGUAGE plpgsql AS $$ DECLARE canonical_header eth.header_cids; headers eth.header_cids[]; header_count INT; temp_header eth.header_cids; BEGIN -- collect all headers at this height FOR temp_header IN SELECT * FROM eth.header_cids WHERE block_number = height LOOP headers = array_append(headers, temp_header); END LOOP; -- count the number of headers collected header_count = array_length(headers, 1); -- if we have less than 1 header, return NULL IF header_count IS NULL OR header_count < 1 THEN RETURN NULL; -- if we have one header, return its id ELSIF header_count = 1 THEN RETURN headers[1].id; -- if we have multiple headers we need to determine which one is canonical ELSE canonical_header = canonical_header_from_array(headers); RETURN canonical_header.id; END IF; END; $$; -- -- Name: has_child(character varying, bigint); Type: FUNCTION; Schema: public; Owner: - -- CREATE FUNCTION public.has_child(hash character varying, height bigint) RETURNS public.child_result LANGUAGE plpgsql AS $$ DECLARE child_height INT; temp_child eth.header_cids; new_child_result child_result; BEGIN child_height = height + 1; -- short circuit if there are no children SELECT exists(SELECT 1 FROM eth.header_cids WHERE parent_hash = hash AND block_number = child_height LIMIT 1) INTO new_child_result.has_child; -- collect all the children for this header IF new_child_result.has_child THEN FOR temp_child IN SELECT * FROM eth.header_cids WHERE parent_hash = hash AND block_number = child_height LOOP new_child_result.children = array_append(new_child_result.children, temp_child); END LOOP; END IF; RETURN new_child_result; END $$; -- -- Name: was_state_leaf_removed(character varying, character varying); Type: FUNCTION; Schema: public; Owner: - -- CREATE FUNCTION public.was_state_leaf_removed(key character varying, hash character varying) RETURNS boolean LANGUAGE sql AS $$ SELECT state_cids.node_type = 3 FROM eth.state_cids INNER JOIN eth.header_cids ON (state_cids.header_id = header_cids.block_hash) WHERE state_leaf_key = key AND block_number <= (SELECT block_number FROM eth.header_cids WHERE block_hash = hash) ORDER BY block_number DESC LIMIT 1; $$; -- -- Name: access_list_elements; Type: TABLE; Schema: eth; Owner: - -- CREATE TABLE eth.access_list_elements ( tx_id character varying(66) NOT NULL, index integer NOT NULL, address character varying(66), storage_keys character varying(66)[] ); -- -- Name: log_cids; Type: TABLE; Schema: eth; Owner: - -- CREATE TABLE eth.log_cids ( rct_id character varying(66) NOT NULL, leaf_cid text NOT NULL, leaf_mh_key text NOT NULL, address character varying(66) NOT NULL, log_data bytea, index integer NOT NULL, topic0 character varying(66), topic1 character varying(66), topic2 character varying(66), topic3 character varying(66) ); -- -- Name: receipt_cids; Type: TABLE; Schema: eth; Owner: - -- CREATE TABLE eth.receipt_cids ( tx_id character varying(66) NOT NULL, leaf_cid text NOT NULL, leaf_mh_key text NOT NULL, contract character varying(66), contract_hash character varying(66), post_state character varying(66), post_status integer, log_root character varying(66) ); -- -- Name: state_accounts; Type: TABLE; Schema: eth; Owner: - -- CREATE TABLE eth.state_accounts ( header_id character varying(66) NOT NULL, state_path bytea NOT NULL, balance numeric NOT NULL, nonce integer NOT NULL, code_hash bytea NOT NULL, storage_root character varying(66) NOT NULL ); -- -- Name: state_cids; Type: TABLE; Schema: eth; Owner: - -- CREATE TABLE eth.state_cids ( header_id character varying(66) NOT NULL, state_leaf_key character varying(66), cid text NOT NULL, mh_key text NOT NULL, state_path bytea NOT NULL, node_type integer NOT NULL, diff boolean DEFAULT false NOT NULL ); -- -- Name: storage_cids; Type: TABLE; Schema: eth; Owner: - -- CREATE TABLE eth.storage_cids ( header_id character varying(66) NOT NULL, state_path bytea NOT NULL, storage_leaf_key character varying(66), cid text NOT NULL, mh_key text NOT NULL, storage_path bytea NOT NULL, node_type integer NOT NULL, diff boolean DEFAULT false NOT NULL ); -- -- Name: transaction_cids; Type: TABLE; Schema: eth; Owner: - -- CREATE TABLE eth.transaction_cids ( tx_hash character varying(66) NOT NULL, header_id character varying(66) NOT NULL, index integer NOT NULL, cid text NOT NULL, mh_key text NOT NULL, dst character varying(66) NOT NULL, src character varying(66) NOT NULL, tx_data bytea, tx_type integer ); -- -- Name: TABLE transaction_cids; Type: COMMENT; Schema: eth; Owner: - -- COMMENT ON TABLE eth.transaction_cids IS '@name EthTransactionCids'; -- -- Name: uncle_cids; Type: TABLE; Schema: eth; Owner: - -- CREATE TABLE eth.uncle_cids ( block_hash character varying(66) NOT NULL, header_id character varying(66) NOT NULL, parent_hash character varying(66) NOT NULL, cid text NOT NULL, mh_key text NOT NULL, reward numeric NOT NULL ); -- -- Name: blocks; Type: TABLE; Schema: public; Owner: - -- CREATE TABLE public.blocks ( key text NOT NULL, data bytea NOT NULL ); -- -- Name: goose_db_version; Type: TABLE; Schema: public; Owner: - -- CREATE TABLE public.goose_db_version ( id integer NOT NULL, version_id bigint NOT NULL, is_applied boolean NOT NULL, tstamp timestamp without time zone DEFAULT now() ); -- -- Name: goose_db_version_id_seq; Type: SEQUENCE; Schema: public; Owner: - -- CREATE SEQUENCE public.goose_db_version_id_seq AS integer START WITH 1 INCREMENT BY 1 NO MINVALUE NO MAXVALUE CACHE 1; -- -- Name: goose_db_version_id_seq; Type: SEQUENCE OWNED BY; Schema: public; Owner: - -- ALTER SEQUENCE public.goose_db_version_id_seq OWNED BY public.goose_db_version.id; -- -- Name: nodes; Type: TABLE; Schema: public; Owner: - -- CREATE TABLE public.nodes ( client_name character varying, genesis_block character varying(66), network_id character varying, node_id character varying(128) NOT NULL, chain_id integer DEFAULT 1 ); -- -- Name: TABLE nodes; Type: COMMENT; Schema: public; Owner: - -- COMMENT ON TABLE public.nodes IS '@name NodeInfo'; -- -- Name: COLUMN nodes.node_id; Type: COMMENT; Schema: public; Owner: - -- COMMENT ON COLUMN public.nodes.node_id IS '@name ChainNodeID'; -- -- Name: goose_db_version id; Type: DEFAULT; Schema: public; Owner: - -- ALTER TABLE ONLY public.goose_db_version ALTER COLUMN id SET DEFAULT nextval('public.goose_db_version_id_seq'::regclass); -- -- Name: access_list_elements access_list_elements_pkey; Type: CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.access_list_elements ADD CONSTRAINT access_list_elements_pkey PRIMARY KEY (tx_id, index); -- -- Name: header_cids header_cids_pkey; Type: CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.header_cids ADD CONSTRAINT header_cids_pkey PRIMARY KEY (block_hash); -- -- Name: log_cids log_cids_pkey; Type: CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.log_cids ADD CONSTRAINT log_cids_pkey PRIMARY KEY (rct_id, index); -- -- Name: receipt_cids receipt_cids_pkey; Type: CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.receipt_cids ADD CONSTRAINT receipt_cids_pkey PRIMARY KEY (tx_id); -- -- Name: state_accounts state_accounts_pkey; Type: CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.state_accounts ADD CONSTRAINT state_accounts_pkey PRIMARY KEY (header_id, state_path); -- -- Name: state_cids state_cids_pkey; Type: CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.state_cids ADD CONSTRAINT state_cids_pkey PRIMARY KEY (header_id, state_path); -- -- Name: storage_cids storage_cids_pkey; Type: CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.storage_cids ADD CONSTRAINT storage_cids_pkey PRIMARY KEY (header_id, state_path, storage_path); -- -- Name: transaction_cids transaction_cids_pkey; Type: CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.transaction_cids ADD CONSTRAINT transaction_cids_pkey PRIMARY KEY (tx_hash); -- -- Name: uncle_cids uncle_cids_pkey; Type: CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.uncle_cids ADD CONSTRAINT uncle_cids_pkey PRIMARY KEY (block_hash); -- -- Name: blocks blocks_pkey; Type: CONSTRAINT; Schema: public; Owner: - -- ALTER TABLE ONLY public.blocks ADD CONSTRAINT blocks_pkey PRIMARY KEY (key); -- -- Name: goose_db_version goose_db_version_pkey; Type: CONSTRAINT; Schema: public; Owner: - -- ALTER TABLE ONLY public.goose_db_version ADD CONSTRAINT goose_db_version_pkey PRIMARY KEY (id); -- -- Name: nodes nodes_pkey; Type: CONSTRAINT; Schema: public; Owner: - -- ALTER TABLE ONLY public.nodes ADD CONSTRAINT nodes_pkey PRIMARY KEY (node_id); -- -- Name: access_list_element_address_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX access_list_element_address_index ON eth.access_list_elements USING btree (address); -- -- Name: access_list_storage_keys_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX access_list_storage_keys_index ON eth.access_list_elements USING gin (storage_keys); -- -- Name: account_state_path_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX account_state_path_index ON eth.state_accounts USING btree (state_path); -- -- Name: block_number_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX block_number_index ON eth.header_cids USING brin (block_number); -- -- Name: header_cid_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX header_cid_index ON eth.header_cids USING btree (cid); -- -- Name: header_mh_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX header_mh_index ON eth.header_cids USING btree (mh_key); -- -- Name: log_address_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX log_address_index ON eth.log_cids USING btree (address); -- -- Name: log_cid_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX log_cid_index ON eth.log_cids USING btree (leaf_cid); -- -- Name: log_mh_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX log_mh_index ON eth.log_cids USING btree (leaf_mh_key); -- -- Name: log_topic0_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX log_topic0_index ON eth.log_cids USING btree (topic0); -- -- Name: log_topic1_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX log_topic1_index ON eth.log_cids USING btree (topic1); -- -- Name: log_topic2_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX log_topic2_index ON eth.log_cids USING btree (topic2); -- -- Name: log_topic3_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX log_topic3_index ON eth.log_cids USING btree (topic3); -- -- Name: rct_contract_hash_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX rct_contract_hash_index ON eth.receipt_cids USING btree (contract_hash); -- -- Name: rct_contract_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX rct_contract_index ON eth.receipt_cids USING btree (contract); -- -- Name: rct_leaf_cid_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX rct_leaf_cid_index ON eth.receipt_cids USING btree (leaf_cid); -- -- Name: rct_leaf_mh_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX rct_leaf_mh_index ON eth.receipt_cids USING btree (leaf_mh_key); -- -- Name: state_cid_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX state_cid_index ON eth.state_cids USING btree (cid); -- -- Name: state_leaf_key_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX state_leaf_key_index ON eth.state_cids USING btree (state_leaf_key); -- -- Name: state_mh_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX state_mh_index ON eth.state_cids USING btree (mh_key); -- -- Name: state_node_type_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX state_node_type_index ON eth.state_cids USING btree (node_type); -- -- Name: state_path_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX state_path_index ON eth.state_cids USING btree (state_path); -- -- Name: state_root_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX state_root_index ON eth.header_cids USING btree (state_root); -- -- Name: storage_cid_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX storage_cid_index ON eth.storage_cids USING btree (cid); -- -- Name: storage_leaf_key_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX storage_leaf_key_index ON eth.storage_cids USING btree (storage_leaf_key); -- -- Name: storage_mh_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX storage_mh_index ON eth.storage_cids USING btree (mh_key); -- -- Name: storage_node_type_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX storage_node_type_index ON eth.storage_cids USING btree (node_type); -- -- Name: storage_path_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX storage_path_index ON eth.storage_cids USING btree (storage_path); -- -- Name: storage_root_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX storage_root_index ON eth.state_accounts USING btree (storage_root); -- -- Name: storage_state_path_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX storage_state_path_index ON eth.storage_cids USING btree (state_path); -- -- Name: timestamp_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX timestamp_index ON eth.header_cids USING brin ("timestamp"); -- -- Name: tx_cid_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX tx_cid_index ON eth.transaction_cids USING btree (cid); -- -- Name: tx_dst_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX tx_dst_index ON eth.transaction_cids USING btree (dst); -- -- Name: tx_header_id_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX tx_header_id_index ON eth.transaction_cids USING btree (header_id); -- -- Name: tx_mh_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX tx_mh_index ON eth.transaction_cids USING btree (mh_key); -- -- Name: tx_src_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX tx_src_index ON eth.transaction_cids USING btree (src); -- -- Name: uncle_header_id_index; Type: INDEX; Schema: eth; Owner: - -- CREATE INDEX uncle_header_id_index ON eth.uncle_cids USING btree (header_id); -- -- Name: access_list_elements access_list_elements_tx_id_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.access_list_elements ADD CONSTRAINT access_list_elements_tx_id_fkey FOREIGN KEY (tx_id) REFERENCES eth.transaction_cids(tx_hash) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: header_cids header_cids_mh_key_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.header_cids ADD CONSTRAINT header_cids_mh_key_fkey FOREIGN KEY (mh_key) REFERENCES public.blocks(key) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: header_cids header_cids_node_id_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.header_cids ADD CONSTRAINT header_cids_node_id_fkey FOREIGN KEY (node_id) REFERENCES public.nodes(node_id) ON DELETE CASCADE; -- -- Name: log_cids log_cids_leaf_mh_key_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.log_cids ADD CONSTRAINT log_cids_leaf_mh_key_fkey FOREIGN KEY (leaf_mh_key) REFERENCES public.blocks(key) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: log_cids log_cids_rct_id_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.log_cids ADD CONSTRAINT log_cids_rct_id_fkey FOREIGN KEY (rct_id) REFERENCES eth.receipt_cids(tx_id) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: receipt_cids receipt_cids_leaf_mh_key_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.receipt_cids ADD CONSTRAINT receipt_cids_leaf_mh_key_fkey FOREIGN KEY (leaf_mh_key) REFERENCES public.blocks(key) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: receipt_cids receipt_cids_tx_id_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.receipt_cids ADD CONSTRAINT receipt_cids_tx_id_fkey FOREIGN KEY (tx_id) REFERENCES eth.transaction_cids(tx_hash) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: state_accounts state_accounts_header_id_state_path_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.state_accounts ADD CONSTRAINT state_accounts_header_id_state_path_fkey FOREIGN KEY (header_id, state_path) REFERENCES eth.state_cids(header_id, state_path) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: state_cids state_cids_header_id_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.state_cids ADD CONSTRAINT state_cids_header_id_fkey FOREIGN KEY (header_id) REFERENCES eth.header_cids(block_hash) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: state_cids state_cids_mh_key_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.state_cids ADD CONSTRAINT state_cids_mh_key_fkey FOREIGN KEY (mh_key) REFERENCES public.blocks(key) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: storage_cids storage_cids_header_id_state_path_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.storage_cids ADD CONSTRAINT storage_cids_header_id_state_path_fkey FOREIGN KEY (header_id, state_path) REFERENCES eth.state_cids(header_id, state_path) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: storage_cids storage_cids_mh_key_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.storage_cids ADD CONSTRAINT storage_cids_mh_key_fkey FOREIGN KEY (mh_key) REFERENCES public.blocks(key) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: transaction_cids transaction_cids_header_id_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.transaction_cids ADD CONSTRAINT transaction_cids_header_id_fkey FOREIGN KEY (header_id) REFERENCES eth.header_cids(block_hash) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: transaction_cids transaction_cids_mh_key_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.transaction_cids ADD CONSTRAINT transaction_cids_mh_key_fkey FOREIGN KEY (mh_key) REFERENCES public.blocks(key) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: uncle_cids uncle_cids_header_id_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.uncle_cids ADD CONSTRAINT uncle_cids_header_id_fkey FOREIGN KEY (header_id) REFERENCES eth.header_cids(block_hash) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- Name: uncle_cids uncle_cids_mh_key_fkey; Type: FK CONSTRAINT; Schema: eth; Owner: - -- ALTER TABLE ONLY eth.uncle_cids ADD CONSTRAINT uncle_cids_mh_key_fkey FOREIGN KEY (mh_key) REFERENCES public.blocks(key) ON DELETE CASCADE DEFERRABLE INITIALLY DEFERRED; -- -- PostgreSQL database dump complete --