ipld-eth-db/schema.sql
2022-03-19 09:17:48 -04:00

1063 lines
27 KiB
PL/PgSQL

--
-- 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_number bigint NOT NULL,
block_hash character varying(66) NOT NULL,
parent_hash character varying(66) NOT NULL,
cid 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" bigint NOT NULL,
mh_key text NOT NULL,
times_validated integer DEFAULT 1 NOT NULL,
coinbase character varying(66) NOT NULL
);
--
-- 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: graphql_subscription(); Type: FUNCTION; Schema: eth; Owner: -
--
CREATE FUNCTION eth.graphql_subscription() RETURNS trigger
LANGUAGE plpgsql
AS $$
DECLARE
obj jsonb;
BEGIN
IF (TG_TABLE_NAME = 'state_cids') OR (TG_TABLE_NAME = 'state_accounts') THEN
obj := json_build_array(
TG_TABLE_NAME,
NEW.header_id,
NEW.state_path
);
ELSIF (TG_TABLE_NAME = 'storage_cids') THEN
obj := json_build_array(
TG_TABLE_NAME,
NEW.header_id,
NEW.state_path,
NEW.storage_path
);
ELSIF (TG_TABLE_NAME = 'log_cids') THEN
obj := json_build_array(
TG_TABLE_NAME,
NEW.rct_id,
NEW.index
);
ELSIF (TG_TABLE_NAME = 'receipt_cids') THEN
obj := json_build_array(
TG_TABLE_NAME,
NEW.tx_id
);
ELSIF (TG_TABLE_NAME = 'transaction_cids') THEN
obj := json_build_array(
TG_TABLE_NAME,
NEW.tx_hash
);
ELSIF (TG_TABLE_NAME = 'access_list_elements') THEN
obj := json_build_array(
TG_TABLE_NAME,
NEW.tx_id,
NEW.index
);
ELSIF (TG_TABLE_NAME = 'uncle_cids') OR (TG_TABLE_NAME = 'header_cids') THEN
obj := json_build_array(
TG_TABLE_NAME,
NEW.block_hash
);
END IF;
perform pg_notify('postgraphile:' || TG_RELNAME , json_build_object(
'__node__', obj
)::text
);
RETURN NEW;
END;
$$;
--
-- 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_hash(bigint); Type: FUNCTION; Schema: public; Owner: -
--
CREATE FUNCTION public.canonical_header_hash(height bigint) RETURNS character varying
LANGUAGE plpgsql
AS $$
DECLARE
canonical_header eth.header_cids;
headers eth.header_cids[];
header_count INT;
temp_header eth.header_cids;
BEGIN
-- collect all headers at this height
FOR temp_header IN
SELECT * FROM eth.header_cids WHERE block_number = height
LOOP
headers = array_append(headers, temp_header);
END LOOP;
-- count the number of headers collected
header_count = array_length(headers, 1);
-- if we have less than 1 header, return NULL
IF header_count IS NULL OR header_count < 1 THEN
RETURN NULL;
-- if we have one header, return its hash
ELSIF header_count = 1 THEN
RETURN headers[1].block_hash;
-- if we have multiple headers we need to determine which one is canonical
ELSE
canonical_header = canonical_header_from_array(headers);
RETURN canonical_header.block_hash;
END IF;
END;
$$;
--
-- 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 (
leaf_cid text NOT NULL,
leaf_mh_key text NOT NULL,
rct_id character varying(66) NOT NULL,
address character varying(66) NOT NULL,
index integer NOT NULL,
topic0 character varying(66),
topic1 character varying(66),
topic2 character varying(66),
topic3 character varying(66),
log_data bytea
);
--
-- 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,
contract character varying(66),
contract_hash character varying(66),
leaf_mh_key text NOT NULL,
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 bigint 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,
state_path bytea NOT NULL,
node_type integer NOT NULL,
diff boolean DEFAULT false NOT NULL,
mh_key text 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,
storage_path bytea NOT NULL,
node_type integer NOT NULL,
diff boolean DEFAULT false NOT NULL,
mh_key text NOT NULL
);
--
-- Name: transaction_cids; Type: TABLE; Schema: eth; Owner: -
--
CREATE TABLE eth.transaction_cids (
header_id character varying(66) NOT NULL,
tx_hash character varying(66) NOT NULL,
cid text NOT NULL,
dst character varying(66) NOT NULL,
src character varying(66) NOT NULL,
index integer NOT NULL,
mh_key text NOT NULL,
tx_data bytea,
tx_type integer,
value numeric
);
--
-- 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,
reward numeric NOT NULL,
mh_key text NOT NULL
);
--
-- Name: blocks; Type: TABLE; Schema: public; Owner: -
--
CREATE TABLE public.blocks (
key text NOT NULL,
data bytea NOT NULL
);
--
-- Name: db_version; Type: TABLE; Schema: public; Owner: -
--
CREATE TABLE public.db_version (
singleton boolean DEFAULT true NOT NULL,
version text NOT NULL,
tstamp timestamp without time zone DEFAULT now(),
CONSTRAINT db_version_singleton_check CHECK (singleton)
);
--
-- 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 (
genesis_block character varying(66),
network_id character varying,
node_id character varying(128) NOT NULL,
client_name character varying,
chain_id integer DEFAULT 1
);
--
-- Name: known_gaps; Type: TABLE; Schema: public; Owner: -
--
CREATE TABLE eth.known_gaps (
starting_block_number bigint PRIMARY KEY,
ending_block_number bigint,
checked_out boolean,
processing_key INT
);
--
-- 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: db_version db_version_singleton_key; Type: CONSTRAINT; Schema: public; Owner: -
--
ALTER TABLE ONLY public.db_version
ADD CONSTRAINT db_version_singleton_key UNIQUE (singleton);
--
-- 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 UNIQUE INDEX header_cid_index ON eth.header_cids USING btree (cid);
--
-- Name: header_mh_index; Type: INDEX; Schema: eth; Owner: -
--
CREATE UNIQUE 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 UNIQUE 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 UNIQUE 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 trg_eth_access_list_elements; Type: TRIGGER; Schema: eth; Owner: -
--
CREATE TRIGGER trg_eth_access_list_elements AFTER INSERT ON eth.access_list_elements FOR EACH ROW EXECUTE FUNCTION eth.graphql_subscription();
--
-- Name: header_cids trg_eth_header_cids; Type: TRIGGER; Schema: eth; Owner: -
--
CREATE TRIGGER trg_eth_header_cids AFTER INSERT ON eth.header_cids FOR EACH ROW EXECUTE FUNCTION eth.graphql_subscription();
--
-- Name: log_cids trg_eth_log_cids; Type: TRIGGER; Schema: eth; Owner: -
--
CREATE TRIGGER trg_eth_log_cids AFTER INSERT ON eth.log_cids FOR EACH ROW EXECUTE FUNCTION eth.graphql_subscription();
--
-- Name: receipt_cids trg_eth_receipt_cids; Type: TRIGGER; Schema: eth; Owner: -
--
CREATE TRIGGER trg_eth_receipt_cids AFTER INSERT ON eth.receipt_cids FOR EACH ROW EXECUTE FUNCTION eth.graphql_subscription();
--
-- Name: state_accounts trg_eth_state_accounts; Type: TRIGGER; Schema: eth; Owner: -
--
CREATE TRIGGER trg_eth_state_accounts AFTER INSERT ON eth.state_accounts FOR EACH ROW EXECUTE FUNCTION eth.graphql_subscription();
--
-- Name: state_cids trg_eth_state_cids; Type: TRIGGER; Schema: eth; Owner: -
--
CREATE TRIGGER trg_eth_state_cids AFTER INSERT ON eth.state_cids FOR EACH ROW EXECUTE FUNCTION eth.graphql_subscription();
--
-- Name: storage_cids trg_eth_storage_cids; Type: TRIGGER; Schema: eth; Owner: -
--
CREATE TRIGGER trg_eth_storage_cids AFTER INSERT ON eth.storage_cids FOR EACH ROW EXECUTE FUNCTION eth.graphql_subscription();
--
-- Name: transaction_cids trg_eth_transaction_cids; Type: TRIGGER; Schema: eth; Owner: -
--
CREATE TRIGGER trg_eth_transaction_cids AFTER INSERT ON eth.transaction_cids FOR EACH ROW EXECUTE FUNCTION eth.graphql_subscription();
--
-- Name: uncle_cids trg_eth_uncle_cids; Type: TRIGGER; Schema: eth; Owner: -
--
CREATE TRIGGER trg_eth_uncle_cids AFTER INSERT ON eth.uncle_cids FOR EACH ROW EXECUTE FUNCTION eth.graphql_subscription();
--
-- 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
--