/*
This file is part of TALER
Copyright (C) 2014--2022 Taler Systems SA
TALER is free software; you can redistribute it and/or modify it under the
terms of the GNU General Public License as published by the Free Software
Foundation; either version 3, or (at your option) any later version.
TALER is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with
TALER; see the file COPYING. If not, see
*/
/**
* @file plugin_exchangedb_postgres.c
* @brief Low-level (statement-level) Postgres database access for the exchange
* @author Florian Dold
* @author Christian Grothoff
* @author Sree Harsha Totakura
* @author Marcello Stanisci
*/
#include "platform.h"
#include "taler_error_codes.h"
#include "taler_dbevents.h"
#include "taler_pq_lib.h"
#include "taler_util.h"
#include "taler_json_lib.h"
#include "taler_exchangedb_plugin.h"
#include "plugin_exchangedb_common.h"
#include "pg_delete_aggregation_transient.h"
#include "pg_get_link_data.h"
#include "pg_helper.h"
#include "pg_do_reserve_open.h"
#include "pg_do_withdraw.h"
#include "pg_get_coin_transactions.h"
#include "pg_get_expired_reserves.h"
#include "pg_get_purse_request.h"
#include "pg_get_reserve_history.h"
#include "pg_get_unfinished_close_requests.h"
#include "pg_insert_close_request.h"
#include "pg_insert_records_by_table.h"
#include "pg_insert_reserve_open_deposit.h"
#include "pg_iterate_kyc_reference.h"
#include "pg_iterate_reserve_close_info.h"
#include "pg_lookup_records_by_table.h"
#include "pg_lookup_serial_by_table.h"
#include "pg_select_account_merges_above_serial_id.h"
#include "pg_select_all_purse_decisions_above_serial_id.h"
#include "pg_select_purse.h"
#include "pg_select_purse_deposits_above_serial_id.h"
#include "pg_select_purse_merges_above_serial_id.h"
#include "pg_select_purse_requests_above_serial_id.h"
#include "pg_select_reserve_close_info.h"
#include "pg_select_reserve_closed_above_serial_id.h"
#include "pg_select_reserve_open_above_serial_id.h"
#include
#include
#include
/**WHAT I ADD**/
#include "pg_insert_purse_request.h"
#include "pg_iterate_active_signkeys.h"
#include "pg_preflight.h"
#include "pg_commit.h"
#include "pg_create_shard_tables.h"
#include "pg_insert_aggregation_tracking.h"
#include "pg_drop_tables.h"
#include "pg_setup_partitions.h"
#include "pg_select_satisfied_kyc_processes.h"
#include "pg_select_aggregation_amounts_for_kyc_check.h"
#include "pg_kyc_provider_account_lookup.h"
#include "pg_lookup_kyc_requirement_by_row.h"
#include "pg_insert_kyc_requirement_for_account.h"
#include "pg_lookup_kyc_process_by_account.h"
#include "pg_update_kyc_process_by_row.h"
#include "pg_insert_kyc_requirement_process.h"
#include "pg_select_withdraw_amounts_for_kyc_check.h"
#include "pg_select_merge_amounts_for_kyc_check.h"
#include "pg_profit_drains_set_finished.h"
#include "pg_profit_drains_get_pending.h"
#include "pg_get_drain_profit.h"
#include "pg_get_purse_deposit.h"
#include "pg_insert_contract.h"
#include "pg_select_contract.h"
#include "pg_select_purse_merge.h"
#include "pg_select_contract_by_purse.h"
#include "pg_insert_drain_profit.h"
#include "pg_do_reserve_purse.h"
#include "pg_lookup_global_fee_by_time.h"
#include "pg_do_purse_deposit.h"
#include "pg_activate_signing_key.h"
#include "pg_update_auditor.h"
#include "pg_begin_revolving_shard.h"
#include "pg_get_extension_manifest.h"
#include "pg_insert_history_request.h"
#include "pg_do_purse_merge.h"
#include "pg_start_read_committed.h"
#include "pg_start_read_only.h"
#include "pg_insert_denomination_info.h"
#include "pg_do_batch_withdraw_insert.h"
#include "pg_lookup_wire_fee_by_time.h"
#include "pg_start.h"
#include "pg_rollback.h"
/**
* Set to 1 to enable Postgres auto_explain module. This will
* slow down things a _lot_, but also provide extensive logging
* in the Postgres database logger for performance analysis.
*/
#define AUTO_EXPLAIN 1
/**
* Log a really unexpected PQ error with all the details we can get hold of.
*
* @param result PQ result object of the PQ operation that failed
* @param conn SQL connection that was used
*/
#define BREAK_DB_ERR(result,conn) do { \
GNUNET_break (0); \
GNUNET_log (GNUNET_ERROR_TYPE_ERROR, \
"Database failure: %s/%s/%s/%s/%s", \
PQresultErrorField (result, PG_DIAG_MESSAGE_PRIMARY), \
PQresultErrorField (result, PG_DIAG_MESSAGE_DETAIL), \
PQresultErrorMessage (result), \
PQresStatus (PQresultStatus (result)), \
PQerrorMessage (conn)); \
} while (0)
/**
* Create the necessary tables if they are not present
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @return #GNUNET_OK upon success; #GNUNET_SYSERR upon failure
*/
static enum GNUNET_GenericReturnValue
postgres_create_tables (void *cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_Context *conn;
enum GNUNET_GenericReturnValue ret;
conn = GNUNET_PQ_connect_with_cfg (pg->cfg,
"exchangedb-postgres",
"exchange-",
NULL,
NULL);
if (NULL == conn)
return GNUNET_SYSERR;
ret = GNUNET_PQ_exec_sql (conn,
"procedures");
GNUNET_PQ_disconnect (conn);
return ret;
}
/**
* Setup foreign servers (shards) for already existing tables
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param num the number of foreign servers (shards) to create for each partitioned table
* @return #GNUNET_OK upon success; #GNUNET_SYSERR upon failure
*/
static enum GNUNET_GenericReturnValue
postgres_setup_foreign_servers (void *cls,
uint32_t num)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_Context *conn;
enum GNUNET_GenericReturnValue ret = GNUNET_OK;
char *shard_domain = NULL;
char *remote_user = NULL;
char *remote_user_pw = NULL;
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_string (pg->cfg,
"exchange",
"SHARD_DOMAIN",
&shard_domain))
{
GNUNET_log_config_missing (GNUNET_ERROR_TYPE_ERROR,
"exchange",
"SHARD_DOMAIN");
return GNUNET_SYSERR;
}
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_string (pg->cfg,
"exchangedb-postgres",
"SHARD_REMOTE_USER",
&remote_user))
{
GNUNET_log_config_missing (GNUNET_ERROR_TYPE_ERROR,
"exchangedb-postgres",
"SHARD_REMOTE_USER");
GNUNET_free (shard_domain);
return GNUNET_SYSERR;
}
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_string (pg->cfg,
"exchangedb-postgres",
"SHARD_REMOTE_USER_PW",
&remote_user_pw))
{
GNUNET_log_config_missing (GNUNET_ERROR_TYPE_ERROR,
"exchangedb-postgres",
"SHARD_REMOTE_USER_PW");
GNUNET_free (shard_domain);
GNUNET_free (remote_user);
return GNUNET_SYSERR;
}
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint32 (&num),
GNUNET_PQ_query_param_string (shard_domain),
GNUNET_PQ_query_param_string (remote_user),
GNUNET_PQ_query_param_string (remote_user_pw),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ExecuteStatement es[] = {
GNUNET_PQ_make_try_execute ("SET search_path TO exchange;"),
GNUNET_PQ_EXECUTE_STATEMENT_END
};
struct GNUNET_PQ_PreparedStatement ps[] = {
GNUNET_PQ_make_prepare ("create_foreign_servers",
"SELECT"
" create_foreign_servers"
" ($1, $2, $3, $4);"),
GNUNET_PQ_PREPARED_STATEMENT_END
};
conn = GNUNET_PQ_connect_with_cfg (pg->cfg,
"exchangedb-postgres",
NULL,
es,
ps);
if (NULL == conn)
{
ret = GNUNET_SYSERR;
}
else if (0 > GNUNET_PQ_eval_prepared_non_select (conn,
"create_foreign_servers",
params))
{
ret = GNUNET_SYSERR;
}
GNUNET_free (shard_domain);
GNUNET_free (remote_user);
GNUNET_free (remote_user_pw);
GNUNET_PQ_disconnect (conn);
return ret;
}
/**
* Initialize prepared statements for @a pg.
*
* @param[in,out] pg connection to initialize
* @return #GNUNET_OK on success
*/
enum GNUNET_GenericReturnValue
prepare_statements (struct PostgresClosure *pg)
{
enum GNUNET_GenericReturnValue ret;
struct GNUNET_PQ_PreparedStatement ps[] = {
/* Used in #postgres_insert_denomination_info() and
#postgres_add_denomination_key() */
GNUNET_PQ_make_prepare (
"denomination_insert",
"INSERT INTO denominations "
"(denom_pub_hash"
",denom_pub"
",master_sig"
",valid_from"
",expire_withdraw"
",expire_deposit"
",expire_legal"
",coin_val" /* value of this denom */
",coin_frac" /* fractional value of this denom */
",fee_withdraw_val"
",fee_withdraw_frac"
",fee_deposit_val"
",fee_deposit_frac"
",fee_refresh_val"
",fee_refresh_frac"
",fee_refund_val"
",fee_refund_frac"
",age_mask"
") VALUES "
"($1, $2, $3, $4, $5, $6, $7, $8, $9, $10,"
" $11, $12, $13, $14, $15, $16, $17, $18);"),
/* Used in #postgres_iterate_denomination_info() */
GNUNET_PQ_make_prepare (
"denomination_iterate",
"SELECT"
" master_sig"
",denom_pub_hash"
",valid_from"
",expire_withdraw"
",expire_deposit"
",expire_legal"
",coin_val" /* value of this denom */
",coin_frac" /* fractional value of this denom */
",fee_withdraw_val"
",fee_withdraw_frac"
",fee_deposit_val"
",fee_deposit_frac"
",fee_refresh_val"
",fee_refresh_frac"
",fee_refund_val"
",fee_refund_frac"
",denom_pub"
",age_mask"
" FROM denominations;"),
/* Used in #postgres_iterate_denominations() */
GNUNET_PQ_make_prepare (
"select_denominations",
"SELECT"
" denominations.master_sig"
",denom_revocations_serial_id IS NOT NULL AS revoked"
",valid_from"
",expire_withdraw"
",expire_deposit"
",expire_legal"
",coin_val" /* value of this denom */
",coin_frac" /* fractional value of this denom */
",fee_withdraw_val"
",fee_withdraw_frac"
",fee_deposit_val"
",fee_deposit_frac"
",fee_refresh_val"
",fee_refresh_frac"
",fee_refund_val"
",fee_refund_frac"
",denom_type"
",age_mask"
",denom_pub"
" FROM denominations"
" LEFT JOIN "
" denomination_revocations USING (denominations_serial);"),
/* Used in #postgres_iterate_auditor_denominations() */
GNUNET_PQ_make_prepare (
"select_auditor_denoms",
"SELECT"
" auditors.auditor_pub"
",denominations.denom_pub_hash"
",auditor_denom_sigs.auditor_sig"
" FROM auditor_denom_sigs"
" JOIN auditors USING (auditor_uuid)"
" JOIN denominations USING (denominations_serial)"
" WHERE auditors.is_active;"),
/* Used in #postgres_iterate_active_auditors() */
GNUNET_PQ_make_prepare (
"select_auditors",
"SELECT"
" auditor_pub"
",auditor_url"
",auditor_name"
" FROM auditors"
" WHERE"
" is_active;"),
/* Used in #postgres_get_denomination_info() */
GNUNET_PQ_make_prepare (
"denomination_get",
"SELECT"
" master_sig"
",valid_from"
",expire_withdraw"
",expire_deposit"
",expire_legal"
",coin_val" /* value of this denom */
",coin_frac" /* fractional value of this denom */
",fee_withdraw_val"
",fee_withdraw_frac"
",fee_deposit_val"
",fee_deposit_frac"
",fee_refresh_val"
",fee_refresh_frac"
",fee_refund_val"
",fee_refund_frac"
",age_mask"
" FROM denominations"
" WHERE denom_pub_hash=$1;"),
/* Used in #postgres_insert_denomination_revocation() */
GNUNET_PQ_make_prepare (
"denomination_revocation_insert",
"INSERT INTO denomination_revocations "
"(denominations_serial"
",master_sig"
") SELECT denominations_serial,$2"
" FROM denominations"
" WHERE denom_pub_hash=$1;"),
/* Used in #postgres_get_denomination_revocation() */
GNUNET_PQ_make_prepare (
"denomination_revocation_get",
"SELECT"
" master_sig"
",denom_revocations_serial_id"
" FROM denomination_revocations"
" WHERE denominations_serial="
" (SELECT denominations_serial"
" FROM denominations"
" WHERE denom_pub_hash=$1);"),
/* Used in #postgres_reserves_get_origin() */
GNUNET_PQ_make_prepare (
"get_h_wire_source_of_reserve",
"SELECT"
" wire_source_h_payto"
" FROM reserves_in"
" WHERE reserve_pub=$1"),
GNUNET_PQ_make_prepare (
"get_kyc_h_payto",
"SELECT"
" wire_target_h_payto"
" FROM wire_targets"
" WHERE wire_target_h_payto=$1"
" LIMIT 1;"),
/* Used in #postgres_insert_partner() */
GNUNET_PQ_make_prepare (
"insert_partner",
"INSERT INTO partners"
" (partner_master_pub"
" ,start_date"
" ,end_date"
" ,wad_frequency"
" ,wad_fee_val"
" ,wad_fee_frac"
" ,master_sig"
" ,partner_base_url"
" ) VALUES "
" ($1, $2, $3, $4, $5, $6, $7, $8);"),
/* Used in #setup_wire_target() */
GNUNET_PQ_make_prepare (
"insert_kyc_status",
"INSERT INTO wire_targets"
" (wire_target_h_payto"
" ,payto_uri"
" ) VALUES "
" ($1, $2)"
" ON CONFLICT DO NOTHING"),
/* Used in #postgres_drain_kyc_alert() */
GNUNET_PQ_make_prepare (
"drain_kyc_alert",
"DELETE FROM kyc_alerts"
" WHERE trigger_type=$1"
" AND h_payto = "
" (SELECT h_payto "
" FROM kyc_alerts"
" WHERE trigger_type=$1"
" LIMIT 1)"
" RETURNING h_payto;"),
/* Used in #postgres_reserves_get() */
GNUNET_PQ_make_prepare (
"reserves_get",
"SELECT"
" current_balance_val"
",current_balance_frac"
",expiration_date"
",gc_date"
" FROM reserves"
" WHERE reserve_pub=$1"
" LIMIT 1;"),
GNUNET_PQ_make_prepare (
"reserve_create",
"INSERT INTO reserves "
"(reserve_pub"
",current_balance_val"
",current_balance_frac"
",expiration_date"
",gc_date"
") VALUES "
"($1, $2, $3, $4, $5)"
" ON CONFLICT DO NOTHING"
" RETURNING reserve_uuid;"),
/* Used in #postgres_insert_reserve_closed() */
GNUNET_PQ_make_prepare (
"reserves_close_insert",
"INSERT INTO reserves_close "
"(reserve_pub"
",execution_date"
",wtid"
",wire_target_h_payto"
",amount_val"
",amount_frac"
",closing_fee_val"
",closing_fee_frac"
",close_request_row"
") VALUES ($1, $2, $3, $4, $5, $6, $7, $8, $9);"),
/* Used in #postgres_reserves_update() when the reserve is updated */
GNUNET_PQ_make_prepare (
"reserve_update",
"UPDATE reserves"
" SET"
" expiration_date=$1"
",gc_date=$2"
",current_balance_val=$3"
",current_balance_frac=$4"
" WHERE reserve_pub=$5;"),
/* Used in #postgres_reserves_in_insert() to store transaction details */
GNUNET_PQ_make_prepare (
"reserves_in_add_transaction",
"INSERT INTO reserves_in "
"(reserve_pub"
",wire_reference"
",credit_val"
",credit_frac"
",exchange_account_section"
",wire_source_h_payto"
",execution_date"
") VALUES ($1, $2, $3, $4, $5, $6, $7)"
" ON CONFLICT DO NOTHING;"),
/* Used in postgres_select_reserves_in_above_serial_id() to obtain inbound
transactions for reserves with serial id '\geq' the given parameter */
GNUNET_PQ_make_prepare (
"audit_reserves_in_get_transactions_incr",
"SELECT"
" reserves.reserve_pub"
",wire_reference"
",credit_val"
",credit_frac"
",execution_date"
",payto_uri AS sender_account_details"
",reserve_in_serial_id"
" FROM reserves_in"
" JOIN reserves"
" USING (reserve_pub)"
" JOIN wire_targets"
" ON (wire_source_h_payto = wire_target_h_payto)"
" WHERE reserve_in_serial_id>=$1"
" ORDER BY reserve_in_serial_id;"),
/* Used in postgres_select_reserves_in_above_serial_id() to obtain inbound
transactions for reserves with serial id '\geq' the given parameter */
GNUNET_PQ_make_prepare (
"audit_reserves_in_get_transactions_incr_by_account",
"SELECT"
" reserves.reserve_pub"
",wire_reference"
",credit_val"
",credit_frac"
",execution_date"
",payto_uri AS sender_account_details"
",reserve_in_serial_id"
" FROM reserves_in"
" JOIN reserves "
" USING (reserve_pub)"
" JOIN wire_targets"
" ON (wire_source_h_payto = wire_target_h_payto)"
" WHERE reserve_in_serial_id>=$1 AND exchange_account_section=$2"
" ORDER BY reserve_in_serial_id;"),
/* Used in #postgres_do_batch_withdraw() to
update the reserve balance and check its status */
GNUNET_PQ_make_prepare (
"call_batch_withdraw",
"SELECT "
" reserve_found"
",balance_ok"
",ruuid"
" FROM exchange_do_batch_withdraw"
" ($1,$2,$3,$4,$5);"),
/* Used in #postgres_do_deposit() to execute a deposit,
checking the coin's balance in the process as needed. */
GNUNET_PQ_make_prepare (
"call_deposit",
"SELECT "
" out_exchange_timestamp AS exchange_timestamp"
",out_balance_ok AS balance_ok"
",out_conflict AS conflicted"
" FROM exchange_do_deposit"
" ($1,$2,$3,$4,$5,$6,$7,$8,$9,$10,$11,$12,$13,$14,$15,$16,$17);"),
/* Used in #postgres_update_aggregation_transient() */
GNUNET_PQ_make_prepare (
"set_purse_balance",
"UPDATE purse_requests"
" SET balance_val=$2"
" ,balance_frac=$3"
" WHERE purse_pub=$1;"),
/* used in #postgres_expire_purse() */
GNUNET_PQ_make_prepare (
"call_expire_purse",
"SELECT "
" out_found AS found"
" FROM exchange_do_expire_purse"
" ($1,$2,$3);"),
/* Used in #postgres_do_melt() to melt a coin. */
GNUNET_PQ_make_prepare (
"call_melt",
"SELECT "
" out_balance_ok AS balance_ok"
",out_zombie_bad AS zombie_required"
",out_noreveal_index AS noreveal_index"
" FROM exchange_do_melt"
" ($1,$2,$3,$4,$5,$6,$7,$8,$9);"),
/* Used in #postgres_do_refund() to refund a deposit. */
GNUNET_PQ_make_prepare (
"call_refund",
"SELECT "
" out_not_found AS not_found"
",out_refund_ok AS refund_ok"
",out_gone AS gone"
",out_conflict AS conflict"
" FROM exchange_do_refund"
" ($1,$2,$3,$4,$5,$6,$7,$8,$9,$10,$11,$12,$13);"),
/* Used in #postgres_do_recoup() to recoup a coin to a reserve. */
GNUNET_PQ_make_prepare (
"call_recoup",
"SELECT "
" out_recoup_timestamp AS recoup_timestamp"
",out_recoup_ok AS recoup_ok"
",out_internal_failure AS internal_failure"
" FROM exchange_do_recoup_to_reserve"
" ($1,$2,$3,$4,$5,$6,$7,$8,$9);"),
/* Used in #postgres_do_recoup_refresh() to recoup a coin to a zombie coin. */
GNUNET_PQ_make_prepare (
"call_recoup_refresh",
"SELECT "
" out_recoup_timestamp AS recoup_timestamp"
",out_recoup_ok AS recoup_ok"
",out_internal_failure AS internal_failure"
" FROM exchange_do_recoup_to_coin"
" ($1,$2,$3,$4,$5,$6,$7);"),
/* Used in #postgres_get_withdraw_info() to
locate the response for a /reserve/withdraw request
using the hash of the blinded message. Used to
make sure /reserve/withdraw requests are idempotent. */
GNUNET_PQ_make_prepare (
"get_withdraw_info",
"SELECT"
" denom.denom_pub_hash"
",denom_sig"
",reserve_sig"
",reserves.reserve_pub"
",execution_date"
",h_blind_ev"
",amount_with_fee_val"
",amount_with_fee_frac"
",denom.fee_withdraw_val"
",denom.fee_withdraw_frac"
" FROM reserves_out"
" JOIN reserves"
" USING (reserve_uuid)"
" JOIN denominations denom"
" USING (denominations_serial)"
" WHERE h_blind_ev=$1;"),
/* Used in #postgres_select_withdrawals_above_serial_id() */
GNUNET_PQ_make_prepare (
"get_reserve_balance",
"SELECT"
" current_balance_val"
",current_balance_frac"
" FROM reserves"
" WHERE reserve_pub=$1;"),
/* Fetch deposits with rowid '\geq' the given parameter */
GNUNET_PQ_make_prepare (
"audit_get_reserves_out_incr",
"SELECT"
" h_blind_ev"
",denom.denom_pub"
",reserve_sig"
",reserves.reserve_pub"
",execution_date"
",amount_with_fee_val"
",amount_with_fee_frac"
",reserve_out_serial_id"
" FROM reserves_out"
" JOIN reserves"
" USING (reserve_uuid)"
" JOIN denominations denom"
" USING (denominations_serial)"
" WHERE reserve_out_serial_id>=$1"
" ORDER BY reserve_out_serial_id ASC;"),
/* Used in #postgres_count_known_coins() */
GNUNET_PQ_make_prepare (
"count_known_coins",
"SELECT"
" COUNT(*) AS count"
" FROM known_coins"
" WHERE denominations_serial="
" (SELECT denominations_serial"
" FROM denominations"
" WHERE denom_pub_hash=$1);"),
/* Used in #postgres_get_known_coin() to fetch
the denomination public key and signature for
a coin known to the exchange. */
GNUNET_PQ_make_prepare (
"get_known_coin",
"SELECT"
" denominations.denom_pub_hash"
",age_commitment_hash"
",denom_sig"
" FROM known_coins"
" JOIN denominations USING (denominations_serial)"
" WHERE coin_pub=$1;"),
/* Used in #postgres_ensure_coin_known() */
GNUNET_PQ_make_prepare (
"get_known_coin_dh",
"SELECT"
" denominations.denom_pub_hash"
" FROM known_coins"
" JOIN denominations USING (denominations_serial)"
" WHERE coin_pub=$1;"),
/* Used in #postgres_get_coin_denomination() to fetch
the denomination public key hash for
a coin known to the exchange. */
GNUNET_PQ_make_prepare (
"get_coin_denomination",
"SELECT"
" denominations.denom_pub_hash"
",known_coin_id"
" FROM known_coins"
" JOIN denominations USING (denominations_serial)"
" WHERE coin_pub=$1"
" FOR SHARE;"),
/* Used in #postgres_insert_known_coin() to store the denomination public
key and signature for a coin known to the exchange.
See also:
https://stackoverflow.com/questions/34708509/how-to-use-returning-with-on-conflict-in-postgresql/37543015#37543015
*/
GNUNET_PQ_make_prepare (
"insert_known_coin",
"WITH dd"
" (denominations_serial"
" ,coin_val"
" ,coin_frac"
" ) AS ("
" SELECT "
" denominations_serial"
" ,coin_val"
" ,coin_frac"
" FROM denominations"
" WHERE denom_pub_hash=$2"
" ), input_rows"
" (coin_pub) AS ("
" VALUES ($1::BYTEA)"
" ), ins AS ("
" INSERT INTO known_coins "
" (coin_pub"
" ,denominations_serial"
" ,age_commitment_hash"
" ,denom_sig"
" ,remaining_val"
" ,remaining_frac"
" ) SELECT "
" $1"
" ,denominations_serial"
" ,$3"
" ,$4"
" ,coin_val"
" ,coin_frac"
" FROM dd"
" ON CONFLICT DO NOTHING" /* CONFLICT on (coin_pub) */
" RETURNING "
" known_coin_id"
" ) "
"SELECT "
" FALSE AS existed"
" ,known_coin_id"
" ,NULL AS denom_pub_hash"
" ,NULL AS age_commitment_hash"
" FROM ins "
"UNION ALL "
"SELECT "
" TRUE AS existed"
" ,known_coin_id"
" ,denom_pub_hash"
" ,kc.age_commitment_hash"
" FROM input_rows"
" JOIN known_coins kc USING (coin_pub)"
" JOIN denominations USING (denominations_serial)"
" LIMIT 1"),
/* Used in #postgres_get_melt() to fetch
high-level information about a melt operation */
GNUNET_PQ_make_prepare (
"get_melt",
/* "SELECT"
" denoms.denom_pub_hash"
",denoms.fee_refresh_val"
",denoms.fee_refresh_frac"
",old_coin_pub"
",old_coin_sig"
",kc.age_commitment_hash"
",amount_with_fee_val"
",amount_with_fee_frac"
",noreveal_index"
",melt_serial_id"
" FROM refresh_commitments"
" JOIN known_coins kc"
" ON (old_coin_pub = kc.coin_pub)"
" JOIN denominations denoms"
" ON (kc.denominations_serial = denoms.denominations_serial)"
" WHERE rc=$1;", */
"WITH rc AS MATERIALIZED ( "
" SELECT"
" * FROM refresh_commitments"
" WHERE rc=$1"
")"
"SELECT"
" denoms.denom_pub_hash"
",denoms.fee_refresh_val"
",denoms.fee_refresh_frac"
",rc.old_coin_pub"
",rc.old_coin_sig"
",kc.age_commitment_hash"
",amount_with_fee_val"
",amount_with_fee_frac"
",noreveal_index"
",melt_serial_id "
"FROM ("
" SELECT"
" * "
" FROM known_coins"
" WHERE coin_pub=(SELECT old_coin_pub from rc)"
") kc "
"JOIN rc"
" ON (kc.coin_pub=rc.old_coin_pub) "
"JOIN denominations denoms"
" USING (denominations_serial);"),
/* Used in #postgres_select_refreshes_above_serial_id() to fetch
refresh session with id '\geq' the given parameter */
GNUNET_PQ_make_prepare (
"audit_get_refresh_commitments_incr",
"SELECT"
" denom.denom_pub"
",kc.coin_pub AS old_coin_pub"
",kc.age_commitment_hash"
",old_coin_sig"
",amount_with_fee_val"
",amount_with_fee_frac"
",noreveal_index"
",melt_serial_id"
",rc"
" FROM refresh_commitments"
" JOIN known_coins kc"
" ON (refresh_commitments.old_coin_pub = kc.coin_pub)"
" JOIN denominations denom"
" ON (kc.denominations_serial = denom.denominations_serial)"
" WHERE melt_serial_id>=$1"
" ORDER BY melt_serial_id ASC;"),
/* Store information about the desired denominations for a
refresh operation, used in #postgres_insert_refresh_reveal() */
GNUNET_PQ_make_prepare (
"insert_refresh_revealed_coin",
"INSERT INTO refresh_revealed_coins "
"(melt_serial_id "
",freshcoin_index "
",link_sig "
",denominations_serial "
",coin_ev"
",ewv"
",h_coin_ev"
",ev_sig"
") SELECT $1, $2, $3, "
" denominations_serial, $5, $6, $7, $8"
" FROM denominations"
" WHERE denom_pub_hash=$4"
" ON CONFLICT DO NOTHING;"),
/* Obtain information about the coins created in a refresh
operation, used in #postgres_get_refresh_reveal() */
GNUNET_PQ_make_prepare (
"get_refresh_revealed_coins",
"SELECT "
" rrc.freshcoin_index"
",denom.denom_pub_hash"
",rrc.h_coin_ev"
",rrc.link_sig"
",rrc.coin_ev"
",rrc.ewv"
",rrc.ev_sig"
" FROM refresh_commitments"
" JOIN refresh_revealed_coins rrc"
" USING (melt_serial_id)"
" JOIN denominations denom "
" USING (denominations_serial)"
" WHERE rc=$1;"),
/* Used in #postgres_insert_refresh_reveal() to store the transfer
keys we learned */
GNUNET_PQ_make_prepare (
"insert_refresh_transfer_keys",
"INSERT INTO refresh_transfer_keys "
"(melt_serial_id"
",transfer_pub"
",transfer_privs"
") VALUES ($1, $2, $3)"
" ON CONFLICT DO NOTHING;"),
/* Used in #postgres_insert_refund() to store refund information */
GNUNET_PQ_make_prepare (
"insert_refund",
"INSERT INTO refunds "
"(coin_pub "
",deposit_serial_id"
",merchant_sig "
",rtransaction_id "
",amount_with_fee_val "
",amount_with_fee_frac "
") SELECT $1, deposit_serial_id, $3, $5, $6, $7"
" FROM deposits"
" WHERE coin_pub=$1"
" AND h_contract_terms=$4"
" AND merchant_pub=$2"),
/* Query the 'refunds' by coin public key */
/* Query the 'refunds' by coin public key, merchant_pub and contract hash */
GNUNET_PQ_make_prepare (
"get_refunds_by_coin_and_contract",
"SELECT"
" ref.amount_with_fee_val"
",ref.amount_with_fee_frac"
" FROM refunds ref"
" JOIN deposits dep"
" USING (coin_pub,deposit_serial_id)"
" WHERE ref.coin_pub=$1"
" AND dep.merchant_pub=$2"
" AND dep.h_contract_terms=$3;"),
/* Fetch refunds with rowid '\geq' the given parameter */
GNUNET_PQ_make_prepare (
"audit_get_refunds_incr",
"SELECT"
" dep.merchant_pub"
",ref.merchant_sig"
",dep.h_contract_terms"
",ref.rtransaction_id"
",denom.denom_pub"
",kc.coin_pub"
",ref.amount_with_fee_val"
",ref.amount_with_fee_frac"
",ref.refund_serial_id"
" FROM refunds ref"
" JOIN deposits dep"
" ON (ref.coin_pub=dep.coin_pub AND ref.deposit_serial_id=dep.deposit_serial_id)"
" JOIN known_coins kc"
" ON (dep.coin_pub=kc.coin_pub)"
" JOIN denominations denom"
" ON (kc.denominations_serial=denom.denominations_serial)"
" WHERE ref.refund_serial_id>=$1"
" ORDER BY ref.refund_serial_id ASC;"),
GNUNET_PQ_make_prepare (
"test_refund_full",
"SELECT"
" CAST(SUM(CAST(ref.amount_with_fee_frac AS INT8)) AS INT8) AS s_f"
",CAST(SUM(ref.amount_with_fee_val) AS INT8) AS s_v"
",dep.amount_with_fee_val"
",dep.amount_with_fee_frac"
" FROM refunds ref"
" JOIN deposits dep"
" ON (ref.coin_pub=dep.coin_pub AND ref.deposit_serial_id=dep.deposit_serial_id)"
" WHERE ref.refund_serial_id=$1"
" GROUP BY (dep.amount_with_fee_val, dep.amount_with_fee_frac);"),
/* Store information about a /deposit the exchange is to execute.
Used in #postgres_insert_deposit(). Only used in test cases. */
GNUNET_PQ_make_prepare (
"insert_deposit",
"INSERT INTO deposits "
"(known_coin_id"
",coin_pub"
",amount_with_fee_val"
",amount_with_fee_frac"
",wallet_timestamp"
",refund_deadline"
",wire_deadline"
",merchant_pub"
",h_contract_terms"
",wire_salt"
",wire_target_h_payto"
",coin_sig"
",exchange_timestamp"
",shard"
") SELECT known_coin_id, $1, $2, $3, $4, $5, $6, "
" $7, $8, $9, $10, $11, $12, $13"
" FROM known_coins"
" WHERE coin_pub=$1"
" ON CONFLICT DO NOTHING;"),
/* Fetch an existing deposit request, used to ensure idempotency
during /deposit processing. Used in #postgres_have_deposit(). */
GNUNET_PQ_make_prepare (
"get_deposit",
"SELECT"
" dep.amount_with_fee_val"
",dep.amount_with_fee_frac"
",denominations.fee_deposit_val"
",denominations.fee_deposit_frac"
",dep.wallet_timestamp"
",dep.exchange_timestamp"
",dep.refund_deadline"
",dep.wire_deadline"
",dep.h_contract_terms"
",dep.wire_salt"
",wt.payto_uri AS receiver_wire_account"
" FROM deposits dep"
" JOIN known_coins kc ON (kc.coin_pub = dep.coin_pub)"
" JOIN denominations USING (denominations_serial)"
" JOIN wire_targets wt USING (wire_target_h_payto)"
" WHERE dep.coin_pub=$1"
" AND dep.merchant_pub=$3"
" AND dep.h_contract_terms=$2;"),
/* Fetch deposits with rowid '\geq' the given parameter */
GNUNET_PQ_make_prepare (
"audit_get_deposits_incr",
"SELECT"
" amount_with_fee_val"
",amount_with_fee_frac"
",wallet_timestamp"
",exchange_timestamp"
",merchant_pub"
",denom.denom_pub"
",kc.coin_pub"
",kc.age_commitment_hash"
",coin_sig"
",refund_deadline"
",wire_deadline"
",h_contract_terms"
",wire_salt"
",payto_uri AS receiver_wire_account"
",done"
",deposit_serial_id"
" FROM deposits"
" JOIN wire_targets USING (wire_target_h_payto)"
" JOIN known_coins kc USING (coin_pub)"
" JOIN denominations denom USING (denominations_serial)"
" WHERE ("
" (deposit_serial_id>=$1)"
" )"
" ORDER BY deposit_serial_id ASC;"),
GNUNET_PQ_make_prepare (
"audit_get_history_requests_incr",
"SELECT"
" history_request_serial_id"
",history_fee_val"
",history_fee_frac"
",request_timestamp"
",reserve_pub"
",reserve_sig"
" FROM history_requests"
" WHERE ("
" (history_request_serial_id>=$1)"
" )"
" ORDER BY history_request_serial_id ASC;"),
GNUNET_PQ_make_prepare (
"audit_get_purse_deposits_by_purse",
"SELECT"
" pd.purse_deposit_serial_id"
",pd.amount_with_fee_val"
",pd.amount_with_fee_frac"
",pd.coin_pub"
",denom.denom_pub"
" FROM purse_deposits pd"
" JOIN known_coins kc USING (coin_pub)"
" JOIN denominations denom USING (denominations_serial)"
" WHERE purse_pub=$1;"),
GNUNET_PQ_make_prepare (
"audit_get_purse_decisions_incr",
"SELECT"
" pd.purse_pub"
",pm.reserve_pub"
",pd.purse_decision_serial_id"
",pr.amount_with_fee_val"
",pr.amount_with_fee_frac"
" FROM purse_decision pd"
" JOIN purse_requests pr ON (pd.purse_pub = pr.purse_pub)"
" LEFT JOIN purse_merges pm ON (pm.purse_pub = pd.purse_pub)"
" WHERE ("
" (purse_decision_serial_id>=$1) AND "
" (refunded=$2)"
" )"
" ORDER BY purse_decision_serial_id ASC;"),
/* Fetch an existing deposit request.
Used in #postgres_lookup_transfer_by_deposit(). */
GNUNET_PQ_make_prepare (
"get_deposit_without_wtid",
"SELECT"
" agt.legitimization_requirement_serial_id"
",dep.wire_salt"
",wt.payto_uri"
",dep.amount_with_fee_val"
",dep.amount_with_fee_frac"
",denom.fee_deposit_val"
",denom.fee_deposit_frac"
",dep.wire_deadline"
" FROM deposits dep"
" JOIN wire_targets wt"
" USING (wire_target_h_payto)"
" JOIN known_coins kc"
" ON (kc.coin_pub = dep.coin_pub)"
" JOIN denominations denom"
" USING (denominations_serial)"
" LEFT JOIN aggregation_transient agt "
" ON ( (dep.wire_target_h_payto = agt.wire_target_h_payto) AND"
" (dep.merchant_pub = agt.merchant_pub) )"
" WHERE dep.coin_pub=$1"
" AND dep.merchant_pub=$3"
" AND dep.h_contract_terms=$2"
" LIMIT 1;"),
/* Used in #postgres_get_ready_deposit() */
GNUNET_PQ_make_prepare (
"deposits_get_ready",
"SELECT"
" payto_uri"
",merchant_pub"
" FROM deposits_by_ready dbr"
" JOIN deposits dep"
" ON (dbr.coin_pub = dep.coin_pub AND"
" dbr.deposit_serial_id = dep.deposit_serial_id)"
" JOIN wire_targets wt"
" USING (wire_target_h_payto)"
" WHERE dbr.wire_deadline<=$1"
" AND dbr.shard >= $2"
" AND dbr.shard <= $3"
" ORDER BY "
" dbr.wire_deadline ASC"
" ,dbr.shard ASC"
" LIMIT 1;"),
/* Used in #postgres_aggregate() */
GNUNET_PQ_make_prepare (
"aggregate",
"WITH rdy AS (" /* find deposits ready by merchant */
" SELECT"
" coin_pub"
" FROM deposits_for_matching"
" WHERE refund_deadline<$1" /* filter by shard, only actually executable deposits */
" AND merchant_pub=$2" /* filter by target merchant */
" ORDER BY refund_deadline ASC" /* ordering is not critical */
" LIMIT "
TALER_QUOTE (TALER_EXCHANGEDB_MATCHING_DEPOSITS_LIMIT) /* limits transaction size */
" )"
" ,dep AS (" /* restrict to our merchant and account and mark as done */
" UPDATE deposits"
" SET done=TRUE"
" WHERE coin_pub IN (SELECT coin_pub FROM rdy)"
" AND merchant_pub=$2" /* theoretically, same coin could be spent at another merchant */
" AND wire_target_h_payto=$3" /* merchant could have a 2nd bank account */
" AND done=FALSE" /* theoretically, same coin could be spend at the same merchant a 2nd time */
" RETURNING"
" deposit_serial_id"
" ,coin_pub"
" ,amount_with_fee_val AS amount_val"
" ,amount_with_fee_frac AS amount_frac)"
" ,ref AS (" /* find applicable refunds -- NOTE: may do a full join on the master, maybe find a left-join way to integrate with query above to push it to the shards? */
" SELECT"
" amount_with_fee_val AS refund_val"
" ,amount_with_fee_frac AS refund_frac"
" ,coin_pub"
" ,deposit_serial_id" /* theoretically, coin could be in multiple refunded transactions */
" FROM refunds"
" WHERE coin_pub IN (SELECT coin_pub FROM dep)"
" AND deposit_serial_id IN (SELECT deposit_serial_id FROM dep))"
" ,ref_by_coin AS (" /* total up refunds by coin */
" SELECT"
" SUM(refund_val) AS sum_refund_val"
" ,SUM(refund_frac) AS sum_refund_frac"
" ,coin_pub"
" ,deposit_serial_id" /* theoretically, coin could be in multiple refunded transactions */
" FROM ref"
" GROUP BY coin_pub, deposit_serial_id)"
" ,norm_ref_by_coin AS (" /* normalize */
" SELECT"
" sum_refund_val + sum_refund_frac / 100000000 AS norm_refund_val"
" ,sum_refund_frac % 100000000 AS norm_refund_frac"
" ,coin_pub"
" ,deposit_serial_id" /* theoretically, coin could be in multiple refunded transactions */
" FROM ref_by_coin)"
" ,fully_refunded_coins AS (" /* find applicable refunds -- NOTE: may do a full join on the master, maybe find a left-join way to integrate with query above to push it to the shards? */
" SELECT"
" dep.coin_pub"
" FROM norm_ref_by_coin norm"
" JOIN dep"
" ON (norm.coin_pub = dep.coin_pub"
" AND norm.deposit_serial_id = dep.deposit_Serial_id"
" AND norm.norm_refund_val = dep.amount_val"
" AND norm.norm_refund_frac = dep.amount_frac))"
" ,fees AS (" /* find deposit fees for not fully refunded deposits */
" SELECT"
" denom.fee_deposit_val AS fee_val"
" ,denom.fee_deposit_frac AS fee_frac"
" ,cs.deposit_serial_id" /* ensures we get the fee for each coin, not once per denomination */
" FROM dep cs"
" JOIN known_coins kc" /* NOTE: may do a full join on the master, maybe find a left-join way to integrate with query above to push it to the shards? */
" USING (coin_pub)"
" JOIN denominations denom"
" USING (denominations_serial)"
" WHERE coin_pub NOT IN (SELECT coin_pub FROM fully_refunded_coins))"
" ,dummy AS (" /* add deposits to aggregation_tracking */
" INSERT INTO aggregation_tracking"
" (deposit_serial_id"
" ,wtid_raw)"
" SELECT deposit_serial_id,$4"
" FROM dep)"
"SELECT" /* calculate totals (deposits, refunds and fees) */
" CAST(COALESCE(SUM(dep.amount_val),0) AS INT8) AS sum_deposit_value" /* cast needed, otherwise we get NUMBER */
" ,COALESCE(SUM(dep.amount_frac),0) AS sum_deposit_fraction" /* SUM over INT returns INT8 */
" ,CAST(COALESCE(SUM(ref.refund_val),0) AS INT8) AS sum_refund_value"
" ,COALESCE(SUM(ref.refund_frac),0) AS sum_refund_fraction"
" ,CAST(COALESCE(SUM(fees.fee_val),0) AS INT8) AS sum_fee_value"
" ,COALESCE(SUM(fees.fee_frac),0) AS sum_fee_fraction"
" FROM dep "
" FULL OUTER JOIN ref ON (FALSE)" /* We just want all sums */
" FULL OUTER JOIN fees ON (FALSE);"),
/* Used in #postgres_create_aggregation_transient() */
GNUNET_PQ_make_prepare (
"create_aggregation_transient",
"INSERT INTO aggregation_transient"
" (amount_val"
" ,amount_frac"
" ,merchant_pub"
" ,wire_target_h_payto"
" ,legitimization_requirement_serial_id"
" ,exchange_account_section"
" ,wtid_raw)"
" VALUES ($1, $2, $3, $4, $5, $6, $7);"),
/* Used in #postgres_select_aggregation_transient() */
GNUNET_PQ_make_prepare (
"select_aggregation_transient",
"SELECT"
" amount_val"
" ,amount_frac"
" ,wtid_raw"
" FROM aggregation_transient"
" WHERE wire_target_h_payto=$1"
" AND merchant_pub=$2"
" AND exchange_account_section=$3;"),
/* Used in #postgres_find_aggregation_transient() */
GNUNET_PQ_make_prepare (
"find_transient_aggregations",
"SELECT"
" amount_val"
" ,amount_frac"
" ,wtid_raw"
" ,merchant_pub"
" ,payto_uri"
" FROM aggregation_transient atr"
" JOIN wire_targets wt USING (wire_target_h_payto)"
" WHERE atr.wire_target_h_payto=$1;"),
/* Used in #postgres_update_aggregation_transient() */
GNUNET_PQ_make_prepare (
"update_aggregation_transient",
"UPDATE aggregation_transient"
" SET amount_val=$1"
" ,amount_frac=$2"
" ,legitimization_requirement_serial_id=$5"
" WHERE wire_target_h_payto=$3"
" AND wtid_raw=$4"),
/* Used in #postgres_lookup_wire_transfer */
GNUNET_PQ_make_prepare (
"lookup_transactions",
"SELECT"
" aggregation_serial_id"
",deposits.h_contract_terms"
",payto_uri"
",wire_targets.wire_target_h_payto"
",kc.coin_pub"
",deposits.merchant_pub"
",wire_out.execution_date"
",deposits.amount_with_fee_val"
",deposits.amount_with_fee_frac"
",denom.fee_deposit_val"
",denom.fee_deposit_frac"
",denom.denom_pub"
" FROM aggregation_tracking"
" JOIN deposits"
" USING (deposit_serial_id)"
" JOIN wire_targets"
" USING (wire_target_h_payto)"
" JOIN known_coins kc"
" USING (coin_pub)"
" JOIN denominations denom"
" USING (denominations_serial)"
" JOIN wire_out"
" USING (wtid_raw)"
" WHERE wtid_raw=$1;"),
/* Used in #postgres_lookup_transfer_by_deposit */
GNUNET_PQ_make_prepare (
"lookup_deposit_wtid",
"SELECT"
" aggregation_tracking.wtid_raw"
",wire_out.execution_date"
",dep.amount_with_fee_val"
",dep.amount_with_fee_frac"
",dep.wire_salt"
",wt.payto_uri"
",denom.fee_deposit_val"
",denom.fee_deposit_frac"
" FROM deposits dep"
" JOIN wire_targets wt"
" USING (wire_target_h_payto)"
" JOIN aggregation_tracking"
" USING (deposit_serial_id)"
" JOIN known_coins kc"
" ON (kc.coin_pub = dep.coin_pub)"
" JOIN denominations denom"
" USING (denominations_serial)"
" JOIN wire_out"
" USING (wtid_raw)"
" WHERE dep.coin_pub=$1"
" AND dep.merchant_pub=$3"
" AND dep.h_contract_terms=$2"),
/* Used in #postgres_get_wire_fee() */
GNUNET_PQ_make_prepare (
"get_wire_fee",
"SELECT "
" start_date"
",end_date"
",wire_fee_val"
",wire_fee_frac"
",closing_fee_val"
",closing_fee_frac"
",master_sig"
" FROM wire_fee"
" WHERE wire_method=$1"
" AND start_date <= $2"
" AND end_date > $2;"),
/* Used in #postgres_get_global_fee() */
GNUNET_PQ_make_prepare (
"get_global_fee",
"SELECT "
" start_date"
",end_date"
",history_fee_val"
",history_fee_frac"
",account_fee_val"
",account_fee_frac"
",purse_fee_val"
",purse_fee_frac"
",purse_timeout"
",history_expiration"
",purse_account_limit"
",master_sig"
" FROM global_fee"
" WHERE start_date <= $1"
" AND end_date > $1;"),
/* Used in #postgres_get_global_fees() */
GNUNET_PQ_make_prepare (
"get_global_fees",
"SELECT "
" start_date"
",end_date"
",history_fee_val"
",history_fee_frac"
",account_fee_val"
",account_fee_frac"
",purse_fee_val"
",purse_fee_frac"
",purse_timeout"
",history_expiration"
",purse_account_limit"
",master_sig"
" FROM global_fee"
" WHERE start_date >= $1"),
/* Used in #postgres_insert_wire_fee */
GNUNET_PQ_make_prepare (
"insert_wire_fee",
"INSERT INTO wire_fee "
"(wire_method"
",start_date"
",end_date"
",wire_fee_val"
",wire_fee_frac"
",closing_fee_val"
",closing_fee_frac"
",master_sig"
") VALUES "
"($1, $2, $3, $4, $5, $6, $7, $8);"),
/* Used in #postgres_insert_global_fee */
GNUNET_PQ_make_prepare (
"insert_global_fee",
"INSERT INTO global_fee "
"(start_date"
",end_date"
",history_fee_val"
",history_fee_frac"
",account_fee_val"
",account_fee_frac"
",purse_fee_val"
",purse_fee_frac"
",purse_timeout"
",history_expiration"
",purse_account_limit"
",master_sig"
") VALUES "
"($1, $2, $3, $4, $5, $6, $7, $8, $9, $10, $11, $12);"),
/* Used in #postgres_store_wire_transfer_out */
GNUNET_PQ_make_prepare (
"insert_wire_out",
"INSERT INTO wire_out "
"(execution_date"
",wtid_raw"
",wire_target_h_payto"
",exchange_account_section"
",amount_val"
",amount_frac"
") VALUES "
"($1, $2, $3, $4, $5, $6);"),
/* Used in #postgres_wire_prepare_data_insert() to store
wire transfer information before actually committing it with the bank */
GNUNET_PQ_make_prepare (
"wire_prepare_data_insert",
"INSERT INTO prewire "
"(wire_method"
",buf"
") VALUES "
"($1, $2);"),
/* Used in #postgres_wire_prepare_data_mark_finished() */
GNUNET_PQ_make_prepare (
"wire_prepare_data_mark_done",
"UPDATE prewire"
" SET finished=TRUE"
" WHERE prewire_uuid=$1;"),
/* Used in #postgres_wire_prepare_data_mark_failed() */
GNUNET_PQ_make_prepare (
"wire_prepare_data_mark_failed",
"UPDATE prewire"
" SET failed=TRUE"
" WHERE prewire_uuid=$1;"),
/* Used in #postgres_wire_prepare_data_get() */
GNUNET_PQ_make_prepare (
"wire_prepare_data_get",
"SELECT"
" prewire_uuid"
",wire_method"
",buf"
" FROM prewire"
" WHERE prewire_uuid >= $1"
" AND finished=FALSE"
" AND failed=FALSE"
" ORDER BY prewire_uuid ASC"
" LIMIT $2;"),
/* Used in #postgres_select_deposits_missing_wire */
// FIXME: used by the auditor; can probably be done
// smarter by checking if 'done' or 'blocked'
// are set correctly when going over deposits, instead
// of JOINing with refunds.
GNUNET_PQ_make_prepare (
"deposits_get_overdue",
"SELECT"
" deposit_serial_id"
",coin_pub"
",amount_with_fee_val"
",amount_with_fee_frac"
",payto_uri"
",wire_deadline"
",done"
" FROM deposits d"
" JOIN known_coins"
" USING (coin_pub)"
" JOIN wire_targets"
" USING (wire_target_h_payto)"
" WHERE wire_deadline >= $1"
" AND wire_deadline < $2"
" AND NOT (EXISTS (SELECT 1"
" FROM refunds r"
" WHERE (r.coin_pub = d.coin_pub) AND (r.deposit_serial_id = d.deposit_serial_id))"
" OR EXISTS (SELECT 1"
" FROM aggregation_tracking"
" WHERE (aggregation_tracking.deposit_serial_id = d.deposit_serial_id)))"
" ORDER BY wire_deadline ASC"),
/* Used in #postgres_select_wire_out_above_serial_id() */
GNUNET_PQ_make_prepare (
"audit_get_wire_incr",
"SELECT"
" wireout_uuid"
",execution_date"
",wtid_raw"
",payto_uri"
",amount_val"
",amount_frac"
" FROM wire_out"
" JOIN wire_targets"
" USING (wire_target_h_payto)"
" WHERE wireout_uuid>=$1"
" ORDER BY wireout_uuid ASC;"),
/* Used in #postgres_select_wire_out_above_serial_id_by_account() */
GNUNET_PQ_make_prepare (
"audit_get_wire_incr_by_account",
"SELECT"
" wireout_uuid"
",execution_date"
",wtid_raw"
",payto_uri"
",amount_val"
",amount_frac"
" FROM wire_out"
" JOIN wire_targets"
" USING (wire_target_h_payto)"
" WHERE "
" wireout_uuid>=$1 "
" AND exchange_account_section=$2"
" ORDER BY wireout_uuid ASC;"),
/* Used in #postgres_select_recoup_above_serial_id() to obtain recoup transactions */
GNUNET_PQ_make_prepare (
"recoup_get_incr",
"SELECT"
" recoup_uuid"
",recoup_timestamp"
",reserves.reserve_pub"
",coins.coin_pub"
",coin_sig"
",coin_blind"
",ro.h_blind_ev"
",denoms.denom_pub_hash"
",coins.denom_sig"
",coins.age_commitment_hash"
",denoms.denom_pub"
",amount_val"
",amount_frac"
" FROM recoup"
" JOIN known_coins coins"
" USING (coin_pub)"
" JOIN reserves_out ro"
" USING (reserve_out_serial_id)"
" JOIN reserves"
" USING (reserve_uuid)"
" JOIN denominations denoms"
" ON (coins.denominations_serial = denoms.denominations_serial)"
" WHERE recoup_uuid>=$1"
" ORDER BY recoup_uuid ASC;"),
/* Used in #postgres_select_recoup_refresh_above_serial_id() to obtain
recoup-refresh transactions */
GNUNET_PQ_make_prepare (
"recoup_refresh_get_incr",
"SELECT"
" recoup_refresh_uuid"
",recoup_timestamp"
",old_coins.coin_pub AS old_coin_pub"
",new_coins.age_commitment_hash"
",old_denoms.denom_pub_hash AS old_denom_pub_hash"
",new_coins.coin_pub As coin_pub"
",coin_sig"
",coin_blind"
",new_denoms.denom_pub AS denom_pub"
",rrc.h_coin_ev AS h_blind_ev"
",new_denoms.denom_pub_hash"
",new_coins.denom_sig AS denom_sig"
",amount_val"
",amount_frac"
" FROM recoup_refresh"
" INNER JOIN refresh_revealed_coins rrc"
" USING (rrc_serial)"
" INNER JOIN refresh_commitments rfc"
" ON (rrc.melt_serial_id = rfc.melt_serial_id)"
" INNER JOIN known_coins old_coins"
" ON (rfc.old_coin_pub = old_coins.coin_pub)"
" INNER JOIN known_coins new_coins"
" ON (new_coins.coin_pub = recoup_refresh.coin_pub)"
" INNER JOIN denominations new_denoms"
" ON (new_coins.denominations_serial = new_denoms.denominations_serial)"
" INNER JOIN denominations old_denoms"
" ON (old_coins.denominations_serial = old_denoms.denominations_serial)"
" WHERE recoup_refresh_uuid>=$1"
" ORDER BY recoup_refresh_uuid ASC;"),
/* Used in #postgres_get_reserve_by_h_blind() */
GNUNET_PQ_make_prepare (
"reserve_by_h_blind",
"SELECT"
" reserves.reserve_pub"
",reserve_out_serial_id"
" FROM reserves_out"
" JOIN reserves"
" USING (reserve_uuid)"
" WHERE h_blind_ev=$1"
" LIMIT 1;"),
/* Used in #postgres_get_old_coin_by_h_blind() */
GNUNET_PQ_make_prepare (
"old_coin_by_h_blind",
"SELECT"
" okc.coin_pub AS old_coin_pub"
",rrc_serial"
" FROM refresh_revealed_coins rrc"
" JOIN refresh_commitments rcom USING (melt_serial_id)"
" JOIN known_coins okc ON (rcom.old_coin_pub = okc.coin_pub)"
" WHERE h_coin_ev=$1"
" LIMIT 1;"),
/* Used in #postgres_lookup_auditor_timestamp() */
GNUNET_PQ_make_prepare (
"lookup_auditor_timestamp",
"SELECT"
" last_change"
" FROM auditors"
" WHERE auditor_pub=$1;"),
/* Used in #postgres_lookup_auditor_status() */
GNUNET_PQ_make_prepare (
"lookup_auditor_status",
"SELECT"
" auditor_url"
",is_active"
" FROM auditors"
" WHERE auditor_pub=$1;"),
/* Used in #postgres_lookup_wire_timestamp() */
GNUNET_PQ_make_prepare (
"lookup_wire_timestamp",
"SELECT"
" last_change"
" FROM wire_accounts"
" WHERE payto_uri=$1;"),
/* used in #postgres_insert_auditor() */
GNUNET_PQ_make_prepare (
"insert_auditor",
"INSERT INTO auditors "
"(auditor_pub"
",auditor_name"
",auditor_url"
",is_active"
",last_change"
") VALUES "
"($1, $2, $3, true, $4);"),
/* used in #postgres_insert_wire() */
GNUNET_PQ_make_prepare (
"insert_wire",
"INSERT INTO wire_accounts "
"(payto_uri"
",master_sig"
",is_active"
",last_change"
") VALUES "
"($1, $2, true, $3);"),
/* used in #postgres_update_wire() */
GNUNET_PQ_make_prepare (
"update_wire",
"UPDATE wire_accounts"
" SET"
" is_active=$2"
" ,last_change=$3"
" WHERE payto_uri=$1"),
/* used in #postgres_update_wire() */
GNUNET_PQ_make_prepare (
"get_wire_accounts",
"SELECT"
" payto_uri"
",master_sig"
" FROM wire_accounts"
" WHERE is_active"),
/* used in #postgres_update_wire() */
GNUNET_PQ_make_prepare (
"get_wire_fees",
"SELECT"
" wire_fee_val"
",wire_fee_frac"
",closing_fee_val"
",closing_fee_frac"
",start_date"
",end_date"
",master_sig"
" FROM wire_fee"
" WHERE wire_method=$1"),
/* used in #postgres_insert_signkey_revocation() */
GNUNET_PQ_make_prepare (
"insert_signkey_revocation",
"INSERT INTO signkey_revocations "
"(esk_serial"
",master_sig"
") SELECT esk_serial, $2 "
" FROM exchange_sign_keys"
" WHERE exchange_pub=$1;"),
/* used in #postgres_insert_signkey_revocation() */
GNUNET_PQ_make_prepare (
"lookup_signkey_revocation",
"SELECT "
" master_sig"
" FROM signkey_revocations"
" WHERE esk_serial="
" (SELECT esk_serial"
" FROM exchange_sign_keys"
" WHERE exchange_pub=$1);"),
/* used in #postgres_lookup_signing_key() */
GNUNET_PQ_make_prepare (
"lookup_signing_key",
"SELECT"
" valid_from"
",expire_sign"
",expire_legal"
" FROM exchange_sign_keys"
" WHERE exchange_pub=$1"),
/* used in #postgres_lookup_denomination_key() */
GNUNET_PQ_make_prepare (
"lookup_denomination_key",
"SELECT"
" valid_from"
",expire_withdraw"
",expire_deposit"
",expire_legal"
",coin_val"
",coin_frac"
",fee_withdraw_val"
",fee_withdraw_frac"
",fee_deposit_val"
",fee_deposit_frac"
",fee_refresh_val"
",fee_refresh_frac"
",fee_refund_val"
",fee_refund_frac"
",age_mask"
" FROM denominations"
" WHERE denom_pub_hash=$1;"),
/* used in #postgres_insert_auditor_denom_sig() */
GNUNET_PQ_make_prepare (
"insert_auditor_denom_sig",
"WITH ax AS"
" (SELECT auditor_uuid"
" FROM auditors"
" WHERE auditor_pub=$1)"
"INSERT INTO auditor_denom_sigs "
"(auditor_uuid"
",denominations_serial"
",auditor_sig"
") SELECT ax.auditor_uuid, denominations_serial, $3 "
" FROM denominations"
" CROSS JOIN ax"
" WHERE denom_pub_hash=$2;"),
/* used in #postgres_select_auditor_denom_sig() */
GNUNET_PQ_make_prepare (
"select_auditor_denom_sig",
"SELECT"
" auditor_sig"
" FROM auditor_denom_sigs"
" WHERE auditor_uuid="
" (SELECT auditor_uuid"
" FROM auditors"
" WHERE auditor_pub=$1)"
" AND denominations_serial="
" (SELECT denominations_serial"
" FROM denominations"
" WHERE denom_pub_hash=$2);"),
/* Used in #postgres_begin_shard() */
GNUNET_PQ_make_prepare (
"get_open_shard",
"SELECT"
" start_row"
",end_row"
" FROM work_shards"
" WHERE job_name=$1"
" AND completed=FALSE"
" AND last_attempt<$2"
" ORDER BY last_attempt ASC"
" LIMIT 1;"),
/* Used in #postgres_begin_shard() */
GNUNET_PQ_make_prepare (
"reclaim_shard",
"UPDATE work_shards"
" SET last_attempt=$2"
" WHERE job_name=$1"
" AND start_row=$3"
" AND end_row=$4"),
/* Used in #postgres_begin_shard() */
GNUNET_PQ_make_prepare (
"get_last_shard",
"SELECT"
" end_row"
" FROM work_shards"
" WHERE job_name=$1"
" ORDER BY end_row DESC"
" LIMIT 1;"),
/* Used in #postgres_abort_shard() */
GNUNET_PQ_make_prepare (
"abort_shard",
"UPDATE work_shards"
" SET last_attempt=0"
" WHERE job_name = $1 "
" AND start_row = $2 "
" AND end_row = $3;"),
/* Used in #postgres_begin_shard() */
GNUNET_PQ_make_prepare (
"claim_next_shard",
"INSERT INTO work_shards"
"(job_name"
",last_attempt"
",start_row"
",end_row"
") VALUES "
"($1, $2, $3, $4);"),
/* Used in #postgres_complete_shard() */
GNUNET_PQ_make_prepare (
"complete_shard",
"UPDATE work_shards"
" SET completed=TRUE"
" WHERE job_name=$1"
" AND start_row=$2"
" AND end_row=$3"),
/* Used in #postgres_complete_shard() */
GNUNET_PQ_make_prepare (
"release_revolving_shard",
"UPDATE revolving_work_shards"
" SET active=FALSE"
" WHERE job_name=$1"
" AND start_row=$2"
" AND end_row=$3"),
/* Used in #postgres_set_extension_manifest */
GNUNET_PQ_make_prepare (
"set_extension_manifest",
"INSERT INTO extensions (name, manifest) VALUES ($1, $2) "
"ON CONFLICT (name) "
"DO UPDATE SET manifest=$2"),
/* Used in #postgres_select_purse_by_merge_pub */
GNUNET_PQ_make_prepare (
"select_purse_by_merge_pub",
"SELECT "
" purse_pub"
",purse_expiration"
",h_contract_terms"
",age_limit"
",amount_with_fee_val"
",amount_with_fee_frac"
",balance_val"
",balance_frac"
",purse_sig"
" FROM purse_requests"
" WHERE merge_pub=$1;"),
/* Used in #postgres_do_account_merge() */
GNUNET_PQ_make_prepare (
"call_account_merge",
"SELECT 1"
" FROM exchange_do_account_merge"
" ($1, $2, $3);"),
/* Used in #postgres_update_kyc_requirement_by_row() */
GNUNET_PQ_make_prepare (
"update_legitimization_process",
"UPDATE legitimization_processes"
" SET provider_user_id=$4"
" ,provider_legitimization_id=$5"
" ,expiration_time=GREATEST(expiration_time,$6)"
" WHERE"
" h_payto=$3"
" AND legitimization_process_serial_id=$1"
" AND provider_section=$2;"),
GNUNET_PQ_PREPARED_STATEMENT_END
};
ret = GNUNET_PQ_prepare_statements (pg->conn,
ps);
if (GNUNET_OK != ret)
return ret;
pg->init = true;
return GNUNET_OK;
}
/**
* Connect to the database if the connection does not exist yet.
*
* @param pg the plugin-specific state
* @param skip_prepare true if we should skip prepared statement setup
* @return #GNUNET_OK on success
*/
enum GNUNET_GenericReturnValue
TEH_PG_internal_setup (struct PostgresClosure *pg,
bool skip_prepare)
{
if (NULL == pg->conn)
{
#if AUTO_EXPLAIN
/* Enable verbose logging to see where queries do not
properly use indices */
struct GNUNET_PQ_ExecuteStatement es[] = {
GNUNET_PQ_make_try_execute ("LOAD 'auto_explain';"),
GNUNET_PQ_make_try_execute ("SET auto_explain.log_min_duration=50;"),
GNUNET_PQ_make_try_execute ("SET auto_explain.log_timing=TRUE;"),
GNUNET_PQ_make_try_execute ("SET auto_explain.log_analyze=TRUE;"),
/* https://wiki.postgresql.org/wiki/Serializable suggests to really
force the default to 'serializable' if SSI is to be used. */
GNUNET_PQ_make_try_execute (
"SET SESSION CHARACTERISTICS AS TRANSACTION ISOLATION LEVEL SERIALIZABLE;"),
GNUNET_PQ_make_try_execute ("SET enable_sort=OFF;"),
GNUNET_PQ_make_try_execute ("SET enable_seqscan=OFF;"),
GNUNET_PQ_make_try_execute ("SET search_path TO exchange;"),
GNUNET_PQ_EXECUTE_STATEMENT_END
};
#else
struct GNUNET_PQ_ExecuteStatement es[] = {
GNUNET_PQ_make_try_execute (
"SET SESSION CHARACTERISTICS AS TRANSACTION ISOLATION LEVEL SERIALIZABLE;"),
GNUNET_PQ_make_try_execute ("SET enable_sort=OFF;"),
GNUNET_PQ_make_try_execute ("SET enable_seqscan=OFF;"),
GNUNET_PQ_make_try_execute ("SET autocommit=OFF;"),
GNUNET_PQ_make_try_execute ("SET search_path TO exchange;"),
GNUNET_PQ_EXECUTE_STATEMENT_END
};
#endif
struct GNUNET_PQ_Context *db_conn;
db_conn = GNUNET_PQ_connect_with_cfg (pg->cfg,
"exchangedb-postgres",
NULL,
es,
NULL);
if (NULL == db_conn)
return GNUNET_SYSERR;
pg->prep_gen++;
pg->conn = db_conn;
}
if (NULL == pg->transaction_name)
GNUNET_PQ_reconnect_if_down (pg->conn);
if (pg->init)
return GNUNET_OK;
if (skip_prepare)
return GNUNET_OK;
return prepare_statements (pg);
}
/**
* Register callback to be invoked on events of type @a es.
*
* @param cls database context to use
* @param timeout how long until to generate a timeout event
* @param es specification of the event to listen for
* @param cb function to call when the event happens, possibly
* multiple times (until cancel is invoked)
* @param cb_cls closure for @a cb
* @return handle useful to cancel the listener
*/
static struct GNUNET_DB_EventHandler *
postgres_event_listen (void *cls,
struct GNUNET_TIME_Relative timeout,
const struct GNUNET_DB_EventHeaderP *es,
GNUNET_DB_EventCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
return GNUNET_PQ_event_listen (pg->conn,
es,
timeout,
cb,
cb_cls);
}
/**
* Stop notifications.
*
* @param cls the plugin's `struct PostgresClosure`
* @param eh handle to unregister.
*/
static void
postgres_event_listen_cancel (void *cls,
struct GNUNET_DB_EventHandler *eh)
{
(void) cls;
GNUNET_PQ_event_listen_cancel (eh);
}
/**
* Notify all that listen on @a es of an event.
*
* @param cls database context to use
* @param es specification of the event to generate
* @param extra additional event data provided
* @param extra_size number of bytes in @a extra
*/
static void
postgres_event_notify (void *cls,
const struct GNUNET_DB_EventHeaderP *es,
const void *extra,
size_t extra_size)
{
struct PostgresClosure *pg = cls;
GNUNET_PQ_event_notify (pg->conn,
es,
extra,
extra_size);
}
/**
* Fetch information about a denomination key.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param denom_pub_hash hash of the public key used for signing coins of this denomination
* @param[out] issue set to issue information with value, fees and other info about the coin
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_get_denomination_info (
void *cls,
const struct TALER_DenominationHashP *denom_pub_hash,
struct TALER_EXCHANGEDB_DenominationKeyInformation *issue)
{
struct PostgresClosure *pg = cls;
enum GNUNET_DB_QueryStatus qs;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (denom_pub_hash),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("master_sig",
&issue->signature),
GNUNET_PQ_result_spec_timestamp ("valid_from",
&issue->start),
GNUNET_PQ_result_spec_timestamp ("expire_withdraw",
&issue->expire_withdraw),
GNUNET_PQ_result_spec_timestamp ("expire_deposit",
&issue->expire_deposit),
GNUNET_PQ_result_spec_timestamp ("expire_legal",
&issue->expire_legal),
TALER_PQ_RESULT_SPEC_AMOUNT ("coin",
&issue->value),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_withdraw",
&issue->fees.withdraw),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_deposit",
&issue->fees.deposit),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_refresh",
&issue->fees.refresh),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_refund",
&issue->fees.refund),
GNUNET_PQ_result_spec_uint32 ("age_mask",
&issue->age_mask.bits),
GNUNET_PQ_result_spec_end
};
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"denomination_get",
params,
rs);
if (GNUNET_DB_STATUS_SUCCESS_ONE_RESULT != qs)
return qs;
issue->denom_hash = *denom_pub_hash;
return qs;
}
/**
* Closure for #domination_cb_helper()
*/
struct DenomIteratorContext
{
/**
* Function to call with the results.
*/
TALER_EXCHANGEDB_DenominationCallback cb;
/**
* Closure to pass to @e cb
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
};
/**
* Helper function for #postgres_iterate_denomination_info().
* Calls the callback with each denomination key.
*
* @param cls a `struct DenomIteratorContext`
* @param result db results
* @param num_results number of results in @a result
*/
static void
domination_cb_helper (void *cls,
PGresult *result,
unsigned int num_results)
{
struct DenomIteratorContext *dic = cls;
struct PostgresClosure *pg = dic->pg;
for (unsigned int i = 0; icb (dic->cb_cls,
&denom_pub,
&issue);
}
TALER_denom_pub_free (&denom_pub);
}
}
/**
* Fetch information about all known denomination keys.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param cb function to call on each denomination key
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_iterate_denomination_info (void *cls,
TALER_EXCHANGEDB_DenominationCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_end
};
struct DenomIteratorContext dic = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg
};
return GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"denomination_iterate",
params,
&domination_cb_helper,
&dic);
}
/**
* Closure for #dominations_cb_helper()
*/
struct DenomsIteratorContext
{
/**
* Function to call with the results.
*/
TALER_EXCHANGEDB_DenominationsCallback cb;
/**
* Closure to pass to @e cb
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
};
/**
* Helper function for #postgres_iterate_denominations().
* Calls the callback with each denomination key.
*
* @param cls a `struct DenomsIteratorContext`
* @param result db results
* @param num_results number of results in @a result
*/
static void
dominations_cb_helper (void *cls,
PGresult *result,
unsigned int num_results)
{
struct DenomsIteratorContext *dic = cls;
struct PostgresClosure *pg = dic->pg;
for (unsigned int i = 0; icb (dic->cb_cls,
&denom_pub,
&h_denom_pub,
&meta,
&master_sig,
revoked);
GNUNET_PQ_cleanup_result (rs);
}
}
/**
* Function called to invoke @a cb on every known denomination key (revoked
* and non-revoked) that has been signed by the master key. Runs in its own
* read-only transaction.
*
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param cb function to call on each denomination key
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_iterate_denominations (void *cls,
TALER_EXCHANGEDB_DenominationsCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_end
};
struct DenomsIteratorContext dic = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg
};
return GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"select_denominations",
params,
&dominations_cb_helper,
&dic);
}
/**
* Closure for #auditors_cb_helper()
*/
struct AuditorsIteratorContext
{
/**
* Function to call with the results.
*/
TALER_EXCHANGEDB_AuditorsCallback cb;
/**
* Closure to pass to @e cb
*/
void *cb_cls;
};
/**
* Helper function for #postgres_iterate_active_auditors().
* Calls the callback with each auditor.
*
* @param cls a `struct SignkeysIteratorContext`
* @param result db results
* @param num_results number of results in @a result
*/
static void
auditors_cb_helper (void *cls,
PGresult *result,
unsigned int num_results)
{
struct AuditorsIteratorContext *dic = cls;
for (unsigned int i = 0; icb (dic->cb_cls,
&auditor_pub,
auditor_url,
auditor_name);
GNUNET_PQ_cleanup_result (rs);
}
}
/**
* Function called to invoke @a cb on every active auditor. Disabled
* auditors are skipped. Runs in its own read-only transaction.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param cb function to call on each active auditor
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_iterate_active_auditors (void *cls,
TALER_EXCHANGEDB_AuditorsCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_end
};
struct AuditorsIteratorContext dic = {
.cb = cb,
.cb_cls = cb_cls,
};
return GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"select_auditors",
params,
&auditors_cb_helper,
&dic);
}
/**
* Closure for #auditor_denoms_cb_helper()
*/
struct AuditorDenomsIteratorContext
{
/**
* Function to call with the results.
*/
TALER_EXCHANGEDB_AuditorDenominationsCallback cb;
/**
* Closure to pass to @e cb
*/
void *cb_cls;
};
/**
* Helper function for #postgres_iterate_auditor_denominations().
* Calls the callback with each auditor and denomination pair.
*
* @param cls a `struct AuditorDenomsIteratorContext`
* @param result db results
* @param num_results number of results in @a result
*/
static void
auditor_denoms_cb_helper (void *cls,
PGresult *result,
unsigned int num_results)
{
struct AuditorDenomsIteratorContext *dic = cls;
for (unsigned int i = 0; icb (dic->cb_cls,
&auditor_pub,
&h_denom_pub,
&auditor_sig);
}
}
/**
* Function called to invoke @a cb on every denomination with an active
* auditor. Disabled auditors and denominations without auditor are
* skipped. Runs in its own read-only transaction.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param cb function to call on each active auditor
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_iterate_auditor_denominations (
void *cls,
TALER_EXCHANGEDB_AuditorDenominationsCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_end
};
struct AuditorDenomsIteratorContext dic = {
.cb = cb,
.cb_cls = cb_cls,
};
return GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"select_auditor_denoms",
params,
&auditor_denoms_cb_helper,
&dic);
}
/**
* Get the summary of a reserve.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param[in,out] reserve the reserve data. The public key of the reserve should be
* set in this structure; it is used to query the database. The balance
* and expiration are then filled accordingly.
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_reserves_get (void *cls,
struct TALER_EXCHANGEDB_Reserve *reserve)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (&reserve->pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
TALER_PQ_RESULT_SPEC_AMOUNT ("current_balance",
&reserve->balance),
GNUNET_PQ_result_spec_timestamp ("expiration_date",
&reserve->expiry),
GNUNET_PQ_result_spec_timestamp ("gc_date",
&reserve->gc),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"reserves_get",
params,
rs);
}
/**
* Get the origin of funds of a reserve.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param reserve_pub public key of the reserve
* @param[out] h_payto set to hash of the wire source payto://-URI
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_reserves_get_origin (
void *cls,
const struct TALER_ReservePublicKeyP *reserve_pub,
struct TALER_PaytoHashP *h_payto)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (reserve_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("wire_source_h_payto",
h_payto),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_h_wire_source_of_reserve",
params,
rs);
}
/**
* Extract next KYC alert. Deletes the alert.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param trigger_type which type of alert to drain
* @param[out] h_payto set to hash of payto-URI where KYC status changed
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_drain_kyc_alert (void *cls,
uint32_t trigger_type,
struct TALER_PaytoHashP *h_payto)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint32 (&trigger_type),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("h_payto",
h_payto),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"drain_kyc_alert",
params,
rs);
}
/**
* Updates a reserve with the data from the given reserve structure.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param reserve the reserve structure whose data will be used to update the
* corresponding record in the database.
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
reserves_update (void *cls,
const struct TALER_EXCHANGEDB_Reserve *reserve)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_timestamp (&reserve->expiry),
GNUNET_PQ_query_param_timestamp (&reserve->gc),
TALER_PQ_query_param_amount (&reserve->balance),
GNUNET_PQ_query_param_auto_from_type (&reserve->pub),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"reserve_update",
params);
}
/**
* Setup new wire target for @a payto_uri.
*
* @param pg the plugin-specific state
* @param payto_uri the payto URI to check
* @param[out] h_payto set to the hash of @a payto_uri
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
setup_wire_target (
struct PostgresClosure *pg,
const char *payto_uri,
struct TALER_PaytoHashP *h_payto)
{
struct GNUNET_PQ_QueryParam iparams[] = {
GNUNET_PQ_query_param_auto_from_type (h_payto),
GNUNET_PQ_query_param_string (payto_uri),
GNUNET_PQ_query_param_end
};
TALER_payto_hash (payto_uri,
h_payto);
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_kyc_status",
iparams);
}
/**
* Generate event notification for the reserve
* change.
*
* @param pg plugin state
* @param reserve_pub reserve to notfiy on
*/
static void
notify_on_reserve (struct PostgresClosure *pg,
const struct TALER_ReservePublicKeyP *reserve_pub)
{
struct TALER_ReserveEventP rep = {
.header.size = htons (sizeof (rep)),
.header.type = htons (TALER_DBEVENT_EXCHANGE_RESERVE_INCOMING),
.reserve_pub = *reserve_pub
};
GNUNET_log (GNUNET_ERROR_TYPE_INFO,
"Notifying on reserve!\n");
postgres_event_notify (pg,
&rep.header,
NULL,
0);
}
/**
* Insert an incoming transaction into reserves. New reserves are also
* created through this function. Started within the scope of an ongoing
* transaction.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param reserve_pub public key of the reserve
* @param balance the amount that has to be added to the reserve
* @param execution_time when was the amount added
* @param sender_account_details account information for the sender (payto://-URL)
* @param exchange_account_section name of the section in the configuration for the exchange's
* account into which the deposit was made
* @param wire_ref unique reference identifying the wire transfer
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_reserves_in_insert (void *cls,
const struct TALER_ReservePublicKeyP *reserve_pub,
const struct TALER_Amount *balance,
struct GNUNET_TIME_Timestamp execution_time,
const char *sender_account_details,
const char *exchange_account_section,
uint64_t wire_ref)
{
struct PostgresClosure *pg = cls;
enum GNUNET_DB_QueryStatus qs1;
struct TALER_EXCHANGEDB_Reserve reserve;
struct GNUNET_TIME_Timestamp expiry;
struct GNUNET_TIME_Timestamp gc;
uint64_t reserve_uuid;
reserve.pub = *reserve_pub;
expiry = GNUNET_TIME_absolute_to_timestamp (
GNUNET_TIME_absolute_add (execution_time.abs_time,
pg->idle_reserve_expiration_time));
gc = GNUNET_TIME_absolute_to_timestamp (
GNUNET_TIME_absolute_add (GNUNET_TIME_absolute_get (),
pg->legal_reserve_expiration_time));
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Creating reserve %s with expiration in %s\n",
TALER_B2S (reserve_pub),
GNUNET_STRINGS_relative_time_to_string (
pg->idle_reserve_expiration_time,
GNUNET_NO));
/* Optimistically assume this is a new reserve, create balance for the first
time; we do this before adding the actual transaction to "reserves_in",
as for a new reserve it can't be a duplicate 'add' operation, and as
the 'add' operation needs the reserve entry as a foreign key. */
{
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (reserve_pub),
TALER_PQ_query_param_amount (balance),
GNUNET_PQ_query_param_timestamp (&expiry),
GNUNET_PQ_query_param_timestamp (&gc),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_uint64 ("reserve_uuid",
&reserve_uuid),
GNUNET_PQ_result_spec_end
};
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Reserve does not exist; creating a new one\n");
/* Note: query uses 'on conflict do nothing' */
qs1 = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"reserve_create",
params,
rs);
if (qs1 < 0)
return qs1;
}
/* Create new incoming transaction, "ON CONFLICT DO NOTHING"
is again used to guard against duplicates. */
{
enum GNUNET_DB_QueryStatus qs2;
enum GNUNET_DB_QueryStatus qs3;
struct TALER_PaytoHashP h_payto;
qs3 = setup_wire_target (pg,
sender_account_details,
&h_payto);
if (qs3 < 0)
return qs3;
/* We do not have the UUID, so insert by public key */
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (&reserve.pub),
GNUNET_PQ_query_param_uint64 (&wire_ref),
TALER_PQ_query_param_amount (balance),
GNUNET_PQ_query_param_string (exchange_account_section),
GNUNET_PQ_query_param_auto_from_type (&h_payto),
GNUNET_PQ_query_param_timestamp (&execution_time),
GNUNET_PQ_query_param_end
};
qs2 = GNUNET_PQ_eval_prepared_non_select (pg->conn,
"reserves_in_add_transaction",
params);
/* qs2 could be 0 as statement used 'ON CONFLICT DO NOTHING' */
if (0 >= qs2)
{
if ( (GNUNET_DB_STATUS_SUCCESS_NO_RESULTS == qs2) &&
(GNUNET_DB_STATUS_SUCCESS_NO_RESULTS != qs1) )
{
/* Conflict for the transaction, but the reserve was
just now created, that should be impossible. */
GNUNET_break (0); /* should be impossible: reserve was fresh,
but transaction already known */
return GNUNET_DB_STATUS_HARD_ERROR;
}
/* Transaction was already known or error. We are finished. */
return qs2;
}
}
if (GNUNET_DB_STATUS_SUCCESS_ONE_RESULT == qs1)
{
/* New reserve, we are finished */
notify_on_reserve (pg,
reserve_pub);
return GNUNET_DB_STATUS_SUCCESS_ONE_RESULT;
}
/* we were wrong with our optimistic assumption:
reserve did already exist, need to do an update instead */
{
/* We need to move away from 'read committed' to serializable.
Also, we know that it should be safe to commit at this point.
(We are only run in a larger transaction for performance.) */
enum GNUNET_DB_QueryStatus cs;
cs = TEH_PG_commit (pg);
if (cs < 0)
return cs;
if (GNUNET_OK !=
TEH_PG_start (pg,
"reserve-update-serializable"))
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
}
{
enum GNUNET_DB_QueryStatus reserve_exists;
reserve_exists = postgres_reserves_get (pg,
&reserve);
switch (reserve_exists)
{
case GNUNET_DB_STATUS_HARD_ERROR:
GNUNET_break (0);
return reserve_exists;
case GNUNET_DB_STATUS_SOFT_ERROR:
return reserve_exists;
case GNUNET_DB_STATUS_SUCCESS_NO_RESULTS:
/* First we got a conflict, but then we cannot select? Very strange. */
GNUNET_break (0);
return GNUNET_DB_STATUS_SOFT_ERROR;
case GNUNET_DB_STATUS_SUCCESS_ONE_RESULT:
/* continued below */
break;
}
}
{
struct TALER_EXCHANGEDB_Reserve updated_reserve;
enum GNUNET_DB_QueryStatus qs3;
/* If the reserve already existed, we need to still update the
balance; we do this after checking for duplication, as
otherwise we might have to actually pay the cost to roll this
back for duplicate transactions; like this, we should virtually
never actually have to rollback anything. */
updated_reserve.pub = reserve.pub;
if (0 >
TALER_amount_add (&updated_reserve.balance,
&reserve.balance,
balance))
{
/* currency overflow or incompatible currency */
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
"Attempt to deposit incompatible amount into reserve\n");
return GNUNET_DB_STATUS_HARD_ERROR;
}
updated_reserve.expiry = GNUNET_TIME_timestamp_max (expiry,
reserve.expiry);
updated_reserve.gc = GNUNET_TIME_timestamp_max (gc,
reserve.gc);
qs3 = reserves_update (pg,
&updated_reserve);
switch (qs3)
{
case GNUNET_DB_STATUS_HARD_ERROR:
GNUNET_break (0);
return qs3;
case GNUNET_DB_STATUS_SOFT_ERROR:
return qs3;
case GNUNET_DB_STATUS_SUCCESS_NO_RESULTS:
/* How can the UPDATE not work here? Very strange. */
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
case GNUNET_DB_STATUS_SUCCESS_ONE_RESULT:
/* continued below */
break;
}
}
notify_on_reserve (pg,
reserve_pub);
/* Go back to original transaction mode */
{
enum GNUNET_DB_QueryStatus cs;
cs = TEH_PG_commit (pg);
if (cs < 0)
return cs;
if (GNUNET_OK !=
TEH_PG_start_read_committed (pg, "reserve-insert-continued"))
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
}
return GNUNET_DB_STATUS_SUCCESS_ONE_RESULT;
}
/**
* Locate the response for a /reserve/withdraw request under the
* key of the hash of the blinded message.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param bch hash that uniquely identifies the withdraw operation
* @param collectable corresponding collectable coin (blind signature)
* if a coin is found
* @return statement execution status
*/
static enum GNUNET_DB_QueryStatus
postgres_get_withdraw_info (
void *cls,
const struct TALER_BlindedCoinHashP *bch,
struct TALER_EXCHANGEDB_CollectableBlindcoin *collectable)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (bch),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("denom_pub_hash",
&collectable->denom_pub_hash),
TALER_PQ_result_spec_blinded_denom_sig ("denom_sig",
&collectable->sig),
GNUNET_PQ_result_spec_auto_from_type ("reserve_sig",
&collectable->reserve_sig),
GNUNET_PQ_result_spec_auto_from_type ("reserve_pub",
&collectable->reserve_pub),
GNUNET_PQ_result_spec_auto_from_type ("h_blind_ev",
&collectable->h_coin_envelope),
TALER_PQ_RESULT_SPEC_AMOUNT ("amount_with_fee",
&collectable->amount_with_fee),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_withdraw",
&collectable->withdraw_fee),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_withdraw_info",
params,
rs);
}
/**
* Perform reserve update as part of a batch withdraw operation, checking
* for sufficient balance. Persisting the withdrawal details is done
* separately!
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param now current time (rounded)
* @param reserve_pub public key of the reserve to debit
* @param amount total amount to withdraw
* @param[out] found set to true if the reserve was found
* @param[out] balance_ok set to true if the balance was sufficient
* @param[out] ruuid set to the reserve's UUID (reserves table row)
* @return query execution status
*/
static enum GNUNET_DB_QueryStatus
postgres_do_batch_withdraw (
void *cls,
struct GNUNET_TIME_Timestamp now,
const struct TALER_ReservePublicKeyP *reserve_pub,
const struct TALER_Amount *amount,
bool *found,
bool *balance_ok,
uint64_t *ruuid)
{
struct PostgresClosure *pg = cls;
struct GNUNET_TIME_Timestamp gc;
struct GNUNET_PQ_QueryParam params[] = {
TALER_PQ_query_param_amount (amount),
GNUNET_PQ_query_param_auto_from_type (reserve_pub),
GNUNET_PQ_query_param_timestamp (&now),
GNUNET_PQ_query_param_timestamp (&gc),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_bool ("reserve_found",
found),
GNUNET_PQ_result_spec_bool ("balance_ok",
balance_ok),
GNUNET_PQ_result_spec_uint64 ("ruuid",
ruuid),
GNUNET_PQ_result_spec_end
};
gc = GNUNET_TIME_absolute_to_timestamp (
GNUNET_TIME_absolute_add (now.abs_time,
pg->legal_reserve_expiration_time));
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"call_batch_withdraw",
params,
rs);
}
/**
* Compute the shard number of a given @a merchant_pub.
*
* @param merchant_pub merchant public key to compute shard for
* @return shard number
*/
static uint64_t
compute_shard (const struct TALER_MerchantPublicKeyP *merchant_pub)
{
uint32_t res;
GNUNET_assert (GNUNET_YES ==
GNUNET_CRYPTO_kdf (&res,
sizeof (res),
merchant_pub,
sizeof (*merchant_pub),
"VOID",
4,
NULL, 0));
/* interpret hash result as NBO for platform independence,
convert to HBO and map to [0..2^31-1] range */
res = ntohl (res);
if (res > INT32_MAX)
res += INT32_MIN;
GNUNET_assert (res <= INT32_MAX);
return (uint64_t) res;
}
/**
* Perform deposit operation, checking for sufficient balance
* of the coin and possibly persisting the deposit details.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param deposit deposit operation details
* @param known_coin_id row of the coin in the known_coins table
* @param h_payto hash of the merchant's bank account details
* @param policy_details_serial_id pointer to the ID of the entry in policy_details, maybe NULL
* @param[in,out] exchange_timestamp time to use for the deposit (possibly updated)
* @param[out] balance_ok set to true if the balance was sufficient
* @param[out] in_conflict set to true if the deposit conflicted
* @return query execution status
*/
static enum GNUNET_DB_QueryStatus
postgres_do_deposit (
void *cls,
const struct TALER_EXCHANGEDB_Deposit *deposit,
uint64_t known_coin_id,
const struct TALER_PaytoHashP *h_payto,
uint64_t *policy_details_serial_id,
struct GNUNET_TIME_Timestamp *exchange_timestamp,
bool *balance_ok,
bool *in_conflict)
{
struct PostgresClosure *pg = cls;
uint64_t deposit_shard = compute_shard (&deposit->merchant_pub);
struct GNUNET_PQ_QueryParam params[] = {
TALER_PQ_query_param_amount (&deposit->amount_with_fee),
GNUNET_PQ_query_param_auto_from_type (&deposit->h_contract_terms),
GNUNET_PQ_query_param_auto_from_type (&deposit->wire_salt),
GNUNET_PQ_query_param_timestamp (&deposit->timestamp),
GNUNET_PQ_query_param_timestamp (exchange_timestamp),
GNUNET_PQ_query_param_timestamp (&deposit->refund_deadline),
GNUNET_PQ_query_param_timestamp (&deposit->wire_deadline),
GNUNET_PQ_query_param_auto_from_type (&deposit->merchant_pub),
GNUNET_PQ_query_param_string (deposit->receiver_wire_account),
GNUNET_PQ_query_param_auto_from_type (h_payto),
GNUNET_PQ_query_param_uint64 (&known_coin_id),
GNUNET_PQ_query_param_auto_from_type (&deposit->coin.coin_pub),
GNUNET_PQ_query_param_auto_from_type (&deposit->csig),
GNUNET_PQ_query_param_uint64 (&deposit_shard),
GNUNET_PQ_query_param_bool (deposit->has_policy),
(NULL == policy_details_serial_id)
? GNUNET_PQ_query_param_null ()
: GNUNET_PQ_query_param_uint64 (policy_details_serial_id),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_bool ("balance_ok",
balance_ok),
GNUNET_PQ_result_spec_bool ("conflicted",
in_conflict),
GNUNET_PQ_result_spec_timestamp ("exchange_timestamp",
exchange_timestamp),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"call_deposit",
params,
rs);
}
/* Get the details of a policy, referenced by its hash code
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param hc The hash code under which the details to a particular policy should be found
* @param[out] details The found details
* @return query execution status
* */
static enum GNUNET_DB_QueryStatus
postgres_get_policy_details (
void *cls,
const struct GNUNET_HashCode *hc,
struct TALER_PolicyDetails *details)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (hc),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_timestamp ("deadline",
&details->deadline),
TALER_PQ_RESULT_SPEC_AMOUNT ("commitment",
&details->commitment),
TALER_PQ_RESULT_SPEC_AMOUNT ("accumulated_total",
&details->accumulated_total),
TALER_PQ_RESULT_SPEC_AMOUNT ("policy_fee",
&details->policy_fee),
TALER_PQ_RESULT_SPEC_AMOUNT ("transferable_amount",
&details->transferable_amount),
GNUNET_PQ_result_spec_auto_from_type ("state",
&details->fulfillment_state),
GNUNET_PQ_result_spec_allow_null (
GNUNET_PQ_result_spec_uint64 ("policy_fulfillment_id",
&details->policy_fulfillment_id),
&details->no_policy_fulfillment_id),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_policy_details",
params,
rs);
}
/* Persist the details to a policy in the policy_details table. If there
* already exists a policy, update the fields accordingly.
*
* @param details The policy details that should be persisted. If an entry for
* the given details->hash_code exists, the values will be updated.
* @param[out] policy_details_serial_id The row ID of the policy details
* @param[out] accumulated_total The total amount accumulated in that policy
* @param[out] fulfillment_state The state of policy. If the state was Insufficient prior to the call and the provided deposit raises the accumulated_total above the commitment, it will be set to Ready.
* @return query execution status
*/
static enum GNUNET_DB_QueryStatus
postgres_persist_policy_details (
void *cls,
const struct TALER_PolicyDetails *details,
uint64_t *policy_details_serial_id,
struct TALER_Amount *accumulated_total,
enum TALER_PolicyFulfillmentState *fulfillment_state)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (&details->hash_code),
TALER_PQ_query_param_json (details->policy_json),
GNUNET_PQ_query_param_timestamp (&details->deadline),
TALER_PQ_query_param_amount (&details->commitment),
TALER_PQ_query_param_amount (&details->accumulated_total),
TALER_PQ_query_param_amount (&details->policy_fee),
TALER_PQ_query_param_amount (&details->transferable_amount),
GNUNET_PQ_query_param_auto_from_type (&details->fulfillment_state),
(details->no_policy_fulfillment_id)
? GNUNET_PQ_query_param_null ()
: GNUNET_PQ_query_param_uint64 (&details->policy_fulfillment_id),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_uint64 ("policy_details_serial_id",
policy_details_serial_id),
TALER_PQ_RESULT_SPEC_AMOUNT ("accumulated_total",
accumulated_total),
GNUNET_PQ_result_spec_uint32 ("fulfillment_state",
fulfillment_state),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"call_insert_or_update_policy_details",
params,
rs);
}
/**
* Perform melt operation, checking for sufficient balance
* of the coin and possibly persisting the melt details.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param rms client-contributed input for CS denominations that must be checked for idempotency, or NULL for non-CS withdrawals
* @param[in,out] refresh refresh operation details; the noreveal_index
* is set in case the coin was already melted before
* @param known_coin_id row of the coin in the known_coins table
* @param[in,out] zombie_required true if the melt must only succeed if the coin is a zombie, set to false if the requirement was satisfied
* @param[out] balance_ok set to true if the balance was sufficient
* @return query execution status
*/
static enum GNUNET_DB_QueryStatus
postgres_do_melt (
void *cls,
const struct TALER_RefreshMasterSecretP *rms,
struct TALER_EXCHANGEDB_Refresh *refresh,
uint64_t known_coin_id,
bool *zombie_required,
bool *balance_ok)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
NULL == rms
? GNUNET_PQ_query_param_null ()
: GNUNET_PQ_query_param_auto_from_type (rms),
TALER_PQ_query_param_amount (&refresh->amount_with_fee),
GNUNET_PQ_query_param_auto_from_type (&refresh->rc),
GNUNET_PQ_query_param_auto_from_type (&refresh->coin.coin_pub),
GNUNET_PQ_query_param_auto_from_type (&refresh->coin_sig),
GNUNET_PQ_query_param_uint64 (&known_coin_id),
GNUNET_PQ_query_param_uint32 (&refresh->noreveal_index),
GNUNET_PQ_query_param_bool (*zombie_required),
GNUNET_PQ_query_param_end
};
bool is_null;
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_bool ("balance_ok",
balance_ok),
GNUNET_PQ_result_spec_bool ("zombie_required",
zombie_required),
GNUNET_PQ_result_spec_allow_null (
GNUNET_PQ_result_spec_uint32 ("noreveal_index",
&refresh->noreveal_index),
&is_null),
GNUNET_PQ_result_spec_end
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"call_melt",
params,
rs);
if (is_null)
refresh->noreveal_index = UINT32_MAX; /* set to very invalid value */
return qs;
}
/**
* Perform refund operation, checking for sufficient deposits
* of the coin and possibly persisting the refund details.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param refund refund operation details
* @param deposit_fee deposit fee applicable for the coin, possibly refunded
* @param known_coin_id row of the coin in the known_coins table
* @param[out] not_found set if the deposit was not found
* @param[out] refund_ok set if the refund succeeded (below deposit amount)
* @param[out] gone if the merchant was already paid
* @param[out] conflict set if the refund ID was re-used
* @return query execution status
*/
static enum GNUNET_DB_QueryStatus
postgres_do_refund (
void *cls,
const struct TALER_EXCHANGEDB_Refund *refund,
const struct TALER_Amount *deposit_fee,
uint64_t known_coin_id,
bool *not_found,
bool *refund_ok,
bool *gone,
bool *conflict)
{
struct PostgresClosure *pg = cls;
uint64_t deposit_shard = compute_shard (&refund->details.merchant_pub);
struct TALER_Amount amount_without_fee;
struct GNUNET_PQ_QueryParam params[] = {
TALER_PQ_query_param_amount (&refund->details.refund_amount),
TALER_PQ_query_param_amount (&amount_without_fee),
TALER_PQ_query_param_amount (deposit_fee),
GNUNET_PQ_query_param_auto_from_type (&refund->details.h_contract_terms),
GNUNET_PQ_query_param_uint64 (&refund->details.rtransaction_id),
GNUNET_PQ_query_param_uint64 (&deposit_shard),
GNUNET_PQ_query_param_uint64 (&known_coin_id),
GNUNET_PQ_query_param_auto_from_type (&refund->coin.coin_pub),
GNUNET_PQ_query_param_auto_from_type (&refund->details.merchant_pub),
GNUNET_PQ_query_param_auto_from_type (&refund->details.merchant_sig),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_bool ("not_found",
not_found),
GNUNET_PQ_result_spec_bool ("refund_ok",
refund_ok),
GNUNET_PQ_result_spec_bool ("gone",
gone),
GNUNET_PQ_result_spec_bool ("conflict",
conflict),
GNUNET_PQ_result_spec_end
};
if (0 >
TALER_amount_subtract (&amount_without_fee,
&refund->details.refund_amount,
&refund->details.refund_fee))
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"call_refund",
params,
rs);
}
/**
* Perform recoup operation, checking for sufficient deposits
* of the coin and possibly persisting the recoup details.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param reserve_pub public key of the reserve to credit
* @param reserve_out_serial_id row in the reserves_out table justifying the recoup
* @param coin_bks coin blinding key secret to persist
* @param coin_pub public key of the coin being recouped
* @param known_coin_id row of the @a coin_pub in the known_coins table
* @param coin_sig signature of the coin requesting the recoup
* @param[in,out] recoup_timestamp recoup timestamp, set if recoup existed
* @param[out] recoup_ok set if the recoup succeeded (balance ok)
* @param[out] internal_failure set on internal failures
* @return query execution status
*/
static enum GNUNET_DB_QueryStatus
postgres_do_recoup (
void *cls,
const struct TALER_ReservePublicKeyP *reserve_pub,
uint64_t reserve_out_serial_id,
const union TALER_DenominationBlindingKeyP *coin_bks,
const struct TALER_CoinSpendPublicKeyP *coin_pub,
uint64_t known_coin_id,
const struct TALER_CoinSpendSignatureP *coin_sig,
struct GNUNET_TIME_Timestamp *recoup_timestamp,
bool *recoup_ok,
bool *internal_failure)
{
struct PostgresClosure *pg = cls;
struct GNUNET_TIME_Timestamp reserve_gc
= GNUNET_TIME_relative_to_timestamp (pg->legal_reserve_expiration_time);
struct GNUNET_TIME_Timestamp reserve_expiration
= GNUNET_TIME_relative_to_timestamp (pg->idle_reserve_expiration_time);
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (reserve_pub),
GNUNET_PQ_query_param_uint64 (&reserve_out_serial_id),
GNUNET_PQ_query_param_auto_from_type (coin_bks),
GNUNET_PQ_query_param_auto_from_type (coin_pub),
GNUNET_PQ_query_param_uint64 (&known_coin_id),
GNUNET_PQ_query_param_auto_from_type (coin_sig),
GNUNET_PQ_query_param_timestamp (&reserve_gc),
GNUNET_PQ_query_param_timestamp (&reserve_expiration),
GNUNET_PQ_query_param_timestamp (recoup_timestamp),
GNUNET_PQ_query_param_end
};
bool is_null;
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_allow_null (
GNUNET_PQ_result_spec_timestamp ("recoup_timestamp",
recoup_timestamp),
&is_null),
GNUNET_PQ_result_spec_bool ("recoup_ok",
recoup_ok),
GNUNET_PQ_result_spec_bool ("internal_failure",
internal_failure),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"call_recoup",
params,
rs);
}
/**
* Perform recoup-refresh operation, checking for sufficient deposits of the
* coin and possibly persisting the recoup-refresh details.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param old_coin_pub public key of the old coin to credit
* @param rrc_serial row in the refresh_revealed_coins table justifying the recoup-refresh
* @param coin_bks coin blinding key secret to persist
* @param coin_pub public key of the coin being recouped
* @param known_coin_id row of the @a coin_pub in the known_coins table
* @param coin_sig signature of the coin requesting the recoup
* @param[in,out] recoup_timestamp recoup timestamp, set if recoup existed
* @param[out] recoup_ok set if the recoup-refresh succeeded (balance ok)
* @param[out] internal_failure set on internal failures
* @return query execution status
*/
static enum GNUNET_DB_QueryStatus
postgres_do_recoup_refresh (
void *cls,
const struct TALER_CoinSpendPublicKeyP *old_coin_pub,
uint64_t rrc_serial,
const union TALER_DenominationBlindingKeyP *coin_bks,
const struct TALER_CoinSpendPublicKeyP *coin_pub,
uint64_t known_coin_id,
const struct TALER_CoinSpendSignatureP *coin_sig,
struct GNUNET_TIME_Timestamp *recoup_timestamp,
bool *recoup_ok,
bool *internal_failure)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (old_coin_pub),
GNUNET_PQ_query_param_uint64 (&rrc_serial),
GNUNET_PQ_query_param_auto_from_type (coin_bks),
GNUNET_PQ_query_param_auto_from_type (coin_pub),
GNUNET_PQ_query_param_uint64 (&known_coin_id),
GNUNET_PQ_query_param_auto_from_type (coin_sig),
GNUNET_PQ_query_param_timestamp (recoup_timestamp),
GNUNET_PQ_query_param_end
};
bool is_null;
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_allow_null (
GNUNET_PQ_result_spec_timestamp ("recoup_timestamp",
recoup_timestamp),
&is_null),
GNUNET_PQ_result_spec_bool ("recoup_ok",
recoup_ok),
GNUNET_PQ_result_spec_bool ("internal_failure",
internal_failure),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"call_recoup_refresh",
params,
rs);
}
/*
* Compares two indices into an array of hash codes according to
* GNUNET_CRYPTO_hash_cmp of the content at those index positions.
*
* Used in a call qsort_t in order to generate sorted policy_hash_codes.
*/
static int
hash_code_cmp (
const void *hc1,
const void *hc2,
void *arg)
{
size_t i1 = *(size_t *) hc1;
size_t i2 = *(size_t *) hc2;
const struct TALER_PolicyDetails *d = arg;
return GNUNET_CRYPTO_hash_cmp (&d[i1].hash_code,
&d[i2].hash_code);
}
/**
* Add a proof of fulfillment into the policy_fulfillments table
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param fulfillment fullfilment transaction data to be added
* @return query execution status
*/
static enum GNUNET_DB_QueryStatus
postgres_add_policy_fulfillment_proof (
void *cls,
struct TALER_PolicyFulfillmentTransactionData *fulfillment)
{
enum GNUNET_DB_QueryStatus qs;
struct PostgresClosure *pg = cls;
size_t count = fulfillment->details_count;
struct GNUNET_HashCode hcs[count];
/* Create the sorted policy_hash_codes */
{
size_t idx[count];
for (size_t i = 0; i < count; i++)
idx[i] = i;
/* Sort the indices according to the hash codes of the corresponding
* details. */
qsort_r (idx,
count,
sizeof(size_t),
hash_code_cmp,
fulfillment->details);
/* Finally, concatenate all hash_codes in sorted order */
for (size_t i = 0; i < count; i++)
hcs[i] = fulfillment->details[idx[i]].hash_code;
}
/* Now, add the proof to the policy_fulfillments table, retrieve the
* record_id */
{
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_timestamp (&fulfillment->timestamp),
TALER_PQ_query_param_json (fulfillment->proof),
GNUNET_PQ_query_param_auto_from_type (&fulfillment->h_proof),
GNUNET_PQ_query_param_fixed_size (hcs,
count * sizeof(struct GNUNET_HashCode)),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_uint64 ("fulfillment_id",
&fulfillment->fulfillment_id),
GNUNET_PQ_result_spec_end
};
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"insert_proof_into_policy_fulfillments",
params,
rs);
if (GNUNET_DB_STATUS_SUCCESS_ONE_RESULT != qs)
return qs;
}
/* Now, set the states of each entry corresponding to the hash_codes in
* policy_details accordingly */
for (size_t i = 0; i < count; i++)
{
struct TALER_PolicyDetails *pos = &fulfillment->details[i];
{
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (&pos->hash_code),
GNUNET_PQ_query_param_timestamp (&pos->deadline),
TALER_PQ_query_param_amount (&pos->commitment),
TALER_PQ_query_param_amount (&pos->accumulated_total),
TALER_PQ_query_param_amount (&pos->policy_fee),
TALER_PQ_query_param_amount (&pos->transferable_amount),
GNUNET_PQ_query_param_auto_from_type (&pos->fulfillment_state),
GNUNET_PQ_query_param_end
};
qs = GNUNET_PQ_eval_prepared_non_select (pg->conn,
"update_policy_details",
params);
if (qs < 0)
return qs;
}
}
return qs;
}
/**
* Get the balance of the specified reserve.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param reserve_pub public key of the reserve
* @param[out] balance set to the reserve balance
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_get_reserve_balance (void *cls,
const struct TALER_ReservePublicKeyP *reserve_pub,
struct TALER_Amount *balance)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (reserve_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
TALER_PQ_RESULT_SPEC_AMOUNT ("current_balance",
balance),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_reserve_balance",
params,
rs);
}
/**
* Check if we have the specified deposit already in the database.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param h_contract_terms contract to check for
* @param h_wire wire hash to check for
* @param coin_pub public key of the coin to check for
* @param merchant merchant public key to check for
* @param refund_deadline expected refund deadline
* @param[out] deposit_fee set to the deposit fee the exchange charged
* @param[out] exchange_timestamp set to the time when the exchange received the deposit
* @return 1 if we know this operation,
* 0 if this exact deposit is unknown to us,
* otherwise transaction error status
*/
static enum GNUNET_DB_QueryStatus
postgres_have_deposit2 (
void *cls,
const struct TALER_PrivateContractHashP *h_contract_terms,
const struct TALER_MerchantWireHashP *h_wire,
const struct TALER_CoinSpendPublicKeyP *coin_pub,
const struct TALER_MerchantPublicKeyP *merchant,
struct GNUNET_TIME_Timestamp refund_deadline,
struct TALER_Amount *deposit_fee,
struct GNUNET_TIME_Timestamp *exchange_timestamp)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (coin_pub),
GNUNET_PQ_query_param_auto_from_type (h_contract_terms),
GNUNET_PQ_query_param_auto_from_type (merchant),
GNUNET_PQ_query_param_end
};
struct TALER_EXCHANGEDB_Deposit deposit2;
struct GNUNET_PQ_ResultSpec rs[] = {
TALER_PQ_RESULT_SPEC_AMOUNT ("amount_with_fee",
&deposit2.amount_with_fee),
GNUNET_PQ_result_spec_timestamp ("wallet_timestamp",
&deposit2.timestamp),
GNUNET_PQ_result_spec_timestamp ("exchange_timestamp",
exchange_timestamp),
GNUNET_PQ_result_spec_timestamp ("refund_deadline",
&deposit2.refund_deadline),
GNUNET_PQ_result_spec_timestamp ("wire_deadline",
&deposit2.wire_deadline),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_deposit",
deposit_fee),
GNUNET_PQ_result_spec_auto_from_type ("wire_salt",
&deposit2.wire_salt),
GNUNET_PQ_result_spec_string ("receiver_wire_account",
&deposit2.receiver_wire_account),
GNUNET_PQ_result_spec_end
};
enum GNUNET_DB_QueryStatus qs;
struct TALER_MerchantWireHashP h_wire2;
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Getting deposits for coin %s\n",
TALER_B2S (coin_pub));
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_deposit",
params,
rs);
if (0 >= qs)
return qs;
TALER_merchant_wire_signature_hash (deposit2.receiver_wire_account,
&deposit2.wire_salt,
&h_wire2);
GNUNET_free (deposit2.receiver_wire_account);
/* Now we check that the other information in @a deposit
also matches, and if not report inconsistencies. */
if ( (GNUNET_TIME_timestamp_cmp (refund_deadline,
!=,
deposit2.refund_deadline)) ||
(0 != GNUNET_memcmp (h_wire,
&h_wire2) ) )
{
/* Inconsistencies detected! Does not match! */
return GNUNET_DB_STATUS_SUCCESS_NO_RESULTS;
}
return GNUNET_DB_STATUS_SUCCESS_ONE_RESULT;
}
/**
* Aggregate all matching deposits for @a h_payto and
* @a merchant_pub, returning the total amounts.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param h_payto destination of the wire transfer
* @param merchant_pub public key of the merchant
* @param wtid wire transfer ID to set for the aggregate
* @param[out] total set to the sum of the total deposits minus applicable deposit fees and refunds
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_aggregate (
void *cls,
const struct TALER_PaytoHashP *h_payto,
const struct TALER_MerchantPublicKeyP *merchant_pub,
const struct TALER_WireTransferIdentifierRawP *wtid,
struct TALER_Amount *total)
{
struct PostgresClosure *pg = cls;
struct GNUNET_TIME_Absolute now = {0};
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_absolute_time (&now),
GNUNET_PQ_query_param_auto_from_type (merchant_pub),
GNUNET_PQ_query_param_auto_from_type (h_payto),
GNUNET_PQ_query_param_auto_from_type (wtid),
GNUNET_PQ_query_param_end
};
uint64_t sum_deposit_value;
uint64_t sum_deposit_frac;
uint64_t sum_refund_value;
uint64_t sum_refund_frac;
uint64_t sum_fee_value;
uint64_t sum_fee_frac;
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_uint64 ("sum_deposit_value",
&sum_deposit_value),
GNUNET_PQ_result_spec_uint64 ("sum_deposit_fraction",
&sum_deposit_frac),
GNUNET_PQ_result_spec_uint64 ("sum_refund_value",
&sum_refund_value),
GNUNET_PQ_result_spec_uint64 ("sum_refund_fraction",
&sum_refund_frac),
GNUNET_PQ_result_spec_uint64 ("sum_fee_value",
&sum_fee_value),
GNUNET_PQ_result_spec_uint64 ("sum_fee_fraction",
&sum_fee_frac),
GNUNET_PQ_result_spec_end
};
enum GNUNET_DB_QueryStatus qs;
struct TALER_Amount sum_deposit;
struct TALER_Amount sum_refund;
struct TALER_Amount sum_fee;
struct TALER_Amount delta;
now = GNUNET_TIME_absolute_round_down (GNUNET_TIME_absolute_get (),
pg->aggregator_shift);
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"aggregate",
params,
rs);
if (qs < 0)
{
GNUNET_break (GNUNET_DB_STATUS_SOFT_ERROR == qs);
return qs;
}
if (GNUNET_DB_STATUS_SUCCESS_NO_RESULTS == qs)
{
GNUNET_assert (GNUNET_OK ==
TALER_amount_set_zero (pg->currency,
total));
return qs;
}
GNUNET_assert (GNUNET_OK ==
TALER_amount_set_zero (pg->currency,
&sum_deposit));
GNUNET_assert (GNUNET_OK ==
TALER_amount_set_zero (pg->currency,
&sum_refund));
GNUNET_assert (GNUNET_OK ==
TALER_amount_set_zero (pg->currency,
&sum_fee));
sum_deposit.value = sum_deposit_frac / TALER_AMOUNT_FRAC_BASE
+ sum_deposit_value;
sum_deposit.fraction = sum_deposit_frac % TALER_AMOUNT_FRAC_BASE;
sum_refund.value = sum_refund_frac / TALER_AMOUNT_FRAC_BASE
+ sum_refund_value;
sum_refund.fraction = sum_refund_frac % TALER_AMOUNT_FRAC_BASE;
sum_fee.value = sum_fee_frac / TALER_AMOUNT_FRAC_BASE
+ sum_fee_value;
sum_fee.fraction = sum_fee_frac % TALER_AMOUNT_FRAC_BASE; \
GNUNET_assert (0 <=
TALER_amount_subtract (&delta,
&sum_deposit,
&sum_refund));
GNUNET_assert (0 <=
TALER_amount_subtract (total,
&delta,
&sum_fee));
return qs;
}
/**
* Create a new entry in the transient aggregation table.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param h_payto destination of the wire transfer
* @param exchange_account_section exchange account to use
* @param merchant_pub public key of the merchant receiving the transfer
* @param wtid the raw wire transfer identifier to be used
* @param kyc_requirement_row row in legitimization_requirements that need to be satisfied to continue, or 0 for none
* @param total amount to be wired in the future
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_create_aggregation_transient (
void *cls,
const struct TALER_PaytoHashP *h_payto,
const char *exchange_account_section,
const struct TALER_MerchantPublicKeyP *merchant_pub,
const struct TALER_WireTransferIdentifierRawP *wtid,
uint64_t kyc_requirement_row,
const struct TALER_Amount *total)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
TALER_PQ_query_param_amount (total),
GNUNET_PQ_query_param_auto_from_type (merchant_pub),
GNUNET_PQ_query_param_auto_from_type (h_payto),
GNUNET_PQ_query_param_uint64 (&kyc_requirement_row),
GNUNET_PQ_query_param_string (exchange_account_section),
GNUNET_PQ_query_param_auto_from_type (wtid),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"create_aggregation_transient",
params);
}
/**
* Find existing entry in the transient aggregation table.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param h_payto destination of the wire transfer
* @param merchant_pub public key of the merchant receiving the transfer
* @param exchange_account_section exchange account to use
* @param[out] wtid set to the raw wire transfer identifier to be used
* @param[out] total existing amount to be wired in the future
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_select_aggregation_transient (
void *cls,
const struct TALER_PaytoHashP *h_payto,
const struct TALER_MerchantPublicKeyP *merchant_pub,
const char *exchange_account_section,
struct TALER_WireTransferIdentifierRawP *wtid,
struct TALER_Amount *total)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (h_payto),
GNUNET_PQ_query_param_auto_from_type (merchant_pub),
GNUNET_PQ_query_param_string (exchange_account_section),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
TALER_PQ_RESULT_SPEC_AMOUNT ("amount",
total),
GNUNET_PQ_result_spec_auto_from_type ("wtid_raw",
wtid),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"select_aggregation_transient",
params,
rs);
}
/**
* Closure for #get_refunds_cb().
*/
struct FindAggregationTransientContext
{
/**
* Function to call on each result.
*/
TALER_EXCHANGEDB_TransientAggregationCallback cb;
/**
* Closure for @a cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Set to #GNUNET_SYSERR on error.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct SelectRefundContext *`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
get_transients_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct FindAggregationTransientContext *srctx = cls;
struct PostgresClosure *pg = srctx->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
cont = srctx->cb (srctx->cb_cls,
payto_uri,
&wtid,
&merchant_pub,
&amount);
GNUNET_free (payto_uri);
if (! cont)
break;
}
}
/**
* Find existing entry in the transient aggregation table.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param h_payto destination of the wire transfer
* @param cb function to call on each matching entry
* @param cb_cls closure for @a cb
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_find_aggregation_transient (
void *cls,
const struct TALER_PaytoHashP *h_payto,
TALER_EXCHANGEDB_TransientAggregationCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
enum GNUNET_DB_QueryStatus qs;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (h_payto),
GNUNET_PQ_query_param_end
};
struct FindAggregationTransientContext srctx = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"find_transient_aggregations",
params,
&get_transients_cb,
&srctx);
if (GNUNET_SYSERR == srctx.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Update existing entry in the transient aggregation table.
* @a h_payto is only needed for query performance.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param h_payto destination of the wire transfer
* @param wtid the raw wire transfer identifier to update
* @param kyc_requirement_row row in legitimization_requirements that need to be satisfied to continue, or 0 for none
* @param total new total amount to be wired in the future
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_update_aggregation_transient (
void *cls,
const struct TALER_PaytoHashP *h_payto,
const struct TALER_WireTransferIdentifierRawP *wtid,
uint64_t kyc_requirement_row,
const struct TALER_Amount *total)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
TALER_PQ_query_param_amount (total),
GNUNET_PQ_query_param_auto_from_type (h_payto),
GNUNET_PQ_query_param_auto_from_type (wtid),
GNUNET_PQ_query_param_uint64 (&kyc_requirement_row),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"update_aggregation_transient",
params);
}
/**
* Obtain information about deposits that are ready to be executed. Such
* deposits must not be marked as "done", the execution time must be
* in the past, and the KYC status must be 'ok'.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param start_shard_row minimum shard row to select
* @param end_shard_row maximum shard row to select (inclusive)
* @param[out] merchant_pub set to the public key of a merchant with a ready deposit
* @param[out] payto_uri set to the account of the merchant, to be freed by caller
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_get_ready_deposit (void *cls,
uint64_t start_shard_row,
uint64_t end_shard_row,
struct TALER_MerchantPublicKeyP *merchant_pub,
char **payto_uri)
{
struct PostgresClosure *pg = cls;
struct GNUNET_TIME_Absolute now = {0};
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_absolute_time (&now),
GNUNET_PQ_query_param_uint64 (&start_shard_row),
GNUNET_PQ_query_param_uint64 (&end_shard_row),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("merchant_pub",
merchant_pub),
GNUNET_PQ_result_spec_string ("payto_uri",
payto_uri),
GNUNET_PQ_result_spec_end
};
now = GNUNET_TIME_absolute_round_down (GNUNET_TIME_absolute_get (),
pg->aggregator_shift);
GNUNET_assert (start_shard_row < end_shard_row);
GNUNET_assert (end_shard_row <= INT32_MAX);
GNUNET_log (GNUNET_ERROR_TYPE_INFO,
"Finding ready deposits by deadline %s (%llu)\n",
GNUNET_TIME_absolute2s (now),
(unsigned long long) now.abs_value_us);
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"deposits_get_ready",
params,
rs);
}
/**
* Retrieve the record for a known coin.
*
* @param cls the plugin closure
* @param coin_pub the public key of the coin to search for
* @param coin_info place holder for the returned coin information object
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_get_known_coin (void *cls,
const struct TALER_CoinSpendPublicKeyP *coin_pub,
struct TALER_CoinPublicInfo *coin_info)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (coin_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("denom_pub_hash",
&coin_info->denom_pub_hash),
GNUNET_PQ_result_spec_allow_null (
GNUNET_PQ_result_spec_auto_from_type ("age_commitment_hash",
&coin_info->h_age_commitment),
&coin_info->no_age_commitment),
TALER_PQ_result_spec_denom_sig ("denom_sig",
&coin_info->denom_sig),
GNUNET_PQ_result_spec_end
};
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Getting known coin data for coin %s\n",
TALER_B2S (coin_pub));
coin_info->coin_pub = *coin_pub;
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_known_coin",
params,
rs);
}
/**
* Retrieve the denomination of a known coin.
*
* @param cls the plugin closure
* @param coin_pub the public key of the coin to search for
* @param[out] known_coin_id set to the ID of the coin in the known_coins table
* @param[out] denom_hash where to store the hash of the coins denomination
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_get_coin_denomination (
void *cls,
const struct TALER_CoinSpendPublicKeyP *coin_pub,
uint64_t *known_coin_id,
struct TALER_DenominationHashP *denom_hash)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (coin_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("denom_pub_hash",
denom_hash),
GNUNET_PQ_result_spec_uint64 ("known_coin_id",
known_coin_id),
GNUNET_PQ_result_spec_end
};
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Getting coin denomination of coin %s\n",
TALER_B2S (coin_pub));
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_coin_denomination",
params,
rs);
}
/**
* Count the number of known coins by denomination.
*
* @param cls database connection plugin state
* @param denom_pub_hash denomination to count by
* @return number of coins if non-negative, otherwise an `enum GNUNET_DB_QueryStatus`
*/
static long long
postgres_count_known_coins (void *cls,
const struct
TALER_DenominationHashP *denom_pub_hash)
{
struct PostgresClosure *pg = cls;
uint64_t count;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (denom_pub_hash),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_uint64 ("count",
&count),
GNUNET_PQ_result_spec_end
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"count_known_coins",
params,
rs);
if (0 > qs)
return (long long) qs;
return (long long) count;
}
/**
* Make sure the given @a coin is known to the database.
*
* @param cls database connection plugin state
* @param coin the coin that must be made known
* @param[out] known_coin_id set to the unique row of the coin
* @param[out] denom_hash set to the denomination hash of the existing
* coin (for conflict error reporting)
* @param[out] h_age_commitment set to the conflicting age commitment hash on conflict
* @return database transaction status, non-negative on success
*/
static enum TALER_EXCHANGEDB_CoinKnownStatus
postgres_ensure_coin_known (void *cls,
const struct TALER_CoinPublicInfo *coin,
uint64_t *known_coin_id,
struct TALER_DenominationHashP *denom_hash,
struct TALER_AgeCommitmentHash *h_age_commitment)
{
struct PostgresClosure *pg = cls;
enum GNUNET_DB_QueryStatus qs;
bool existed;
bool is_denom_pub_hash_null = false;
bool is_age_hash_null = false;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (&coin->coin_pub),
GNUNET_PQ_query_param_auto_from_type (&coin->denom_pub_hash),
GNUNET_PQ_query_param_auto_from_type (&coin->h_age_commitment),
TALER_PQ_query_param_denom_sig (&coin->denom_sig),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_bool ("existed",
&existed),
GNUNET_PQ_result_spec_uint64 ("known_coin_id",
known_coin_id),
GNUNET_PQ_result_spec_allow_null (
GNUNET_PQ_result_spec_auto_from_type ("denom_pub_hash",
denom_hash),
&is_denom_pub_hash_null),
GNUNET_PQ_result_spec_allow_null (
GNUNET_PQ_result_spec_auto_from_type ("age_commitment_hash",
h_age_commitment),
&is_age_hash_null),
GNUNET_PQ_result_spec_end
};
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"insert_known_coin",
params,
rs);
switch (qs)
{
case GNUNET_DB_STATUS_HARD_ERROR:
GNUNET_break (0);
return TALER_EXCHANGEDB_CKS_HARD_FAIL;
case GNUNET_DB_STATUS_SOFT_ERROR:
return TALER_EXCHANGEDB_CKS_SOFT_FAIL;
case GNUNET_DB_STATUS_SUCCESS_NO_RESULTS:
GNUNET_break (0); /* should be impossible */
return TALER_EXCHANGEDB_CKS_HARD_FAIL;
case GNUNET_DB_STATUS_SUCCESS_ONE_RESULT:
if (! existed)
return TALER_EXCHANGEDB_CKS_ADDED;
break; /* continued below */
}
if ( (! is_denom_pub_hash_null) &&
(0 != GNUNET_memcmp (&denom_hash->hash,
&coin->denom_pub_hash.hash)) )
{
GNUNET_break_op (0);
return TALER_EXCHANGEDB_CKS_DENOM_CONFLICT;
}
if ( (! is_age_hash_null) &&
(0 != GNUNET_memcmp (h_age_commitment,
&coin->h_age_commitment)) )
{
GNUNET_break (GNUNET_is_zero (h_age_commitment));
GNUNET_break_op (0);
return TALER_EXCHANGEDB_CKS_AGE_CONFLICT;
}
return TALER_EXCHANGEDB_CKS_PRESENT;
}
/**
* Insert information about deposited coin into the database.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param exchange_timestamp time the exchange received the deposit request
* @param deposit deposit information to store
* @return query result status
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_deposit (void *cls,
struct GNUNET_TIME_Timestamp exchange_timestamp,
const struct TALER_EXCHANGEDB_Deposit *deposit)
{
struct PostgresClosure *pg = cls;
struct TALER_PaytoHashP h_payto;
enum GNUNET_DB_QueryStatus qs;
qs = setup_wire_target (pg,
deposit->receiver_wire_account,
&h_payto);
if (qs < 0)
return qs;
if (GNUNET_TIME_timestamp_cmp (deposit->wire_deadline,
<,
deposit->refund_deadline))
{
GNUNET_break (0);
}
{
uint64_t shard = compute_shard (&deposit->merchant_pub);
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (&deposit->coin.coin_pub),
TALER_PQ_query_param_amount (&deposit->amount_with_fee),
GNUNET_PQ_query_param_timestamp (&deposit->timestamp),
GNUNET_PQ_query_param_timestamp (&deposit->refund_deadline),
GNUNET_PQ_query_param_timestamp (&deposit->wire_deadline),
GNUNET_PQ_query_param_auto_from_type (&deposit->merchant_pub),
GNUNET_PQ_query_param_auto_from_type (&deposit->h_contract_terms),
GNUNET_PQ_query_param_auto_from_type (&deposit->wire_salt),
GNUNET_PQ_query_param_auto_from_type (&h_payto),
GNUNET_PQ_query_param_auto_from_type (&deposit->csig),
GNUNET_PQ_query_param_timestamp (&exchange_timestamp),
GNUNET_PQ_query_param_uint64 (&shard),
GNUNET_PQ_query_param_end
};
GNUNET_assert (shard <= INT32_MAX);
GNUNET_log (
GNUNET_ERROR_TYPE_INFO,
"Inserting deposit to be executed at %s (%llu/%llu)\n",
GNUNET_TIME_timestamp2s (deposit->wire_deadline),
(unsigned long long) deposit->wire_deadline.abs_time.abs_value_us,
(unsigned long long) deposit->refund_deadline.abs_time.abs_value_us);
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_deposit",
params);
}
}
/**
* Insert information about refunded coin into the database.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param refund refund information to store
* @return query result status
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_refund (void *cls,
const struct TALER_EXCHANGEDB_Refund *refund)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (&refund->coin.coin_pub),
GNUNET_PQ_query_param_auto_from_type (&refund->details.merchant_pub),
GNUNET_PQ_query_param_auto_from_type (&refund->details.merchant_sig),
GNUNET_PQ_query_param_auto_from_type (&refund->details.h_contract_terms),
GNUNET_PQ_query_param_uint64 (&refund->details.rtransaction_id),
TALER_PQ_query_param_amount (&refund->details.refund_amount),
GNUNET_PQ_query_param_end
};
GNUNET_assert (GNUNET_YES ==
TALER_amount_cmp_currency (&refund->details.refund_amount,
&refund->details.refund_fee));
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_refund",
params);
}
/**
* Closure for #get_refunds_cb().
*/
struct SelectRefundContext
{
/**
* Function to call on each result.
*/
TALER_EXCHANGEDB_RefundCoinCallback cb;
/**
* Closure for @a cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Set to #GNUNET_SYSERR on error.
*/
int status;
};
/**
* Function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct SelectRefundContext *`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
get_refunds_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct SelectRefundContext *srctx = cls;
struct PostgresClosure *pg = srctx->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
if (GNUNET_OK !=
srctx->cb (srctx->cb_cls,
&amount_with_fee))
return;
}
}
/**
* Select refunds by @a coin_pub, @a merchant_pub and @a h_contract.
*
* @param cls closure of plugin
* @param coin_pub coin to get refunds for
* @param merchant_pub merchant to get refunds for
* @param h_contract contract (hash) to get refunds for
* @param cb function to call for each refund found
* @param cb_cls closure for @a cb
* @return query result status
*/
static enum GNUNET_DB_QueryStatus
postgres_select_refunds_by_coin (
void *cls,
const struct TALER_CoinSpendPublicKeyP *coin_pub,
const struct TALER_MerchantPublicKeyP *merchant_pub,
const struct TALER_PrivateContractHashP *h_contract,
TALER_EXCHANGEDB_RefundCoinCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
enum GNUNET_DB_QueryStatus qs;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (coin_pub),
GNUNET_PQ_query_param_auto_from_type (merchant_pub),
GNUNET_PQ_query_param_auto_from_type (h_contract),
GNUNET_PQ_query_param_end
};
struct SelectRefundContext srctx = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"get_refunds_by_coin_and_contract",
params,
&get_refunds_cb,
&srctx);
if (GNUNET_SYSERR == srctx.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Lookup refresh melt commitment data under the given @a rc.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param rc commitment hash to use to locate the operation
* @param[out] melt where to store the result; note that
* melt->session.coin.denom_sig will be set to NULL
* and is not fetched by this routine (as it is not needed by the client)
* @param[out] melt_serial_id set to the row ID of @a rc in the refresh_commitments table
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_get_melt (void *cls,
const struct TALER_RefreshCommitmentP *rc,
struct TALER_EXCHANGEDB_Melt *melt,
uint64_t *melt_serial_id)
{
struct PostgresClosure *pg = cls;
bool h_age_commitment_is_null;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (rc),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("denom_pub_hash",
&melt->session.coin.
denom_pub_hash),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_refresh",
&melt->melt_fee),
GNUNET_PQ_result_spec_uint32 ("noreveal_index",
&melt->session.noreveal_index),
GNUNET_PQ_result_spec_auto_from_type ("old_coin_pub",
&melt->session.coin.coin_pub),
GNUNET_PQ_result_spec_auto_from_type ("old_coin_sig",
&melt->session.coin_sig),
GNUNET_PQ_result_spec_allow_null (
GNUNET_PQ_result_spec_auto_from_type ("age_commitment_hash",
&melt->session.coin.h_age_commitment),
&h_age_commitment_is_null),
TALER_PQ_RESULT_SPEC_AMOUNT ("amount_with_fee",
&melt->session.amount_with_fee),
GNUNET_PQ_result_spec_uint64 ("melt_serial_id",
melt_serial_id),
GNUNET_PQ_result_spec_end
};
enum GNUNET_DB_QueryStatus qs;
memset (&melt->session.coin.denom_sig,
0,
sizeof (melt->session.coin.denom_sig));
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_melt",
params,
rs);
if (h_age_commitment_is_null)
memset (&melt->session.coin.h_age_commitment,
0,
sizeof(melt->session.coin.h_age_commitment));
melt->session.rc = *rc;
return qs;
}
/**
* Store in the database which coin(s) the wallet wanted to create
* in a given refresh operation and all of the other information
* we learned or created in the /refresh/reveal step.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param melt_serial_id row ID of the commitment / melt operation in refresh_commitments
* @param num_rrcs number of coins to generate, size of the @a rrcs array
* @param rrcs information about the new coins
* @param num_tprivs number of entries in @a tprivs, should be #TALER_CNC_KAPPA - 1
* @param tprivs transfer private keys to store
* @param tp public key to store
* @return query status for the transaction
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_refresh_reveal (
void *cls,
uint64_t melt_serial_id,
uint32_t num_rrcs,
const struct TALER_EXCHANGEDB_RefreshRevealedCoin *rrcs,
unsigned int num_tprivs,
const struct TALER_TransferPrivateKeyP *tprivs,
const struct TALER_TransferPublicKeyP *tp)
{
struct PostgresClosure *pg = cls;
if (TALER_CNC_KAPPA != num_tprivs + 1)
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
for (uint32_t i = 0; iorig_coin_link_sig),
GNUNET_PQ_query_param_auto_from_type (&rrc->h_denom_pub),
TALER_PQ_query_param_blinded_planchet (&rrc->blinded_planchet),
TALER_PQ_query_param_exchange_withdraw_values (&rrc->exchange_vals),
GNUNET_PQ_query_param_auto_from_type (&rrc->coin_envelope_hash),
TALER_PQ_query_param_blinded_denom_sig (&rrc->coin_sig),
GNUNET_PQ_query_param_end
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_refresh_revealed_coin",
params);
if (0 > qs)
return qs;
}
{
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&melt_serial_id),
GNUNET_PQ_query_param_auto_from_type (tp),
GNUNET_PQ_query_param_fixed_size (
tprivs,
num_tprivs * sizeof (struct TALER_TransferPrivateKeyP)),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_refresh_transfer_keys",
params);
}
}
/**
* Context where we aggregate data from the database.
* Closure for #add_revealed_coins().
*/
struct GetRevealContext
{
/**
* Array of revealed coins we obtained from the DB.
*/
struct TALER_EXCHANGEDB_RefreshRevealedCoin *rrcs;
/**
* Length of the @a rrcs array.
*/
unsigned int rrcs_len;
/**
* Set to an error code if we ran into trouble.
*/
enum GNUNET_DB_QueryStatus qs;
};
/**
* Function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct GetRevealContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
add_revealed_coins (void *cls,
PGresult *result,
unsigned int num_results)
{
struct GetRevealContext *grctx = cls;
if (0 == num_results)
return;
grctx->rrcs = GNUNET_new_array (num_results,
struct TALER_EXCHANGEDB_RefreshRevealedCoin);
grctx->rrcs_len = num_results;
for (unsigned int i = 0; i < num_results; i++)
{
uint32_t off;
struct GNUNET_PQ_ResultSpec rso[] = {
GNUNET_PQ_result_spec_uint32 ("freshcoin_index",
&off),
GNUNET_PQ_result_spec_end
};
if (GNUNET_OK !=
GNUNET_PQ_extract_result (result,
rso,
i))
{
GNUNET_break (0);
grctx->qs = GNUNET_DB_STATUS_HARD_ERROR;
return;
}
if (off >= num_results)
{
GNUNET_break (0);
grctx->qs = GNUNET_DB_STATUS_HARD_ERROR;
return;
}
{
struct TALER_EXCHANGEDB_RefreshRevealedCoin *rrc = &grctx->rrcs[off];
struct GNUNET_PQ_ResultSpec rsi[] = {
/* NOTE: freshcoin_index selected and discarded here... */
GNUNET_PQ_result_spec_auto_from_type ("denom_pub_hash",
&rrc->h_denom_pub),
GNUNET_PQ_result_spec_auto_from_type ("link_sig",
&rrc->orig_coin_link_sig),
GNUNET_PQ_result_spec_auto_from_type ("h_coin_ev",
&rrc->coin_envelope_hash),
TALER_PQ_result_spec_blinded_planchet ("coin_ev",
&rrc->blinded_planchet),
TALER_PQ_result_spec_exchange_withdraw_values ("ewv",
&rrc->exchange_vals),
TALER_PQ_result_spec_blinded_denom_sig ("ev_sig",
&rrc->coin_sig),
GNUNET_PQ_result_spec_end
};
if (TALER_DENOMINATION_INVALID != rrc->blinded_planchet.cipher)
{
/* duplicate offset, not allowed */
GNUNET_break (0);
grctx->qs = GNUNET_DB_STATUS_HARD_ERROR;
return;
}
if (GNUNET_OK !=
GNUNET_PQ_extract_result (result,
rsi,
i))
{
GNUNET_break (0);
grctx->qs = GNUNET_DB_STATUS_HARD_ERROR;
return;
}
}
}
}
/**
* Lookup in the database the coins that we want to
* create in the given refresh operation.
*
* @param cls the `struct PostgresClosure` with the plugin-specific state
* @param rc identify commitment and thus refresh operation
* @param cb function to call with the results
* @param cb_cls closure for @a cb
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_get_refresh_reveal (void *cls,
const struct TALER_RefreshCommitmentP *rc,
TALER_EXCHANGEDB_RefreshCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GetRevealContext grctx;
enum GNUNET_DB_QueryStatus qs;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (rc),
GNUNET_PQ_query_param_end
};
memset (&grctx,
0,
sizeof (grctx));
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"get_refresh_revealed_coins",
params,
&add_revealed_coins,
&grctx);
switch (qs)
{
case GNUNET_DB_STATUS_HARD_ERROR:
case GNUNET_DB_STATUS_SOFT_ERROR:
case GNUNET_DB_STATUS_SUCCESS_NO_RESULTS:
goto cleanup;
case GNUNET_DB_STATUS_SUCCESS_ONE_RESULT:
default: /* can have more than one result */
break;
}
switch (grctx.qs)
{
case GNUNET_DB_STATUS_HARD_ERROR:
case GNUNET_DB_STATUS_SOFT_ERROR:
goto cleanup;
case GNUNET_DB_STATUS_SUCCESS_NO_RESULTS:
case GNUNET_DB_STATUS_SUCCESS_ONE_RESULT: /* should be impossible */
break;
}
/* Pass result back to application */
cb (cb_cls,
grctx.rrcs_len,
grctx.rrcs);
cleanup:
for (unsigned int i = 0; i < grctx.rrcs_len; i++)
{
struct TALER_EXCHANGEDB_RefreshRevealedCoin *rrc = &grctx.rrcs[i];
TALER_blinded_denom_sig_free (&rrc->coin_sig);
TALER_blinded_planchet_free (&rrc->blinded_planchet);
}
GNUNET_free (grctx.rrcs);
return qs;
}
/**
* Closure for #handle_wt_result.
*/
struct WireTransferResultContext
{
/**
* Function to call on each result.
*/
TALER_EXCHANGEDB_AggregationDataCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Set to #GNUNET_SYSERR on serious errors.
*/
int status;
};
/**
* Function to be called with the results of a SELECT statement
* that has returned @a num_results results. Helper function
* for #postgres_lookup_wire_transfer().
*
* @param cls closure of type `struct WireTransferResultContext *`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
handle_wt_result (void *cls,
PGresult *result,
unsigned int num_results)
{
struct WireTransferResultContext *ctx = cls;
struct PostgresClosure *pg = ctx->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ctx->cb (ctx->cb_cls,
rowid,
&merchant_pub,
payto_uri,
&h_payto,
exec_time,
&h_contract_terms,
&denom_pub,
&coin_pub,
&amount_with_fee,
&deposit_fee);
GNUNET_PQ_cleanup_result (rs);
}
}
/**
* Lookup the list of Taler transactions that were aggregated
* into a wire transfer by the respective @a wtid.
*
* @param cls closure
* @param wtid the raw wire transfer identifier we used
* @param cb function to call on each transaction found
* @param cb_cls closure for @a cb
* @return query status of the transaction
*/
static enum GNUNET_DB_QueryStatus
postgres_lookup_wire_transfer (
void *cls,
const struct TALER_WireTransferIdentifierRawP *wtid,
TALER_EXCHANGEDB_AggregationDataCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (wtid),
GNUNET_PQ_query_param_end
};
struct WireTransferResultContext ctx;
enum GNUNET_DB_QueryStatus qs;
ctx.cb = cb;
ctx.cb_cls = cb_cls;
ctx.pg = pg;
ctx.status = GNUNET_OK;
/* check if the melt record exists and get it */
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"lookup_transactions",
params,
&handle_wt_result,
&ctx);
if (GNUNET_OK != ctx.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Try to find the wire transfer details for a deposit operation.
* If we did not execute the deposit yet, return when it is supposed
* to be executed.
*
* @param cls closure
* @param h_contract_terms hash of the proposal data
* @param h_wire hash of merchant wire details
* @param coin_pub public key of deposited coin
* @param merchant_pub merchant public key
* @param[out] pending set to true if the transaction is still pending
* @param[out] wtid wire transfer identifier, only set if @a pending is false
* @param[out] exec_time when was the transaction done, or
* when we expect it to be done (if @a pending is false)
* @param[out] amount_with_fee set to the total deposited amount
* @param[out] deposit_fee set to how much the exchange did charge for the deposit
* @param[out] kyc set to the kyc status of the receiver (if @a pending)
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_lookup_transfer_by_deposit (
void *cls,
const struct TALER_PrivateContractHashP *h_contract_terms,
const struct TALER_MerchantWireHashP *h_wire,
const struct TALER_CoinSpendPublicKeyP *coin_pub,
const struct TALER_MerchantPublicKeyP *merchant_pub,
bool *pending,
struct TALER_WireTransferIdentifierRawP *wtid,
struct GNUNET_TIME_Timestamp *exec_time,
struct TALER_Amount *amount_with_fee,
struct TALER_Amount *deposit_fee,
struct TALER_EXCHANGEDB_KycStatus *kyc)
{
struct PostgresClosure *pg = cls;
enum GNUNET_DB_QueryStatus qs;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (coin_pub),
GNUNET_PQ_query_param_auto_from_type (h_contract_terms),
GNUNET_PQ_query_param_auto_from_type (merchant_pub),
GNUNET_PQ_query_param_end
};
char *payto_uri;
struct TALER_WireSaltP wire_salt;
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("wtid_raw",
wtid),
GNUNET_PQ_result_spec_auto_from_type ("wire_salt",
&wire_salt),
GNUNET_PQ_result_spec_string ("payto_uri",
&payto_uri),
GNUNET_PQ_result_spec_timestamp ("execution_date",
exec_time),
TALER_PQ_RESULT_SPEC_AMOUNT ("amount_with_fee",
amount_with_fee),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_deposit",
deposit_fee),
GNUNET_PQ_result_spec_end
};
memset (kyc,
0,
sizeof (*kyc));
/* check if the aggregation record exists and get it */
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"lookup_deposit_wtid",
params,
rs);
if (GNUNET_DB_STATUS_SUCCESS_ONE_RESULT == qs)
{
struct TALER_MerchantWireHashP wh;
TALER_merchant_wire_signature_hash (payto_uri,
&wire_salt,
&wh);
GNUNET_PQ_cleanup_result (rs);
if (0 ==
GNUNET_memcmp (&wh,
h_wire))
{
*pending = false;
kyc->ok = true;
return qs;
}
qs = GNUNET_DB_STATUS_SUCCESS_NO_RESULTS;
}
if (0 > qs)
return qs;
*pending = true;
memset (wtid,
0,
sizeof (*wtid));
GNUNET_assert (GNUNET_DB_STATUS_SUCCESS_NO_RESULTS == qs);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"lookup_deposit_wtid returned 0 matching rows\n");
{
/* Check if transaction exists in deposits, so that we just
do not have a WTID yet. In that case, return without wtid
(by setting 'pending' true). */
struct GNUNET_PQ_ResultSpec rs2[] = {
GNUNET_PQ_result_spec_auto_from_type ("wire_salt",
&wire_salt),
GNUNET_PQ_result_spec_string ("payto_uri",
&payto_uri),
GNUNET_PQ_result_spec_allow_null (
GNUNET_PQ_result_spec_uint64 ("legitimization_requirement_serial_id",
&kyc->requirement_row),
NULL),
TALER_PQ_RESULT_SPEC_AMOUNT ("amount_with_fee",
amount_with_fee),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_deposit",
deposit_fee),
GNUNET_PQ_result_spec_timestamp ("wire_deadline",
exec_time),
GNUNET_PQ_result_spec_end
};
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_deposit_without_wtid",
params,
rs2);
if (GNUNET_DB_STATUS_SUCCESS_ONE_RESULT == qs)
{
struct TALER_MerchantWireHashP wh;
if (0 == kyc->requirement_row)
kyc->ok = true; /* technically: unknown */
TALER_merchant_wire_signature_hash (payto_uri,
&wire_salt,
&wh);
GNUNET_PQ_cleanup_result (rs);
if (0 !=
GNUNET_memcmp (&wh,
h_wire))
return GNUNET_DB_STATUS_SUCCESS_NO_RESULTS;
}
return qs;
}
}
/**
* Obtain wire fee from database.
*
* @param cls closure
* @param type type of wire transfer the fee applies for
* @param date for which date do we want the fee?
* @param[out] start_date when does the fee go into effect
* @param[out] end_date when does the fee end being valid
* @param[out] fees how high are the wire fees
* @param[out] master_sig signature over the above by the exchange master key
* @return status of the transaction
*/
static enum GNUNET_DB_QueryStatus
postgres_get_wire_fee (void *cls,
const char *type,
struct GNUNET_TIME_Timestamp date,
struct GNUNET_TIME_Timestamp *start_date,
struct GNUNET_TIME_Timestamp *end_date,
struct TALER_WireFeeSet *fees,
struct TALER_MasterSignatureP *master_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (type),
GNUNET_PQ_query_param_timestamp (&date),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_timestamp ("start_date",
start_date),
GNUNET_PQ_result_spec_timestamp ("end_date",
end_date),
TALER_PQ_RESULT_SPEC_AMOUNT ("wire_fee",
&fees->wire),
TALER_PQ_RESULT_SPEC_AMOUNT ("closing_fee",
&fees->closing),
GNUNET_PQ_result_spec_auto_from_type ("master_sig",
master_sig),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_wire_fee",
params,
rs);
}
/**
* Obtain global fees from database.
*
* @param cls closure
* @param date for which date do we want the fee?
* @param[out] start_date when does the fee go into effect
* @param[out] end_date when does the fee end being valid
* @param[out] fees how high are the wire fees
* @param[out] purse_timeout set to how long we keep unmerged purses
* @param[out] history_expiration set to how long we keep account histories
* @param[out] purse_account_limit set to the number of free purses per account
* @param[out] master_sig signature over the above by the exchange master key
* @return status of the transaction
*/
static enum GNUNET_DB_QueryStatus
postgres_get_global_fee (void *cls,
struct GNUNET_TIME_Timestamp date,
struct GNUNET_TIME_Timestamp *start_date,
struct GNUNET_TIME_Timestamp *end_date,
struct TALER_GlobalFeeSet *fees,
struct GNUNET_TIME_Relative *purse_timeout,
struct GNUNET_TIME_Relative *history_expiration,
uint32_t *purse_account_limit,
struct TALER_MasterSignatureP *master_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_timestamp (&date),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_timestamp ("start_date",
start_date),
GNUNET_PQ_result_spec_timestamp ("end_date",
end_date),
TALER_PQ_RESULT_SPEC_AMOUNT ("history_fee",
&fees->history),
TALER_PQ_RESULT_SPEC_AMOUNT ("account_fee",
&fees->account),
TALER_PQ_RESULT_SPEC_AMOUNT ("purse_fee",
&fees->purse),
GNUNET_PQ_result_spec_relative_time ("purse_timeout",
purse_timeout),
GNUNET_PQ_result_spec_relative_time ("history_expiration",
history_expiration),
GNUNET_PQ_result_spec_uint32 ("purse_account_limit",
purse_account_limit),
GNUNET_PQ_result_spec_auto_from_type ("master_sig",
master_sig),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_global_fee",
params,
rs);
}
/**
* Closure for #global_fees_cb().
*/
struct GlobalFeeContext
{
/**
* Function to call for each global fee block.
*/
TALER_EXCHANGEDB_GlobalFeeCallback cb;
/**
* Closure to give to @e rec.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Set to #GNUNET_SYSERR on error.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
global_fees_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct GlobalFeeContext *gctx = cls;
struct PostgresClosure *pg = gctx->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
break;
}
gctx->cb (gctx->cb_cls,
&fees,
purse_timeout,
history_expiration,
purse_account_limit,
start_date,
end_date,
&master_sig);
GNUNET_PQ_cleanup_result (rs);
}
}
/**
* Obtain global fees from database.
*
* @param cls closure
* @param cb function to call on each fee entry
* @param cb_cls closure for @a cb
* @return status of the transaction
*/
static enum GNUNET_DB_QueryStatus
postgres_get_global_fees (void *cls,
TALER_EXCHANGEDB_GlobalFeeCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_TIME_Timestamp date
= GNUNET_TIME_absolute_to_timestamp (
GNUNET_TIME_absolute_subtract (
GNUNET_TIME_absolute_get (),
GNUNET_TIME_UNIT_YEARS));
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_timestamp (&date),
GNUNET_PQ_query_param_end
};
struct GlobalFeeContext gctx = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
return GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"get_global_fees",
params,
&global_fees_cb,
&gctx);
}
/**
* Insert wire transfer fee into database.
*
* @param cls closure
* @param type type of wire transfer this fee applies for
* @param start_date when does the fee go into effect
* @param end_date when does the fee end being valid
* @param fees how high are the wire fees
* @param master_sig signature over the above by the exchange master key
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_wire_fee (void *cls,
const char *type,
struct GNUNET_TIME_Timestamp start_date,
struct GNUNET_TIME_Timestamp end_date,
const struct TALER_WireFeeSet *fees,
const struct TALER_MasterSignatureP *master_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (type),
GNUNET_PQ_query_param_timestamp (&start_date),
GNUNET_PQ_query_param_timestamp (&end_date),
TALER_PQ_query_param_amount (&fees->wire),
TALER_PQ_query_param_amount (&fees->closing),
GNUNET_PQ_query_param_auto_from_type (master_sig),
GNUNET_PQ_query_param_end
};
struct TALER_WireFeeSet wx;
struct TALER_MasterSignatureP sig;
struct GNUNET_TIME_Timestamp sd;
struct GNUNET_TIME_Timestamp ed;
enum GNUNET_DB_QueryStatus qs;
qs = postgres_get_wire_fee (pg,
type,
start_date,
&sd,
&ed,
&wx,
&sig);
if (qs < 0)
return qs;
if (GNUNET_DB_STATUS_SUCCESS_ONE_RESULT == qs)
{
if (0 != GNUNET_memcmp (&sig,
master_sig))
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
if (0 !=
TALER_wire_fee_set_cmp (fees,
&wx))
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
if ( (GNUNET_TIME_timestamp_cmp (sd,
!=,
start_date)) ||
(GNUNET_TIME_timestamp_cmp (ed,
!=,
end_date)) )
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
/* equal record already exists */
return GNUNET_DB_STATUS_SUCCESS_NO_RESULTS;
}
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_wire_fee",
params);
}
/**
* Insert global fee data into database.
*
* @param cls closure
* @param start_date when does the fees go into effect
* @param end_date when does the fees end being valid
* @param fees how high is are the global fees
* @param purse_timeout when do purses time out
* @param history_expiration how long are account histories preserved
* @param purse_account_limit how many purses are free per account
* @param master_sig signature over the above by the exchange master key
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_global_fee (void *cls,
struct GNUNET_TIME_Timestamp start_date,
struct GNUNET_TIME_Timestamp end_date,
const struct TALER_GlobalFeeSet *fees,
struct GNUNET_TIME_Relative purse_timeout,
struct GNUNET_TIME_Relative history_expiration,
uint32_t purse_account_limit,
const struct TALER_MasterSignatureP *master_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_timestamp (&start_date),
GNUNET_PQ_query_param_timestamp (&end_date),
TALER_PQ_query_param_amount (&fees->history),
TALER_PQ_query_param_amount (&fees->account),
TALER_PQ_query_param_amount (&fees->purse),
GNUNET_PQ_query_param_relative_time (&purse_timeout),
GNUNET_PQ_query_param_relative_time (&history_expiration),
GNUNET_PQ_query_param_uint32 (&purse_account_limit),
GNUNET_PQ_query_param_auto_from_type (master_sig),
GNUNET_PQ_query_param_end
};
struct TALER_GlobalFeeSet wx;
struct TALER_MasterSignatureP sig;
struct GNUNET_TIME_Timestamp sd;
struct GNUNET_TIME_Timestamp ed;
enum GNUNET_DB_QueryStatus qs;
struct GNUNET_TIME_Relative pt;
struct GNUNET_TIME_Relative he;
uint32_t pal;
qs = postgres_get_global_fee (pg,
start_date,
&sd,
&ed,
&wx,
&pt,
&he,
&pal,
&sig);
if (qs < 0)
return qs;
if (GNUNET_DB_STATUS_SUCCESS_ONE_RESULT == qs)
{
if (0 != GNUNET_memcmp (&sig,
master_sig))
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
if (0 !=
TALER_global_fee_set_cmp (fees,
&wx))
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
if ( (GNUNET_TIME_timestamp_cmp (sd,
!=,
start_date)) ||
(GNUNET_TIME_timestamp_cmp (ed,
!=,
end_date)) )
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
if ( (GNUNET_TIME_relative_cmp (purse_timeout,
!=,
pt)) ||
(GNUNET_TIME_relative_cmp (history_expiration,
!=,
he)) )
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
if (purse_account_limit != pal)
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
/* equal record already exists */
return GNUNET_DB_STATUS_SUCCESS_NO_RESULTS;
}
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_global_fee",
params);
}
/**
* Insert reserve close operation into database.
*
* @param cls closure
* @param reserve_pub which reserve is this about?
* @param execution_date when did we perform the transfer?
* @param receiver_account to which account do we transfer?
* @param wtid wire transfer details
* @param amount_with_fee amount we charged to the reserve
* @param closing_fee how high is the closing fee
* @param close_request_row identifies explicit close request, 0 for none
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_reserve_closed (
void *cls,
const struct TALER_ReservePublicKeyP *reserve_pub,
struct GNUNET_TIME_Timestamp execution_date,
const char *receiver_account,
const struct TALER_WireTransferIdentifierRawP *wtid,
const struct TALER_Amount *amount_with_fee,
const struct TALER_Amount *closing_fee,
uint64_t close_request_row)
{
struct PostgresClosure *pg = cls;
struct TALER_EXCHANGEDB_Reserve reserve;
enum GNUNET_DB_QueryStatus qs;
struct TALER_PaytoHashP h_payto;
TALER_payto_hash (receiver_account,
&h_payto);
{
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (reserve_pub),
GNUNET_PQ_query_param_timestamp (&execution_date),
GNUNET_PQ_query_param_auto_from_type (wtid),
GNUNET_PQ_query_param_auto_from_type (&h_payto),
TALER_PQ_query_param_amount (amount_with_fee),
TALER_PQ_query_param_amount (closing_fee),
GNUNET_PQ_query_param_uint64 (&close_request_row),
GNUNET_PQ_query_param_end
};
qs = GNUNET_PQ_eval_prepared_non_select (pg->conn,
"reserves_close_insert",
params);
}
if (GNUNET_DB_STATUS_SUCCESS_ONE_RESULT != qs)
return qs;
/* update reserve balance */
reserve.pub = *reserve_pub;
if (GNUNET_DB_STATUS_SUCCESS_ONE_RESULT !=
(qs = postgres_reserves_get (cls,
&reserve)))
{
/* Existence should have been checked before we got here... */
GNUNET_break (GNUNET_DB_STATUS_SOFT_ERROR == qs);
if (GNUNET_DB_STATUS_SUCCESS_NO_RESULTS == qs)
qs = GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
{
enum TALER_AmountArithmeticResult ret;
ret = TALER_amount_subtract (&reserve.balance,
&reserve.balance,
amount_with_fee);
if (ret < 0)
{
/* The reserve history was checked to make sure there is enough of a balance
left before we tried this; however, concurrent operations may have changed
the situation by now. We should re-try the transaction. */
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
"Closing of reserve `%s' refused due to balance mismatch. Retrying.\n",
TALER_B2S (reserve_pub));
return GNUNET_DB_STATUS_HARD_ERROR;
}
GNUNET_break (TALER_AAR_RESULT_ZERO == ret);
}
return reserves_update (cls,
&reserve);
}
/**
* Function called to insert wire transfer commit data into the DB.
*
* @param cls closure
* @param type type of the wire transfer (i.e. "iban")
* @param buf buffer with wire transfer preparation data
* @param buf_size number of bytes in @a buf
* @return query status code
*/
static enum GNUNET_DB_QueryStatus
postgres_wire_prepare_data_insert (void *cls,
const char *type,
const char *buf,
size_t buf_size)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (type),
GNUNET_PQ_query_param_fixed_size (buf, buf_size),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"wire_prepare_data_insert",
params);
}
/**
* Function called to mark wire transfer commit data as finished.
*
* @param cls closure
* @param rowid which entry to mark as finished
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_wire_prepare_data_mark_finished (
void *cls,
uint64_t rowid)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&rowid),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"wire_prepare_data_mark_done",
params);
}
/**
* Function called to mark wire transfer commit data as failed.
*
* @param cls closure
* @param rowid which entry to mark as failed
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_wire_prepare_data_mark_failed (
void *cls,
uint64_t rowid)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&rowid),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"wire_prepare_data_mark_failed",
params);
}
/**
* Closure for #prewire_cb().
*/
struct PrewireContext
{
/**
* Function to call on each result.
*/
TALER_EXCHANGEDB_WirePreparationIterator cb;
/**
* Closure for @a cb.
*/
void *cb_cls;
/**
* #GNUNET_OK if everything went fine.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Invoke the callback for each result.
*
* @param cls a `struct MissingWireContext *`
* @param result SQL result
* @param num_results number of rows in @a result
*/
static void
prewire_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct PrewireContext *pc = cls;
for (unsigned int i = 0; i < num_results; i++)
{
uint64_t prewire_uuid;
char *wire_method;
void *buf = NULL;
size_t buf_size;
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_uint64 ("prewire_uuid",
&prewire_uuid),
GNUNET_PQ_result_spec_string ("wire_method",
&wire_method),
GNUNET_PQ_result_spec_variable_size ("buf",
&buf,
&buf_size),
GNUNET_PQ_result_spec_end
};
if (GNUNET_OK !=
GNUNET_PQ_extract_result (result,
rs,
i))
{
GNUNET_break (0);
pc->status = GNUNET_SYSERR;
return;
}
pc->cb (pc->cb_cls,
prewire_uuid,
wire_method,
buf,
buf_size);
GNUNET_PQ_cleanup_result (rs);
}
}
/**
* Function called to get an unfinished wire transfer
* preparation data. Fetches at most one item.
*
* @param cls closure
* @param start_row offset to query table at
* @param limit maximum number of results to return
* @param cb function to call for ONE unfinished item
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_wire_prepare_data_get (void *cls,
uint64_t start_row,
uint64_t limit,
TALER_EXCHANGEDB_WirePreparationIterator cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&start_row),
GNUNET_PQ_query_param_uint64 (&limit),
GNUNET_PQ_query_param_end
};
struct PrewireContext pc = {
.cb = cb,
.cb_cls = cb_cls,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"wire_prepare_data_get",
params,
&prewire_cb,
&pc);
if (GNUNET_OK != pc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Starts a READ COMMITTED transaction where we transiently violate the foreign
* constraints on the "wire_out" table as we insert aggregations
* and only add the wire transfer out at the end.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @return #GNUNET_OK on success
*/
static enum GNUNET_GenericReturnValue
postgres_start_deferred_wire_out (void *cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_ExecuteStatement es[] = {
GNUNET_PQ_make_execute (
"START TRANSACTION ISOLATION LEVEL READ COMMITTED;"),
GNUNET_PQ_make_execute ("SET CONSTRAINTS ALL DEFERRED;"),
GNUNET_PQ_EXECUTE_STATEMENT_END
};
if (GNUNET_SYSERR ==
TEH_PG_preflight (pg))
return GNUNET_SYSERR;
if (GNUNET_OK !=
GNUNET_PQ_exec_statements (pg->conn,
es))
{
TALER_LOG_ERROR (
"Failed to defer wire_out_ref constraint on transaction\n");
GNUNET_break (0);
TEH_PG_rollback (pg);
return GNUNET_SYSERR;
}
pg->transaction_name = "deferred wire out";
GNUNET_log (GNUNET_ERROR_TYPE_INFO,
"Starting READ COMMITTED DEFERRED transaction `%s'\n",
pg->transaction_name);
return GNUNET_OK;
}
/**
* Store information about an outgoing wire transfer that was executed.
*
* @param cls closure
* @param date time of the wire transfer
* @param wtid subject of the wire transfer
* @param h_payto identifies the receiver account of the wire transfer
* @param exchange_account_section configuration section of the exchange specifying the
* exchange's bank account being used
* @param amount amount that was transmitted
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_store_wire_transfer_out (
void *cls,
struct GNUNET_TIME_Timestamp date,
const struct TALER_WireTransferIdentifierRawP *wtid,
const struct TALER_PaytoHashP *h_payto,
const char *exchange_account_section,
const struct TALER_Amount *amount)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_timestamp (&date),
GNUNET_PQ_query_param_auto_from_type (wtid),
GNUNET_PQ_query_param_auto_from_type (h_payto),
GNUNET_PQ_query_param_string (exchange_account_section),
TALER_PQ_query_param_amount (amount),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_wire_out",
params);
}
/**
* Function called to perform "garbage collection" on the
* database, expiring records we no longer require.
*
* @param cls closure
* @return #GNUNET_OK on success,
* #GNUNET_SYSERR on DB errors
*/
static enum GNUNET_GenericReturnValue
postgres_gc (void *cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_TIME_Absolute now = GNUNET_TIME_absolute_get ();
struct GNUNET_TIME_Absolute long_ago;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_absolute_time (&long_ago),
GNUNET_PQ_query_param_absolute_time (&now),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_Context *conn;
enum GNUNET_GenericReturnValue ret;
/* Keep wire fees for 10 years, that should always
be enough _and_ they are tiny so it does not
matter to make this tight */
long_ago = GNUNET_TIME_absolute_subtract (
now,
GNUNET_TIME_relative_multiply (
GNUNET_TIME_UNIT_YEARS,
10));
{
struct GNUNET_PQ_ExecuteStatement es[] = {
GNUNET_PQ_make_try_execute ("SET search_path TO exchange;"),
GNUNET_PQ_EXECUTE_STATEMENT_END
};
struct GNUNET_PQ_PreparedStatement ps[] = {
/* Used in #postgres_gc() */
GNUNET_PQ_make_prepare ("run_gc",
"CALL"
" exchange_do_gc"
" ($1,$2);"),
GNUNET_PQ_PREPARED_STATEMENT_END
};
conn = GNUNET_PQ_connect_with_cfg (pg->cfg,
"exchangedb-postgres",
NULL,
es,
ps);
}
if (NULL == conn)
return GNUNET_SYSERR;
ret = GNUNET_OK;
if (0 > GNUNET_PQ_eval_prepared_non_select (conn,
"run_gc",
params))
ret = GNUNET_SYSERR;
GNUNET_PQ_disconnect (conn);
return ret;
}
/**
* Closure for #deposit_serial_helper_cb().
*/
struct DepositSerialContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_DepositCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct DepositSerialContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
deposit_serial_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct DepositSerialContext *dsc = cls;
struct PostgresClosure *pg = dsc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ret = dsc->cb (dsc->cb_cls,
rowid,
exchange_timestamp,
&deposit,
&denom_pub,
done);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Select deposits above @a serial_id in monotonically increasing
* order.
*
* @param cls closure
* @param serial_id highest serial ID to exclude (select strictly larger)
* @param cb function to call on each result
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_deposits_above_serial_id (
void *cls,
uint64_t serial_id,
TALER_EXCHANGEDB_DepositCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_end
};
struct DepositSerialContext dsc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_get_deposits_incr",
params,
&deposit_serial_helper_cb,
&dsc);
if (GNUNET_OK != dsc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #purse_deposit_serial_helper_cb().
*/
struct HistoryRequestSerialContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_HistoryRequestCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct HistoryRequestSerialContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
history_request_serial_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct HistoryRequestSerialContext *dsc = cls;
struct PostgresClosure *pg = dsc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ret = dsc->cb (dsc->cb_cls,
rowid,
&history_fee,
ts,
&reserve_pub,
&reserve_sig);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Select history requests above @a serial_id in monotonically increasing
* order.
*
* @param cls closure
* @param serial_id highest serial ID to exclude (select strictly larger)
* @param cb function to call on each result
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_history_requests_above_serial_id (
void *cls,
uint64_t serial_id,
TALER_EXCHANGEDB_HistoryRequestCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_end
};
struct HistoryRequestSerialContext dsc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_get_history_requests_incr",
params,
&history_request_serial_helper_cb,
&dsc);
if (GNUNET_OK != dsc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #purse_decision_serial_helper_cb().
*/
struct PurseDecisionSerialContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_PurseDecisionCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct PurseRefundSerialContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
purse_decision_serial_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct PurseDecisionSerialContext *dsc = cls;
struct PostgresClosure *pg = dsc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ret = dsc->cb (dsc->cb_cls,
rowid,
&purse_pub,
no_reserve ? NULL : &reserve_pub,
&val);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Select purse decisions above @a serial_id in monotonically increasing
* order.
*
* @param cls closure
* @param serial_id highest serial ID to exclude (select strictly larger)
* @param refunded which refund status to select for
* @param cb function to call on each result
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_purse_decisions_above_serial_id (
void *cls,
uint64_t serial_id,
bool refunded,
TALER_EXCHANGEDB_PurseDecisionCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_bool (refunded),
GNUNET_PQ_query_param_end
};
struct PurseDecisionSerialContext dsc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_get_purse_decisions_incr",
params,
&purse_decision_serial_helper_cb,
&dsc);
if (GNUNET_OK != dsc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #purse_refund_coin_helper_cb().
*/
struct PurseRefundCoinContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_PurseRefundCoinCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct PurseRefundCoinContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
purse_refund_coin_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct PurseRefundCoinContext *dsc = cls;
struct PostgresClosure *pg = dsc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ret = dsc->cb (dsc->cb_cls,
rowid,
&amount_with_fee,
&coin_pub,
&denom_pub);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Select coin affected by purse refund.
*
* @param cls closure
* @param purse_pub purse that was refunded
* @param cb function to call on each result
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_purse_deposits_by_purse (
void *cls,
const struct TALER_PurseContractPublicKeyP *purse_pub,
TALER_EXCHANGEDB_PurseRefundCoinCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (purse_pub),
GNUNET_PQ_query_param_end
};
struct PurseRefundCoinContext dsc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_get_purse_deposits_by_purse",
params,
&purse_refund_coin_helper_cb,
&dsc);
if (GNUNET_OK != dsc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #refreshs_serial_helper_cb().
*/
struct RefreshsSerialContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_RefreshesCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct RefreshsSerialContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
refreshs_serial_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct RefreshsSerialContext *rsc = cls;
struct PostgresClosure *pg = rsc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ret = rsc->cb (rsc->cb_cls,
rowid,
&denom_pub,
ac_isnull ? NULL : &h_age_commitment,
&coin_pub,
&coin_sig,
&amount_with_fee,
noreveal_index,
&rc);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Select refresh sessions above @a serial_id in monotonically increasing
* order.
*
* @param cls closure
* @param serial_id highest serial ID to exclude (select strictly larger)
* @param cb function to call on each result
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_refreshes_above_serial_id (
void *cls,
uint64_t serial_id,
TALER_EXCHANGEDB_RefreshesCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_end
};
struct RefreshsSerialContext rsc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_get_refresh_commitments_incr",
params,
&refreshs_serial_helper_cb,
&rsc);
if (GNUNET_OK != rsc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #refunds_serial_helper_cb().
*/
struct RefundsSerialContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_RefundCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct RefundsSerialContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
refunds_serial_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct RefundsSerialContext *rsc = cls;
struct PostgresClosure *pg = rsc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
{
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&rowid),
GNUNET_PQ_query_param_end
};
struct TALER_Amount amount_with_fee;
uint64_t s_f;
uint64_t s_v;
struct GNUNET_PQ_ResultSpec rs2[] = {
GNUNET_PQ_result_spec_uint64 ("s_v",
&s_v),
GNUNET_PQ_result_spec_uint64 ("s_f",
&s_f),
TALER_PQ_RESULT_SPEC_AMOUNT ("amount_with_fee",
&amount_with_fee),
GNUNET_PQ_result_spec_end
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_singleton_select (
pg->conn,
"test_refund_full",
params,
rs2);
if (qs <= 0)
{
GNUNET_break (0);
rsc->status = GNUNET_SYSERR;
return;
}
/* normalize */
s_v += s_f / TALER_AMOUNT_FRAC_BASE;
s_f %= TALER_AMOUNT_FRAC_BASE;
full_refund = (s_v >= amount_with_fee.value) &&
(s_f >= amount_with_fee.fraction);
}
ret = rsc->cb (rsc->cb_cls,
rowid,
&denom_pub,
&refund.coin.coin_pub,
&refund.details.merchant_pub,
&refund.details.merchant_sig,
&refund.details.h_contract_terms,
refund.details.rtransaction_id,
full_refund,
&refund.details.refund_amount);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Select refunds above @a serial_id in monotonically increasing
* order.
*
* @param cls closure
* @param serial_id highest serial ID to exclude (select strictly larger)
* @param cb function to call on each result
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_refunds_above_serial_id (
void *cls,
uint64_t serial_id,
TALER_EXCHANGEDB_RefundCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_end
};
struct RefundsSerialContext rsc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_get_refunds_incr",
params,
&refunds_serial_helper_cb,
&rsc);
if (GNUNET_OK != rsc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #reserves_in_serial_helper_cb().
*/
struct ReservesInSerialContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_ReserveInCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct ReservesInSerialContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
reserves_in_serial_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct ReservesInSerialContext *risc = cls;
struct PostgresClosure *pg = risc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ret = risc->cb (risc->cb_cls,
rowid,
&reserve_pub,
&credit,
sender_account_details,
wire_reference,
execution_date);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Select inbound wire transfers into reserves_in above @a serial_id
* in monotonically increasing order.
*
* @param cls closure
* @param serial_id highest serial ID to exclude (select strictly larger)
* @param cb function to call on each result
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_reserves_in_above_serial_id (
void *cls,
uint64_t serial_id,
TALER_EXCHANGEDB_ReserveInCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_end
};
struct ReservesInSerialContext risc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_reserves_in_get_transactions_incr",
params,
&reserves_in_serial_helper_cb,
&risc);
if (GNUNET_OK != risc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Select inbound wire transfers into reserves_in above @a serial_id
* in monotonically increasing order by account.
*
* @param cls closure
* @param account_name name of the account to select by
* @param serial_id highest serial ID to exclude (select strictly larger)
* @param cb function to call on each result
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_reserves_in_above_serial_id_by_account (
void *cls,
const char *account_name,
uint64_t serial_id,
TALER_EXCHANGEDB_ReserveInCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_string (account_name),
GNUNET_PQ_query_param_end
};
struct ReservesInSerialContext risc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_reserves_in_get_transactions_incr_by_account",
params,
&reserves_in_serial_helper_cb,
&risc);
if (GNUNET_OK != risc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #reserves_out_serial_helper_cb().
*/
struct ReservesOutSerialContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_WithdrawCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct ReservesOutSerialContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
reserves_out_serial_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct ReservesOutSerialContext *rosc = cls;
struct PostgresClosure *pg = rosc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ret = rosc->cb (rosc->cb_cls,
rowid,
&h_blind_ev,
&denom_pub,
&reserve_pub,
&reserve_sig,
execution_date,
&amount_with_fee);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Select withdraw operations from reserves_out above @a serial_id
* in monotonically increasing order.
*
* @param cls closure
* @param serial_id highest serial ID to exclude (select strictly larger)
* @param cb function to call on each result
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_withdrawals_above_serial_id (
void *cls,
uint64_t serial_id,
TALER_EXCHANGEDB_WithdrawCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_end
};
struct ReservesOutSerialContext rosc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_get_reserves_out_incr",
params,
&reserves_out_serial_helper_cb,
&rosc);
if (GNUNET_OK != rosc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #wire_out_serial_helper_cb().
*/
struct WireOutSerialContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_WireTransferOutCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
int status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct WireOutSerialContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
wire_out_serial_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct WireOutSerialContext *wosc = cls;
struct PostgresClosure *pg = wosc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ret = wosc->cb (wosc->cb_cls,
rowid,
date,
&wtid,
payto_uri,
&amount);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Function called to select all wire transfers the exchange
* executed.
*
* @param cls closure
* @param serial_id highest serial ID to exclude (select strictly larger)
* @param cb function to call for ONE unfinished item
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_wire_out_above_serial_id (
void *cls,
uint64_t serial_id,
TALER_EXCHANGEDB_WireTransferOutCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_end
};
struct WireOutSerialContext wosc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_get_wire_incr",
params,
&wire_out_serial_helper_cb,
&wosc);
if (GNUNET_OK != wosc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Function called to select all wire transfers the exchange
* executed by account.
*
* @param cls closure
* @param account_name account to select
* @param serial_id highest serial ID to exclude (select strictly larger)
* @param cb function to call for ONE unfinished item
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_wire_out_above_serial_id_by_account (
void *cls,
const char *account_name,
uint64_t serial_id,
TALER_EXCHANGEDB_WireTransferOutCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_string (account_name),
GNUNET_PQ_query_param_end
};
struct WireOutSerialContext wosc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"audit_get_wire_incr_by_account",
params,
&wire_out_serial_helper_cb,
&wosc);
if (GNUNET_OK != wosc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #recoup_serial_helper_cb().
*/
struct RecoupSerialContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_RecoupCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct RecoupSerialContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
recoup_serial_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct RecoupSerialContext *psc = cls;
struct PostgresClosure *pg = psc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ret = psc->cb (psc->cb_cls,
rowid,
timestamp,
&amount,
&reserve_pub,
&coin,
&denom_pub,
&coin_sig,
&coin_blind);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Function called to select recoup requests the exchange
* received, ordered by serial ID (monotonically increasing).
*
* @param cls closure
* @param serial_id lowest serial ID to include (select larger or equal)
* @param cb function to call for ONE unfinished item
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_recoup_above_serial_id (
void *cls,
uint64_t serial_id,
TALER_EXCHANGEDB_RecoupCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_end
};
struct RecoupSerialContext psc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"recoup_get_incr",
params,
&recoup_serial_helper_cb,
&psc);
if (GNUNET_OK != psc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #recoup_refresh_serial_helper_cb().
*/
struct RecoupRefreshSerialContext
{
/**
* Callback to call.
*/
TALER_EXCHANGEDB_RecoupRefreshCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Status code, set to #GNUNET_SYSERR on hard errors.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Helper function to be called with the results of a SELECT statement
* that has returned @a num_results results.
*
* @param cls closure of type `struct RecoupRefreshSerialContext`
* @param result the postgres result
* @param num_results the number of results in @a result
*/
static void
recoup_refresh_serial_helper_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct RecoupRefreshSerialContext *psc = cls;
struct PostgresClosure *pg = psc->pg;
for (unsigned int i = 0; istatus = GNUNET_SYSERR;
return;
}
ret = psc->cb (psc->cb_cls,
rowid,
timestamp,
&amount,
&old_coin_pub,
&old_denom_pub_hash,
&coin,
&denom_pub,
&coin_sig,
&coin_blind);
GNUNET_PQ_cleanup_result (rs);
if (GNUNET_OK != ret)
break;
}
}
/**
* Function called to select recoup requests the exchange received for
* refreshed coins, ordered by serial ID (monotonically increasing).
*
* @param cls closure
* @param serial_id lowest serial ID to include (select larger or equal)
* @param cb function to call for ONE unfinished item
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_recoup_refresh_above_serial_id (
void *cls,
uint64_t serial_id,
TALER_EXCHANGEDB_RecoupRefreshCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_uint64 (&serial_id),
GNUNET_PQ_query_param_end
};
struct RecoupRefreshSerialContext psc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"recoup_refresh_get_incr",
params,
&recoup_refresh_serial_helper_cb,
&psc);
if (GNUNET_OK != psc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Obtain information about which reserve a coin was generated
* from given the hash of the blinded coin.
*
* @param cls closure
* @param bch hash that uniquely identifies the withdraw request
* @param[out] reserve_pub set to information about the reserve (on success only)
* @param[out] reserve_out_serial_id set to row of the @a h_blind_ev in reserves_out
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_get_reserve_by_h_blind (
void *cls,
const struct TALER_BlindedCoinHashP *bch,
struct TALER_ReservePublicKeyP *reserve_pub,
uint64_t *reserve_out_serial_id)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (bch),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("reserve_pub",
reserve_pub),
GNUNET_PQ_result_spec_uint64 ("reserve_out_serial_id",
reserve_out_serial_id),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"reserve_by_h_blind",
params,
rs);
}
/**
* Obtain information about which old coin a coin was refreshed
* given the hash of the blinded (fresh) coin.
*
* @param cls closure
* @param h_blind_ev hash of the blinded coin
* @param[out] old_coin_pub set to information about the old coin (on success only)
* @param[out] rrc_serial set to serial number of the entry in the database
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_get_old_coin_by_h_blind (
void *cls,
const struct TALER_BlindedCoinHashP *h_blind_ev,
struct TALER_CoinSpendPublicKeyP *old_coin_pub,
uint64_t *rrc_serial)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (h_blind_ev),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("old_coin_pub",
old_coin_pub),
GNUNET_PQ_result_spec_uint64 ("rrc_serial",
rrc_serial),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"old_coin_by_h_blind",
params,
rs);
}
/**
* Store information that a denomination key was revoked
* in the database.
*
* @param cls closure
* @param denom_pub_hash hash of the revoked denomination key
* @param master_sig signature affirming the revocation
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_denomination_revocation (
void *cls,
const struct TALER_DenominationHashP *denom_pub_hash,
const struct TALER_MasterSignatureP *master_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (denom_pub_hash),
GNUNET_PQ_query_param_auto_from_type (master_sig),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"denomination_revocation_insert",
params);
}
/**
* Obtain information about a denomination key's revocation from
* the database.
*
* @param cls closure
* @param denom_pub_hash hash of the revoked denomination key
* @param[out] master_sig signature affirming the revocation
* @param[out] rowid row where the information is stored
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_get_denomination_revocation (
void *cls,
const struct TALER_DenominationHashP *denom_pub_hash,
struct TALER_MasterSignatureP *master_sig,
uint64_t *rowid)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (denom_pub_hash),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("master_sig",
master_sig),
GNUNET_PQ_result_spec_uint64 ("denom_revocations_serial_id",
rowid),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"denomination_revocation_get",
params,
rs);
}
/**
* Closure for #missing_wire_cb().
*/
struct MissingWireContext
{
/**
* Function to call per result.
*/
TALER_EXCHANGEDB_WireMissingCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Set to #GNUNET_SYSERR on error.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Invoke the callback for each result.
*
* @param cls a `struct MissingWireContext *`
* @param result SQL result
* @param num_results number of rows in @a result
*/
static void
missing_wire_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct MissingWireContext *mwc = cls;
struct PostgresClosure *pg = mwc->pg;
while (0 < num_results)
{
uint64_t rowid;
struct TALER_CoinSpendPublicKeyP coin_pub;
struct TALER_Amount amount;
char *payto_uri;
struct GNUNET_TIME_Timestamp deadline;
bool done;
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_uint64 ("deposit_serial_id",
&rowid),
GNUNET_PQ_result_spec_auto_from_type ("coin_pub",
&coin_pub),
TALER_PQ_RESULT_SPEC_AMOUNT ("amount_with_fee",
&amount),
GNUNET_PQ_result_spec_string ("payto_uri",
&payto_uri),
GNUNET_PQ_result_spec_timestamp ("wire_deadline",
&deadline),
GNUNET_PQ_result_spec_bool ("done",
&done),
GNUNET_PQ_result_spec_end
};
if (GNUNET_OK !=
GNUNET_PQ_extract_result (result,
rs,
--num_results))
{
GNUNET_break (0);
mwc->status = GNUNET_SYSERR;
return;
}
mwc->cb (mwc->cb_cls,
rowid,
&coin_pub,
&amount,
payto_uri,
deadline,
done);
GNUNET_PQ_cleanup_result (rs);
}
}
/**
* Select all of those deposits in the database for which we do
* not have a wire transfer (or a refund) and which should have
* been deposited between @a start_date and @a end_date.
*
* @param cls closure
* @param start_date lower bound on the requested wire execution date
* @param end_date upper bound on the requested wire execution date
* @param cb function to call on all such deposits
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_deposits_missing_wire (void *cls,
struct GNUNET_TIME_Timestamp start_date,
struct GNUNET_TIME_Timestamp end_date,
TALER_EXCHANGEDB_WireMissingCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_timestamp (&start_date),
GNUNET_PQ_query_param_timestamp (&end_date),
GNUNET_PQ_query_param_end
};
struct MissingWireContext mwc = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"deposits_get_overdue",
params,
&missing_wire_cb,
&mwc);
if (GNUNET_OK != mwc.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Check the last date an auditor was modified.
*
* @param cls closure
* @param auditor_pub key to look up information for
* @param[out] last_date last modification date to auditor status
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_lookup_auditor_timestamp (
void *cls,
const struct TALER_AuditorPublicKeyP *auditor_pub,
struct GNUNET_TIME_Timestamp *last_date)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (auditor_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_timestamp ("last_change",
last_date),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"lookup_auditor_timestamp",
params,
rs);
}
/**
* Lookup current state of an auditor.
*
* @param cls closure
* @param auditor_pub key to look up information for
* @param[out] auditor_url set to the base URL of the auditor's REST API; memory to be
* released by the caller!
* @param[out] enabled set if the auditor is currently in use
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_lookup_auditor_status (
void *cls,
const struct TALER_AuditorPublicKeyP *auditor_pub,
char **auditor_url,
bool *enabled)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (auditor_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_string ("auditor_url",
auditor_url),
GNUNET_PQ_result_spec_bool ("is_active",
enabled),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"lookup_auditor_status",
params,
rs);
}
/**
* Insert information about an auditor that will audit this exchange.
*
* @param cls closure
* @param auditor_pub key of the auditor
* @param auditor_url base URL of the auditor's REST service
* @param auditor_name name of the auditor (for humans)
* @param start_date date when the auditor was added by the offline system
* (only to be used for replay detection)
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_auditor (void *cls,
const struct TALER_AuditorPublicKeyP *auditor_pub,
const char *auditor_url,
const char *auditor_name,
struct GNUNET_TIME_Timestamp start_date)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (auditor_pub),
GNUNET_PQ_query_param_string (auditor_name),
GNUNET_PQ_query_param_string (auditor_url),
GNUNET_PQ_query_param_timestamp (&start_date),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_auditor",
params);
}
/**
* Check the last date an exchange wire account was modified.
*
* @param cls closure
* @param payto_uri key to look up information for
* @param[out] last_date last modification date to auditor status
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_lookup_wire_timestamp (void *cls,
const char *payto_uri,
struct GNUNET_TIME_Timestamp *last_date)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (payto_uri),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_timestamp ("last_change",
last_date),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"lookup_wire_timestamp",
params,
rs);
}
/**
* Insert information about an wire account used by this exchange.
*
* @param cls closure
* @param payto_uri wire account of the exchange
* @param start_date date when the account was added by the offline system
* (only to be used for replay detection)
* @param master_sig public signature affirming the existence of the account,
* must be of purpose #TALER_SIGNATURE_MASTER_WIRE_DETAILS
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_wire (void *cls,
const char *payto_uri,
struct GNUNET_TIME_Timestamp start_date,
const struct TALER_MasterSignatureP *master_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (payto_uri),
GNUNET_PQ_query_param_auto_from_type (master_sig),
GNUNET_PQ_query_param_timestamp (&start_date),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_wire",
params);
}
/**
* Update information about a wire account of the exchange.
*
* @param cls closure
* @param payto_uri account the update is about
* @param change_date date when the account status was last changed
* (only to be used for replay detection)
* @param enabled true to enable, false to disable (the actual change)
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_update_wire (void *cls,
const char *payto_uri,
struct GNUNET_TIME_Timestamp change_date,
bool enabled)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (payto_uri),
GNUNET_PQ_query_param_bool (enabled),
GNUNET_PQ_query_param_timestamp (&change_date),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"update_wire",
params);
}
/**
* Closure for #get_wire_accounts_cb().
*/
struct GetWireAccountsContext
{
/**
* Function to call per result.
*/
TALER_EXCHANGEDB_WireAccountCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Flag set to #GNUNET_OK as long as everything is fine.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Invoke the callback for each result.
*
* @param cls a `struct MissingWireContext *`
* @param result SQL result
* @param num_results number of rows in @a result
*/
static void
get_wire_accounts_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct GetWireAccountsContext *ctx = cls;
for (unsigned int i = 0; i < num_results; i++)
{
char *payto_uri;
struct TALER_MasterSignatureP master_sig;
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_string ("payto_uri",
&payto_uri),
GNUNET_PQ_result_spec_auto_from_type ("master_sig",
&master_sig),
GNUNET_PQ_result_spec_end
};
if (GNUNET_OK !=
GNUNET_PQ_extract_result (result,
rs,
i))
{
GNUNET_break (0);
ctx->status = GNUNET_SYSERR;
return;
}
ctx->cb (ctx->cb_cls,
payto_uri,
&master_sig);
GNUNET_PQ_cleanup_result (rs);
}
}
/**
* Obtain information about the enabled wire accounts of the exchange.
*
* @param cls closure
* @param cb function to call on each account
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_get_wire_accounts (void *cls,
TALER_EXCHANGEDB_WireAccountCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GetWireAccountsContext ctx = {
.cb = cb,
.cb_cls = cb_cls,
.status = GNUNET_OK
};
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_end
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"get_wire_accounts",
params,
&get_wire_accounts_cb,
&ctx);
if (GNUNET_OK != ctx.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Closure for #get_wire_fees_cb().
*/
struct GetWireFeesContext
{
/**
* Function to call per result.
*/
TALER_EXCHANGEDB_WireFeeCallback cb;
/**
* Closure for @e cb.
*/
void *cb_cls;
/**
* Plugin context.
*/
struct PostgresClosure *pg;
/**
* Flag set to #GNUNET_OK as long as everything is fine.
*/
enum GNUNET_GenericReturnValue status;
};
/**
* Invoke the callback for each result.
*
* @param cls a `struct GetWireFeesContext *`
* @param result SQL result
* @param num_results number of rows in @a result
*/
static void
get_wire_fees_cb (void *cls,
PGresult *result,
unsigned int num_results)
{
struct GetWireFeesContext *ctx = cls;
struct PostgresClosure *pg = ctx->pg;
for (unsigned int i = 0; i < num_results; i++)
{
struct TALER_MasterSignatureP master_sig;
struct TALER_WireFeeSet fees;
struct GNUNET_TIME_Timestamp start_date;
struct GNUNET_TIME_Timestamp end_date;
struct GNUNET_PQ_ResultSpec rs[] = {
TALER_PQ_RESULT_SPEC_AMOUNT ("wire_fee",
&fees.wire),
TALER_PQ_RESULT_SPEC_AMOUNT ("closing_fee",
&fees.closing),
GNUNET_PQ_result_spec_timestamp ("start_date",
&start_date),
GNUNET_PQ_result_spec_timestamp ("end_date",
&end_date),
GNUNET_PQ_result_spec_auto_from_type ("master_sig",
&master_sig),
GNUNET_PQ_result_spec_end
};
if (GNUNET_OK !=
GNUNET_PQ_extract_result (result,
rs,
i))
{
GNUNET_break (0);
ctx->status = GNUNET_SYSERR;
return;
}
ctx->cb (ctx->cb_cls,
&fees,
start_date,
end_date,
&master_sig);
GNUNET_PQ_cleanup_result (rs);
}
}
/**
* Obtain information about the fee structure of the exchange for
* a given @a wire_method
*
* @param cls closure
* @param wire_method which wire method to obtain fees for
* @param cb function to call on each account
* @param cb_cls closure for @a cb
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_get_wire_fees (void *cls,
const char *wire_method,
TALER_EXCHANGEDB_WireFeeCallback cb,
void *cb_cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (wire_method),
GNUNET_PQ_query_param_end
};
struct GetWireFeesContext ctx = {
.cb = cb,
.cb_cls = cb_cls,
.pg = pg,
.status = GNUNET_OK
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_multi_select (pg->conn,
"get_wire_fees",
params,
&get_wire_fees_cb,
&ctx);
if (GNUNET_OK != ctx.status)
return GNUNET_DB_STATUS_HARD_ERROR;
return qs;
}
/**
* Store information about a revoked online signing key.
*
* @param cls closure
* @param exchange_pub exchange online signing key that was revoked
* @param master_sig signature affirming the revocation
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_signkey_revocation (
void *cls,
const struct TALER_ExchangePublicKeyP *exchange_pub,
const struct TALER_MasterSignatureP *master_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (exchange_pub),
GNUNET_PQ_query_param_auto_from_type (master_sig),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_signkey_revocation",
params);
}
/**
* Obtain information about a revoked online signing key.
*
* @param cls closure
* @param exchange_pub exchange online signing key
* @param[out] master_sig set to signature affirming the revocation (if revoked)
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_lookup_signkey_revocation (
void *cls,
const struct TALER_ExchangePublicKeyP *exchange_pub,
struct TALER_MasterSignatureP *master_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (exchange_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("master_sig",
master_sig),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"lookup_signkey_revocation",
params,
rs);
}
/**
* Lookup information about current denomination key.
*
* @param cls closure
* @param h_denom_pub hash of the denomination public key
* @param[out] meta set to various meta data about the key
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_lookup_denomination_key (
void *cls,
const struct TALER_DenominationHashP *h_denom_pub,
struct TALER_EXCHANGEDB_DenominationKeyMetaData *meta)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (h_denom_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_timestamp ("valid_from",
&meta->start),
GNUNET_PQ_result_spec_timestamp ("expire_withdraw",
&meta->expire_withdraw),
GNUNET_PQ_result_spec_timestamp ("expire_deposit",
&meta->expire_deposit),
GNUNET_PQ_result_spec_timestamp ("expire_legal",
&meta->expire_legal),
TALER_PQ_RESULT_SPEC_AMOUNT ("coin",
&meta->value),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_withdraw",
&meta->fees.withdraw),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_deposit",
&meta->fees.deposit),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_refresh",
&meta->fees.refresh),
TALER_PQ_RESULT_SPEC_AMOUNT ("fee_refund",
&meta->fees.refund),
GNUNET_PQ_result_spec_uint32 ("age_mask",
&meta->age_mask.bits),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"lookup_denomination_key",
params,
rs);
}
/**
* Activate denomination key, turning it into a "current" or "valid"
* denomination key by adding the master signature.
*
* @param cls closure
* @param h_denom_pub hash of the denomination public key
* @param denom_pub the actual denomination key
* @param meta meta data about the denomination
* @param master_sig master signature to add
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_add_denomination_key (
void *cls,
const struct TALER_DenominationHashP *h_denom_pub,
const struct TALER_DenominationPublicKey *denom_pub,
const struct TALER_EXCHANGEDB_DenominationKeyMetaData *meta,
const struct TALER_MasterSignatureP *master_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam iparams[] = {
GNUNET_PQ_query_param_auto_from_type (h_denom_pub),
TALER_PQ_query_param_denom_pub (denom_pub),
GNUNET_PQ_query_param_auto_from_type (master_sig),
GNUNET_PQ_query_param_timestamp (&meta->start),
GNUNET_PQ_query_param_timestamp (&meta->expire_withdraw),
GNUNET_PQ_query_param_timestamp (&meta->expire_deposit),
GNUNET_PQ_query_param_timestamp (&meta->expire_legal),
TALER_PQ_query_param_amount (&meta->value),
TALER_PQ_query_param_amount (&meta->fees.withdraw),
TALER_PQ_query_param_amount (&meta->fees.deposit),
TALER_PQ_query_param_amount (&meta->fees.refresh),
TALER_PQ_query_param_amount (&meta->fees.refund),
GNUNET_PQ_query_param_uint32 (&meta->age_mask.bits),
GNUNET_PQ_query_param_end
};
/* Sanity check: ensure fees match coin currency */
GNUNET_assert (GNUNET_YES ==
TALER_denom_fee_check_currency (meta->value.currency,
&meta->fees));
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"denomination_insert",
iparams);
}
/**
* Lookup signing key meta data.
*
* @param cls closure
* @param exchange_pub the exchange online signing public key
* @param[out] meta meta data about @a exchange_pub
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_lookup_signing_key (
void *cls,
const struct TALER_ExchangePublicKeyP *exchange_pub,
struct TALER_EXCHANGEDB_SignkeyMetaData *meta)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (exchange_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_timestamp ("valid_from",
&meta->start),
GNUNET_PQ_result_spec_timestamp ("expire_sign",
&meta->expire_sign),
GNUNET_PQ_result_spec_timestamp ("expire_legal",
&meta->expire_legal),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"lookup_signing_key",
params,
rs);
}
/**
* Insert information about an auditor auditing a denomination key.
*
* @param cls closure
* @param h_denom_pub the audited denomination
* @param auditor_pub the auditor's key
* @param auditor_sig signature affirming the auditor's audit activity
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_auditor_denom_sig (
void *cls,
const struct TALER_DenominationHashP *h_denom_pub,
const struct TALER_AuditorPublicKeyP *auditor_pub,
const struct TALER_AuditorSignatureP *auditor_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (auditor_pub),
GNUNET_PQ_query_param_auto_from_type (h_denom_pub),
GNUNET_PQ_query_param_auto_from_type (auditor_sig),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_auditor_denom_sig",
params);
}
/**
* Select information about an auditor auditing a denomination key.
*
* @param cls closure
* @param h_denom_pub the audited denomination
* @param auditor_pub the auditor's key
* @param[out] auditor_sig set to signature affirming the auditor's audit activity
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_auditor_denom_sig (
void *cls,
const struct TALER_DenominationHashP *h_denom_pub,
const struct TALER_AuditorPublicKeyP *auditor_pub,
struct TALER_AuditorSignatureP *auditor_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (auditor_pub),
GNUNET_PQ_query_param_auto_from_type (h_denom_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("auditor_sig",
auditor_sig),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"select_auditor_denom_sig",
params,
rs);
}
/**
* Function called to grab a work shard on an operation @a op. Runs in its
* own transaction.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param job_name name of the operation to grab a word shard for
* @param delay minimum age of a shard to grab
* @param shard_size desired shard size
* @param[out] start_row inclusive start row of the shard (returned)
* @param[out] end_row exclusive end row of the shard (returned)
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_begin_shard (void *cls,
const char *job_name,
struct GNUNET_TIME_Relative delay,
uint64_t shard_size,
uint64_t *start_row,
uint64_t *end_row)
{
struct PostgresClosure *pg = cls;
for (unsigned int retries = 0; retries<10; retries++)
{
if (GNUNET_OK !=
TEH_PG_start (pg,
"begin_shard"))
{
GNUNET_break (0);
return GNUNET_DB_STATUS_HARD_ERROR;
}
{
struct GNUNET_TIME_Absolute past;
enum GNUNET_DB_QueryStatus qs;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (job_name),
GNUNET_PQ_query_param_absolute_time (&past),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_uint64 ("start_row",
start_row),
GNUNET_PQ_result_spec_uint64 ("end_row",
end_row),
GNUNET_PQ_result_spec_end
};
past = GNUNET_TIME_absolute_get ();
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_open_shard",
params,
rs);
switch (qs)
{
case GNUNET_DB_STATUS_HARD_ERROR:
GNUNET_break (0);
TEH_PG_rollback (pg);
return qs;
case GNUNET_DB_STATUS_SOFT_ERROR:
TEH_PG_rollback (pg);
continue;
case GNUNET_DB_STATUS_SUCCESS_ONE_RESULT:
{
enum GNUNET_DB_QueryStatus qs;
struct GNUNET_TIME_Absolute now;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (job_name),
GNUNET_PQ_query_param_absolute_time (&now),
GNUNET_PQ_query_param_uint64 (start_row),
GNUNET_PQ_query_param_uint64 (end_row),
GNUNET_PQ_query_param_end
};
now = GNUNET_TIME_relative_to_absolute (delay);
qs = GNUNET_PQ_eval_prepared_non_select (pg->conn,
"reclaim_shard",
params);
switch (qs)
{
case GNUNET_DB_STATUS_HARD_ERROR:
GNUNET_break (0);
TEH_PG_rollback (pg);
return qs;
case GNUNET_DB_STATUS_SOFT_ERROR:
TEH_PG_rollback (pg);
continue;
case GNUNET_DB_STATUS_SUCCESS_ONE_RESULT:
goto commit;
case GNUNET_DB_STATUS_SUCCESS_NO_RESULTS:
GNUNET_break (0); /* logic error, should be impossible */
TEH_PG_rollback (pg);
return GNUNET_DB_STATUS_HARD_ERROR;
}
}
break; /* actually unreachable */
case GNUNET_DB_STATUS_SUCCESS_NO_RESULTS:
break; /* continued below */
}
} /* get_open_shard */
/* No open shard, find last 'end_row' */
{
enum GNUNET_DB_QueryStatus qs;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (job_name),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_uint64 ("end_row",
start_row),
GNUNET_PQ_result_spec_end
};
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"get_last_shard",
params,
rs);
switch (qs)
{
case GNUNET_DB_STATUS_HARD_ERROR:
GNUNET_break (0);
TEH_PG_rollback (pg);
return qs;
case GNUNET_DB_STATUS_SOFT_ERROR:
TEH_PG_rollback (pg);
continue;
case GNUNET_DB_STATUS_SUCCESS_ONE_RESULT:
break;
case GNUNET_DB_STATUS_SUCCESS_NO_RESULTS:
*start_row = 0; /* base-case: no shards yet */
break; /* continued below */
}
*end_row = *start_row + shard_size;
} /* get_last_shard */
/* Claim fresh shard */
{
enum GNUNET_DB_QueryStatus qs;
struct GNUNET_TIME_Absolute now;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (job_name),
GNUNET_PQ_query_param_absolute_time (&now),
GNUNET_PQ_query_param_uint64 (start_row),
GNUNET_PQ_query_param_uint64 (end_row),
GNUNET_PQ_query_param_end
};
now = GNUNET_TIME_relative_to_absolute (delay);
GNUNET_log (GNUNET_ERROR_TYPE_INFO,
"Trying to claim shard (%llu-%llu]\n",
(unsigned long long) *start_row,
(unsigned long long) *end_row);
qs = GNUNET_PQ_eval_prepared_non_select (pg->conn,
"claim_next_shard",
params);
switch (qs)
{
case GNUNET_DB_STATUS_HARD_ERROR:
GNUNET_break (0);
TEH_PG_rollback (pg);
return qs;
case GNUNET_DB_STATUS_SOFT_ERROR:
TEH_PG_rollback (pg);
continue;
case GNUNET_DB_STATUS_SUCCESS_ONE_RESULT:
/* continued below */
break;
case GNUNET_DB_STATUS_SUCCESS_NO_RESULTS:
/* someone else got this shard already,
try again */
TEH_PG_rollback (pg);
continue;
}
} /* claim_next_shard */
/* commit */
commit:
{
enum GNUNET_DB_QueryStatus qs;
qs = TEH_PG_commit (pg);
switch (qs)
{
case GNUNET_DB_STATUS_HARD_ERROR:
GNUNET_break (0);
TEH_PG_rollback (pg);
return qs;
case GNUNET_DB_STATUS_SOFT_ERROR:
TEH_PG_rollback (pg);
continue;
case GNUNET_DB_STATUS_SUCCESS_NO_RESULTS:
case GNUNET_DB_STATUS_SUCCESS_ONE_RESULT:
return GNUNET_DB_STATUS_SUCCESS_ONE_RESULT;
}
}
} /* retry 'for' loop */
return GNUNET_DB_STATUS_SOFT_ERROR;
}
/**
* Function called to abort work on a shard.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param job_name name of the operation to abort a word shard for
* @param start_row inclusive start row of the shard
* @param end_row exclusive end row of the shard
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_abort_shard (void *cls,
const char *job_name,
uint64_t start_row,
uint64_t end_row)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (job_name),
GNUNET_PQ_query_param_uint64 (&start_row),
GNUNET_PQ_query_param_uint64 (&end_row),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"abort_shard",
params);
}
/**
* Function called to persist that work on a shard was completed.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param job_name name of the operation to grab a word shard for
* @param start_row inclusive start row of the shard
* @param end_row exclusive end row of the shard
* @return transaction status code
*/
enum GNUNET_DB_QueryStatus
postgres_complete_shard (void *cls,
const char *job_name,
uint64_t start_row,
uint64_t end_row)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (job_name),
GNUNET_PQ_query_param_uint64 (&start_row),
GNUNET_PQ_query_param_uint64 (&end_row),
GNUNET_PQ_query_param_end
};
GNUNET_log (GNUNET_ERROR_TYPE_INFO,
"Completing shard %llu-%llu\n",
(unsigned long long) start_row,
(unsigned long long) end_row);
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"complete_shard",
params);
}
/**
* Function called to release a revolving shard
* back into the work pool. Clears the
* "completed" flag.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param job_name name of the operation to grab a word shard for
* @param start_row inclusive start row of the shard
* @param end_row exclusive end row of the shard
* @return transaction status code
*/
enum GNUNET_DB_QueryStatus
postgres_release_revolving_shard (void *cls,
const char *job_name,
uint32_t start_row,
uint32_t end_row)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (job_name),
GNUNET_PQ_query_param_uint32 (&start_row),
GNUNET_PQ_query_param_uint32 (&end_row),
GNUNET_PQ_query_param_end
};
GNUNET_log (GNUNET_ERROR_TYPE_INFO,
"Releasing revolving shard %s %u-%u\n",
job_name,
(unsigned int) start_row,
(unsigned int) end_row);
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"release_revolving_shard",
params);
}
/**
* Function called to delete all revolving shards.
* To be used after a crash or when the shard size is
* changed.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @return transaction status code
*/
enum GNUNET_GenericReturnValue
postgres_delete_shard_locks (void *cls)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_ExecuteStatement es[] = {
GNUNET_PQ_make_execute ("DELETE FROM work_shards;"),
GNUNET_PQ_make_execute ("DELETE FROM revolving_work_shards;"),
GNUNET_PQ_EXECUTE_STATEMENT_END
};
return GNUNET_PQ_exec_statements (pg->conn,
es);
}
/**
* Function called to save the manifest of an extension
* (age-restriction, policy_extension_...) After successful storage of the
* configuration it triggers the corresponding event.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param extension_name the name of the extension
* @param manifest JSON object of the configuration as string
* @return transaction status code
*/
enum GNUNET_DB_QueryStatus
postgres_set_extension_manifest (void *cls,
const char *extension_name,
const char *manifest)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam pcfg =
(NULL == manifest || 0 == *manifest)
? GNUNET_PQ_query_param_null ()
: GNUNET_PQ_query_param_string (manifest);
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_string (extension_name),
pcfg,
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"set_extension_manifest",
params);
}
/**
* Function called to store configuration data about a partner
* exchange that we are federated with.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param master_pub public offline signing key of the partner exchange
* @param start_date when does the following data start to be valid
* @param end_date when does the validity end (exclusive)
* @param wad_frequency how often do we do exchange-to-exchange settlements?
* @param wad_fee how much do we charge for transfers to the partner
* @param partner_base_url base URL of the partner exchange
* @param master_sig signature with our offline signing key affirming the above
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_insert_partner (void *cls,
const struct TALER_MasterPublicKeyP *master_pub,
struct GNUNET_TIME_Timestamp start_date,
struct GNUNET_TIME_Timestamp end_date,
struct GNUNET_TIME_Relative wad_frequency,
const struct TALER_Amount *wad_fee,
const char *partner_base_url,
const struct TALER_MasterSignatureP *master_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (master_pub),
GNUNET_PQ_query_param_timestamp (&start_date),
GNUNET_PQ_query_param_timestamp (&end_date),
GNUNET_PQ_query_param_relative_time (&wad_frequency),
TALER_PQ_query_param_amount (wad_fee),
GNUNET_PQ_query_param_auto_from_type (master_sig),
GNUNET_PQ_query_param_string (partner_base_url),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"insert_partner",
params);
}
/**
* Function called to clean up one expired purse.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param start_time select purse expired after this time
* @param end_time select purse expired before this time
* @return transaction status code (#GNUNET_DB_STATUS_SUCCESS_NO_RESULTS if no purse expired in the given time interval).
*/
static enum GNUNET_DB_QueryStatus
postgres_expire_purse (
void *cls,
struct GNUNET_TIME_Absolute start_time,
struct GNUNET_TIME_Absolute end_time)
{
struct PostgresClosure *pg = cls;
struct GNUNET_TIME_Absolute now = GNUNET_TIME_absolute_get ();
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_absolute_time (&start_time),
GNUNET_PQ_query_param_absolute_time (&end_time),
GNUNET_PQ_query_param_absolute_time (&now),
GNUNET_PQ_query_param_end
};
bool found = false;
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_bool ("found",
&found),
GNUNET_PQ_result_spec_end
};
enum GNUNET_DB_QueryStatus qs;
qs = GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"call_expire_purse",
params,
rs);
if (qs < 0)
return qs;
GNUNET_assert (GNUNET_DB_STATUS_SUCCESS_ONE_RESULT == qs);
return found
? GNUNET_DB_STATUS_SUCCESS_ONE_RESULT
: GNUNET_DB_STATUS_SUCCESS_NO_RESULTS;
}
/**
* Function called to return meta data about a purse by the
* merge capability key.
*
* @param cls the @e cls of this struct with the plugin-specific state
* @param merge_pub public key representing the merge capability
* @param[out] purse_pub public key of the purse
* @param[out] purse_expiration when would an unmerged purse expire
* @param[out] h_contract_terms contract associated with the purse
* @param[out] age_limit the age limit for deposits into the purse
* @param[out] target_amount amount to be put into the purse
* @param[out] balance amount put so far into the purse
* @param[out] purse_sig signature of the purse over the initialization data
* @return transaction status code
*/
static enum GNUNET_DB_QueryStatus
postgres_select_purse_by_merge_pub (
void *cls,
const struct TALER_PurseMergePublicKeyP *merge_pub,
struct TALER_PurseContractPublicKeyP *purse_pub,
struct GNUNET_TIME_Timestamp *purse_expiration,
struct TALER_PrivateContractHashP *h_contract_terms,
uint32_t *age_limit,
struct TALER_Amount *target_amount,
struct TALER_Amount *balance,
struct TALER_PurseContractSignatureP *purse_sig)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (merge_pub),
GNUNET_PQ_query_param_end
};
struct GNUNET_PQ_ResultSpec rs[] = {
GNUNET_PQ_result_spec_auto_from_type ("purse_pub",
purse_pub),
GNUNET_PQ_result_spec_timestamp ("purse_expiration",
purse_expiration),
GNUNET_PQ_result_spec_auto_from_type ("h_contract_terms",
h_contract_terms),
GNUNET_PQ_result_spec_uint32 ("age_limit",
age_limit),
TALER_PQ_RESULT_SPEC_AMOUNT ("amount_with_fee",
target_amount),
TALER_PQ_RESULT_SPEC_AMOUNT ("balance",
balance),
GNUNET_PQ_result_spec_auto_from_type ("purse_sig",
purse_sig),
GNUNET_PQ_result_spec_end
};
return GNUNET_PQ_eval_prepared_singleton_select (pg->conn,
"select_purse_by_merge_pub",
params,
rs);
}
/**
* Set the current @a balance in the purse
* identified by @a purse_pub. Used by the auditor
* to update the balance as calculated by the auditor.
*
* @param cls closure
* @param purse_pub public key of a purse
* @param balance new balance to store under the purse
* @return transaction status
*/
static enum GNUNET_DB_QueryStatus
postgres_set_purse_balance (
void *cls,
const struct TALER_PurseContractPublicKeyP *purse_pub,
const struct TALER_Amount *balance)
{
struct PostgresClosure *pg = cls;
struct GNUNET_PQ_QueryParam params[] = {
GNUNET_PQ_query_param_auto_from_type (purse_pub),
TALER_PQ_query_param_amount (balance),
GNUNET_PQ_query_param_end
};
return GNUNET_PQ_eval_prepared_non_select (pg->conn,
"set_purse_balance",
params);
}
/**
* Initialize Postgres database subsystem.
*
* @param cls a configuration instance
* @return NULL on error, otherwise a `struct
* TALER_EXCHANGEDB_Plugin`
*/
void *
libtaler_plugin_exchangedb_postgres_init (void *cls)
{
const struct GNUNET_CONFIGURATION_Handle *cfg = cls;
struct PostgresClosure *pg;
struct TALER_EXCHANGEDB_Plugin *plugin;
unsigned long long dpl;
pg = GNUNET_new (struct PostgresClosure);
pg->cfg = cfg;
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_filename (cfg,
"exchangedb-postgres",
"SQL_DIR",
&pg->sql_dir))
{
GNUNET_log_config_missing (GNUNET_ERROR_TYPE_ERROR,
"exchangedb-postgres",
"CONFIG");
GNUNET_free (pg);
return NULL;
}
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_string (cfg,
"exchange",
"BASE_URL",
&pg->exchange_url))
{
GNUNET_log_config_missing (GNUNET_ERROR_TYPE_ERROR,
"exchange",
"BASE_URL");
GNUNET_free (pg->sql_dir);
GNUNET_free (pg);
return NULL;
}
if ( (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_time (cfg,
"exchangedb",
"IDLE_RESERVE_EXPIRATION_TIME",
&pg->idle_reserve_expiration_time))
||
(GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_time (cfg,
"exchangedb",
"LEGAL_RESERVE_EXPIRATION_TIME",
&pg->legal_reserve_expiration_time)) )
{
GNUNET_log_config_missing (GNUNET_ERROR_TYPE_ERROR,
"exchangedb",
"LEGAL/IDLE_RESERVE_EXPIRATION_TIME");
GNUNET_free (pg->exchange_url);
GNUNET_free (pg->sql_dir);
GNUNET_free (pg);
return NULL;
}
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_time (cfg,
"exchangedb",
"AGGREGATOR_SHIFT",
&pg->aggregator_shift))
{
GNUNET_log_config_missing (GNUNET_ERROR_TYPE_WARNING,
"exchangedb",
"AGGREGATOR_SHIFT");
}
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_number (cfg,
"exchangedb",
"DEFAULT_PURSE_LIMIT",
&dpl))
{
GNUNET_log_config_missing (GNUNET_ERROR_TYPE_WARNING,
"exchangedb",
"DEFAULT_PURSE_LIMIT");
pg->def_purse_limit = 1;
}
else
{
pg->def_purse_limit = (uint32_t) dpl;
}
if (GNUNET_OK !=
TALER_config_get_currency (cfg,
&pg->currency))
{
GNUNET_free (pg->exchange_url);
GNUNET_free (pg->sql_dir);
GNUNET_free (pg);
return NULL;
}
if (GNUNET_OK !=
TEH_PG_internal_setup (pg,
true))
{
GNUNET_free (pg->exchange_url);
GNUNET_free (pg->currency);
GNUNET_free (pg->sql_dir);
GNUNET_free (pg);
return NULL;
}
plugin = GNUNET_new (struct TALER_EXCHANGEDB_Plugin);
plugin->cls = pg;
plugin->create_tables = &postgres_create_tables;
plugin->setup_foreign_servers = &postgres_setup_foreign_servers;
plugin->event_listen = &postgres_event_listen;
plugin->event_listen_cancel = &postgres_event_listen_cancel;
plugin->event_notify = &postgres_event_notify;
plugin->get_denomination_info = &postgres_get_denomination_info;
plugin->iterate_denomination_info = &postgres_iterate_denomination_info;
plugin->iterate_denominations = &postgres_iterate_denominations;
plugin->iterate_active_auditors = &postgres_iterate_active_auditors;
plugin->iterate_auditor_denominations =
&postgres_iterate_auditor_denominations;
plugin->reserves_get = &postgres_reserves_get;
plugin->reserves_get_origin = &postgres_reserves_get_origin;
plugin->drain_kyc_alert = &postgres_drain_kyc_alert;
plugin->reserves_in_insert = &postgres_reserves_in_insert;
plugin->get_withdraw_info = &postgres_get_withdraw_info;
plugin->do_batch_withdraw = &postgres_do_batch_withdraw;
plugin->get_policy_details = &postgres_get_policy_details;
plugin->persist_policy_details = &postgres_persist_policy_details;
plugin->do_deposit = &postgres_do_deposit;
plugin->add_policy_fulfillment_proof = &postgres_add_policy_fulfillment_proof;
plugin->do_melt = &postgres_do_melt;
plugin->do_refund = &postgres_do_refund;
plugin->do_recoup = &postgres_do_recoup;
plugin->do_recoup_refresh = &postgres_do_recoup_refresh;
plugin->get_reserve_balance = &postgres_get_reserve_balance;
plugin->count_known_coins = &postgres_count_known_coins;
plugin->ensure_coin_known = &postgres_ensure_coin_known;
plugin->get_known_coin = &postgres_get_known_coin;
plugin->get_coin_denomination = &postgres_get_coin_denomination;
plugin->have_deposit2 = &postgres_have_deposit2;
plugin->aggregate = &postgres_aggregate;
plugin->create_aggregation_transient
= &postgres_create_aggregation_transient;
plugin->select_aggregation_transient
= &postgres_select_aggregation_transient;
plugin->find_aggregation_transient
= &postgres_find_aggregation_transient;
plugin->update_aggregation_transient
= &postgres_update_aggregation_transient;
plugin->get_ready_deposit = &postgres_get_ready_deposit;
plugin->insert_deposit = &postgres_insert_deposit;
plugin->insert_refund = &postgres_insert_refund;
plugin->select_refunds_by_coin = &postgres_select_refunds_by_coin;
plugin->get_melt = &postgres_get_melt;
plugin->insert_refresh_reveal = &postgres_insert_refresh_reveal;
plugin->get_refresh_reveal = &postgres_get_refresh_reveal;
plugin->lookup_wire_transfer = &postgres_lookup_wire_transfer;
plugin->lookup_transfer_by_deposit = &postgres_lookup_transfer_by_deposit;
plugin->insert_wire_fee = &postgres_insert_wire_fee;
plugin->insert_global_fee = &postgres_insert_global_fee;
plugin->get_wire_fee = &postgres_get_wire_fee;
plugin->get_global_fee = &postgres_get_global_fee;
plugin->get_global_fees = &postgres_get_global_fees;
plugin->insert_reserve_closed = &postgres_insert_reserve_closed;
plugin->wire_prepare_data_insert = &postgres_wire_prepare_data_insert;
plugin->wire_prepare_data_mark_finished =
&postgres_wire_prepare_data_mark_finished;
plugin->wire_prepare_data_mark_failed =
&postgres_wire_prepare_data_mark_failed;
plugin->wire_prepare_data_get = &postgres_wire_prepare_data_get;
plugin->start_deferred_wire_out = &postgres_start_deferred_wire_out;
plugin->store_wire_transfer_out = &postgres_store_wire_transfer_out;
plugin->gc = &postgres_gc;
plugin->select_deposits_above_serial_id
= &postgres_select_deposits_above_serial_id;
plugin->select_history_requests_above_serial_id
= &postgres_select_history_requests_above_serial_id;
plugin->select_purse_decisions_above_serial_id
= &postgres_select_purse_decisions_above_serial_id;
plugin->select_purse_deposits_by_purse
= &postgres_select_purse_deposits_by_purse;
plugin->select_refreshes_above_serial_id
= &postgres_select_refreshes_above_serial_id;
plugin->select_refunds_above_serial_id
= &postgres_select_refunds_above_serial_id;
plugin->select_reserves_in_above_serial_id
= &postgres_select_reserves_in_above_serial_id;
plugin->select_reserves_in_above_serial_id_by_account
= &postgres_select_reserves_in_above_serial_id_by_account;
plugin->select_withdrawals_above_serial_id
= &postgres_select_withdrawals_above_serial_id;
plugin->select_wire_out_above_serial_id
= &postgres_select_wire_out_above_serial_id;
plugin->select_wire_out_above_serial_id_by_account
= &postgres_select_wire_out_above_serial_id_by_account;
plugin->select_recoup_above_serial_id
= &postgres_select_recoup_above_serial_id;
plugin->select_recoup_refresh_above_serial_id
= &postgres_select_recoup_refresh_above_serial_id;
plugin->get_reserve_by_h_blind
= &postgres_get_reserve_by_h_blind;
plugin->get_old_coin_by_h_blind
= &postgres_get_old_coin_by_h_blind;
plugin->insert_denomination_revocation
= &postgres_insert_denomination_revocation;
plugin->get_denomination_revocation
= &postgres_get_denomination_revocation;
plugin->select_deposits_missing_wire
= &postgres_select_deposits_missing_wire;
plugin->lookup_auditor_timestamp
= &postgres_lookup_auditor_timestamp;
plugin->lookup_auditor_status
= &postgres_lookup_auditor_status;
plugin->insert_auditor
= &postgres_insert_auditor;
plugin->lookup_wire_timestamp
= &postgres_lookup_wire_timestamp;
plugin->insert_wire
= &postgres_insert_wire;
plugin->update_wire
= &postgres_update_wire;
plugin->get_wire_accounts
= &postgres_get_wire_accounts;
plugin->get_wire_fees
= &postgres_get_wire_fees;
plugin->insert_signkey_revocation
= &postgres_insert_signkey_revocation;
plugin->lookup_signkey_revocation
= &postgres_lookup_signkey_revocation;
plugin->lookup_denomination_key
= &postgres_lookup_denomination_key;
plugin->insert_auditor_denom_sig
= &postgres_insert_auditor_denom_sig;
plugin->select_auditor_denom_sig
= &postgres_select_auditor_denom_sig;
plugin->add_denomination_key
= &postgres_add_denomination_key;
plugin->lookup_signing_key
= &postgres_lookup_signing_key;
plugin->begin_shard
= &postgres_begin_shard;
plugin->abort_shard
= &postgres_abort_shard;
plugin->complete_shard
= &postgres_complete_shard;
plugin->release_revolving_shard
= &postgres_release_revolving_shard;
plugin->delete_shard_locks
= &postgres_delete_shard_locks;
plugin->set_extension_manifest
= &postgres_set_extension_manifest;
plugin->insert_partner
= &postgres_insert_partner;
plugin->expire_purse
= &postgres_expire_purse;
plugin->select_purse_by_merge_pub
= &postgres_select_purse_by_merge_pub;
plugin->set_purse_balance
= &postgres_set_purse_balance;
/* NEW style, sort alphabetically! */
plugin->do_reserve_open
= &TEH_PG_do_reserve_open;
plugin->drop_tables
= &TEH_PG_drop_tables;
plugin->do_withdraw
= &TEH_PG_do_withdraw;
plugin->free_coin_transaction_list
= &TEH_COMMON_free_coin_transaction_list;
plugin->free_reserve_history
= &TEH_COMMON_free_reserve_history;
plugin->get_coin_transactions
= &TEH_PG_get_coin_transactions;
plugin->get_expired_reserves
= &TEH_PG_get_expired_reserves;
plugin->get_purse_request
= &TEH_PG_get_purse_request;
plugin->get_reserve_history
= &TEH_PG_get_reserve_history;
plugin->get_reserve_status
= &TEH_PG_get_reserve_status;
plugin->get_unfinished_close_requests
= &TEH_PG_get_unfinished_close_requests;
plugin->insert_records_by_table
= &TEH_PG_insert_records_by_table;
plugin->insert_reserve_open_deposit
= &TEH_PG_insert_reserve_open_deposit;
plugin->insert_close_request
= &TEH_PG_insert_close_request;
plugin->delete_aggregation_transient
= &TEH_PG_delete_aggregation_transient;
plugin->get_link_data
= &TEH_PG_get_link_data;
plugin->iterate_reserve_close_info
= &TEH_PG_iterate_reserve_close_info;
plugin->iterate_kyc_reference
= &TEH_PG_iterate_kyc_reference;
plugin->lookup_records_by_table
= &TEH_PG_lookup_records_by_table;
plugin->lookup_serial_by_table
= &TEH_PG_lookup_serial_by_table;
plugin->select_account_merges_above_serial_id
= &TEH_PG_select_account_merges_above_serial_id;
plugin->select_all_purse_decisions_above_serial_id
= &TEH_PG_select_all_purse_decisions_above_serial_id;
plugin->select_purse
= &TEH_PG_select_purse;
plugin->select_purse_deposits_above_serial_id
= &TEH_PG_select_purse_deposits_above_serial_id;
plugin->select_purse_merges_above_serial_id
= &TEH_PG_select_purse_merges_above_serial_id;
plugin->select_purse_requests_above_serial_id
= &TEH_PG_select_purse_requests_above_serial_id;
plugin->select_reserve_close_info
= &TEH_PG_select_reserve_close_info;
plugin->select_reserve_closed_above_serial_id
= &TEH_PG_select_reserve_closed_above_serial_id;
plugin->select_reserve_open_above_serial_id
= &TEH_PG_select_reserve_open_above_serial_id;
/*need to sort*/
plugin->insert_purse_request
= &TEH_PG_insert_purse_request;
plugin->iterate_active_signkeys
= &TEH_PG_iterate_active_signkeys;
plugin->commit
= &TEH_PG_commit;
plugin->preflight
= &TEH_PG_preflight;
plugin->create_shard_tables
= &TEH_PG_create_shard_tables;
plugin->insert_aggregation_tracking
= &TEH_PG_insert_aggregation_tracking;
plugin->setup_partitions
= &TEH_PG_setup_partitions;
plugin->select_aggregation_amounts_for_kyc_check
= &TEH_PG_select_aggregation_amounts_for_kyc_check;
plugin->select_satisfied_kyc_processes
= &TEH_PG_select_satisfied_kyc_processes;
plugin->kyc_provider_account_lookup
= &TEH_PG_kyc_provider_account_lookup;
plugin->lookup_kyc_requirement_by_row
= &TEH_PG_lookup_kyc_requirement_by_row;
plugin->insert_kyc_requirement_for_account
= &TEH_PG_insert_kyc_requirement_for_account;
plugin->lookup_kyc_process_by_account
= &TEH_PG_lookup_kyc_process_by_account;
plugin->update_kyc_process_by_row
= &TEH_PG_update_kyc_process_by_row;
plugin->insert_kyc_requirement_process
= &TEH_PG_insert_kyc_requirement_process;
plugin->select_withdraw_amounts_for_kyc_check
= &TEH_PG_select_withdraw_amounts_for_kyc_check;
plugin->select_merge_amounts_for_kyc_check
= &TEH_PG_select_merge_amounts_for_kyc_check;
plugin->profit_drains_set_finished
= &TEH_PG_profit_drains_set_finished;
plugin->profit_drains_get_pending
= &TEH_PG_profit_drains_get_pending;
plugin->get_drain_profit
= &TEH_PG_get_drain_profit;
plugin->get_purse_deposit
= &TEH_PG_get_purse_deposit;
plugin->insert_contract
= &TEH_PG_insert_contract;
plugin->select_contract
= &TEH_PG_select_contract;
plugin->select_purse_merge
= &TEH_PG_select_purse_merge;
plugin->select_contract_by_purse
= &TEH_PG_select_contract_by_purse;
plugin->insert_drain_profit
= &TEH_PG_insert_drain_profit;
plugin->do_reserve_purse
= &TEH_PG_do_reserve_purse;
plugin->lookup_global_fee_by_time
= &TEH_PG_lookup_global_fee_by_time;
plugin->do_purse_deposit
= &TEH_PG_do_purse_deposit;
plugin->activate_signing_key
= &TEH_PG_activate_signing_key;
plugin->update_auditor
= &TEH_PG_update_auditor;
plugin->begin_revolving_shard
= &TEH_PG_begin_revolving_shard;
plugin->get_extension_manifest
= &TEH_PG_get_extension_manifest;
plugin->insert_history_request
= &TEH_PG_insert_history_request;
plugin->do_purse_merge
= &TEH_PG_do_purse_merge;
plugin->start_read_committed
= &TEH_PG_start_read_committed;
plugin->start_read_only
= &TEH_PG_start_read_only;
plugin->insert_denomination_info
= &TEH_PG_insert_denomination_info;
plugin->do_batch_withdraw_insert
= &TEH_PG_do_batch_withdraw_insert;
plugin->lookup_wire_fee_by_time
= &TEH_PG_lookup_wire_fee_by_time;
plugin->start
= &TEH_PG_start;
plugin->rollback
= &TEH_PG_rollback;
return plugin;
}
/**
* Shutdown Postgres database subsystem.
*
* @param cls a `struct TALER_EXCHANGEDB_Plugin`
* @return NULL (always)
*/
void *
libtaler_plugin_exchangedb_postgres_done (void *cls)
{
struct TALER_EXCHANGEDB_Plugin *plugin = cls;
struct PostgresClosure *pg = plugin->cls;
if (NULL != pg->conn)
{
GNUNET_PQ_disconnect (pg->conn);
pg->conn = NULL;
}
GNUNET_free (pg->exchange_url);
GNUNET_free (pg->sql_dir);
GNUNET_free (pg->currency);
GNUNET_free (pg);
GNUNET_free (plugin);
return NULL;
}
/* end of plugin_exchangedb_postgres.c */