sqlboiler/bdb/drivers/postgres.go

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package drivers
import (
"database/sql"
"fmt"
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"strings"
// Side-effect import sql driver
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_ "github.com/lib/pq"
"github.com/pkg/errors"
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"github.com/vattle/sqlboiler/bdb"
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"github.com/vattle/sqlboiler/strmangle"
)
// PostgresDriver holds the database connection string and a handle
// to the database connection.
type PostgresDriver struct {
connStr string
dbConn *sql.DB
}
// NewPostgresDriver takes the database connection details as parameters and
// returns a pointer to a PostgresDriver object. Note that it is required to
// call PostgresDriver.Open() and PostgresDriver.Close() to open and close
// the database connection once an object has been obtained.
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func NewPostgresDriver(user, pass, dbname, host string, port int, sslmode string) *PostgresDriver {
driver := PostgresDriver{
connStr: PostgresBuildQueryString(user, pass, dbname, host, port, sslmode),
}
return &driver
}
// PostgresBuildQueryString builds a query string.
func PostgresBuildQueryString(user, pass, dbname, host string, port int, sslmode string) string {
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parts := []string{}
if len(user) != 0 {
parts = append(parts, fmt.Sprintf("user=%s", user))
}
if len(pass) != 0 {
parts = append(parts, fmt.Sprintf("password=%s", pass))
}
if len(dbname) != 0 {
parts = append(parts, fmt.Sprintf("dbname=%s", dbname))
}
if len(host) != 0 {
parts = append(parts, fmt.Sprintf("host=%s", host))
}
if port != 0 {
parts = append(parts, fmt.Sprintf("port=%d", port))
}
if len(sslmode) != 0 {
parts = append(parts, fmt.Sprintf("sslmode=%s", sslmode))
}
return strings.Join(parts, " ")
}
// Open opens the database connection using the connection string
func (p *PostgresDriver) Open() error {
var err error
p.dbConn, err = sql.Open("postgres", p.connStr)
if err != nil {
return err
}
return nil
}
// Close closes the database connection
func (p *PostgresDriver) Close() {
p.dbConn.Close()
}
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// UseLastInsertID returns false for postgres
func (p *PostgresDriver) UseLastInsertID() bool {
return false
}
// TableNames connects to the postgres database and
// retrieves all table names from the information_schema where the
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// table schema is schema. It uses a whitelist and blacklist.
func (p *PostgresDriver) TableNames(schema string, whitelist, blacklist []string) ([]string, error) {
var names []string
query := fmt.Sprintf(`select table_name from information_schema.tables where table_schema = $1`)
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args := []interface{}{schema}
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if len(whitelist) > 0 {
query += fmt.Sprintf(" and table_name in (%s);", strmangle.Placeholders(true, len(whitelist), 2, 1))
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for _, w := range whitelist {
args = append(args, w)
}
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} else if len(blacklist) > 0 {
query += fmt.Sprintf(" and table_name not in (%s);", strmangle.Placeholders(true, len(blacklist), 2, 1))
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for _, b := range blacklist {
args = append(args, b)
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}
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}
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rows, err := p.dbConn.Query(query, args...)
if err != nil {
return nil, err
}
defer rows.Close()
for rows.Next() {
var name string
if err := rows.Scan(&name); err != nil {
return nil, err
}
names = append(names, name)
}
return names, nil
}
// Columns takes a table name and attempts to retrieve the table information
// from the database information_schema.columns. It retrieves the column names
// and column types and returns those as a []Column after TranslateColumnType()
// converts the SQL types to Go types, for example: "varchar" to "string"
func (p *PostgresDriver) Columns(schema, tableName string) ([]bdb.Column, error) {
var columns []bdb.Column
rows, err := p.dbConn.Query(`
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select
c.column_name,
(
case when c.data_type = 'USER-DEFINED' and c.udt_name <> 'hstore'
then
(
select 'enum.' || c.udt_name || '(''' || string_agg(labels.label, ''',''') || ''')'
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from (
select pg_enum.enumlabel as label
from pg_enum
where pg_enum.enumtypid =
(
select typelem
from pg_type
where pg_type.typtype = 'b' and pg_type.typname = ('_' || c.udt_name)
limit 1
)
order by pg_enum.enumsortorder
) as labels
)
else c.data_type
end
) as column_type,
c.udt_name,
e.data_type as array_type,
c.column_default,
c.is_nullable = 'YES' as is_nullable,
(select exists(
select 1
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from information_schema.constraint_column_usage as ccu
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inner join information_schema.table_constraints tc on ccu.constraint_name = tc.constraint_name
where ccu.table_name = c.table_name and ccu.column_name = c.column_name and tc.constraint_type = 'UNIQUE'
)) OR (select exists(
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select 1
from
pg_indexes pgix
inner join pg_class pgc on pgix.indexname = pgc.relname and pgc.relkind = 'i'
inner join pg_index pgi on pgi.indexrelid = pgc.oid
inner join pg_attribute pga on pga.attrelid = pgi.indrelid and pga.attnum = ANY(pgi.indkey)
where
pgix.schemaname = $1 and pgix.tablename = c.table_name and pga.attname = c.column_name and pgi.indisunique = true
)) as is_unique
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from information_schema.columns as c
left join information_schema.element_types e
on ((c.table_catalog, c.table_schema, c.table_name, 'TABLE', c.dtd_identifier)
= (e.object_catalog, e.object_schema, e.object_name, e.object_type, e.collection_type_identifier))
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where c.table_name=$2 and c.table_schema = $1;
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`, schema, tableName)
if err != nil {
return nil, err
}
defer rows.Close()
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for rows.Next() {
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var colName, colType, udtName string
var defaultValue, arrayType *string
var nullable, unique bool
if err := rows.Scan(&colName, &colType, &udtName, &arrayType, &defaultValue, &nullable, &unique); err != nil {
return nil, errors.Wrapf(err, "unable to scan for table %s", tableName)
}
column := bdb.Column{
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Name: colName,
DBType: colType,
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ArrType: arrayType,
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UDTName: udtName,
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Nullable: nullable,
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Unique: unique,
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}
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if defaultValue != nil {
column.Default = *defaultValue
}
columns = append(columns, column)
}
return columns, nil
}
// PrimaryKeyInfo looks up the primary key for a table.
func (p *PostgresDriver) PrimaryKeyInfo(schema, tableName string) (*bdb.PrimaryKey, error) {
pkey := &bdb.PrimaryKey{}
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var err error
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query := `
select tc.constraint_name
from information_schema.table_constraints as tc
where tc.table_name = $1 and tc.constraint_type = 'PRIMARY KEY' and tc.table_schema = $2;`
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row := p.dbConn.QueryRow(query, tableName, schema)
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if err = row.Scan(&pkey.Name); err != nil {
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if err == sql.ErrNoRows {
return nil, nil
}
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return nil, err
}
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queryColumns := `
select kcu.column_name
from information_schema.key_column_usage as kcu
where constraint_name = $1 and table_schema = $2;`
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var rows *sql.Rows
if rows, err = p.dbConn.Query(queryColumns, pkey.Name, schema); err != nil {
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return nil, err
}
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defer rows.Close()
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var columns []string
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for rows.Next() {
var column string
err = rows.Scan(&column)
if err != nil {
return nil, err
}
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columns = append(columns, column)
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}
if err = rows.Err(); err != nil {
return nil, err
}
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pkey.Columns = columns
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return pkey, nil
}
// ForeignKeyInfo retrieves the foreign keys for a given table name.
func (p *PostgresDriver) ForeignKeyInfo(schema, tableName string) ([]bdb.ForeignKey, error) {
var fkeys []bdb.ForeignKey
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query := `
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select
tc.constraint_name,
kcu.table_name as source_table,
kcu.column_name as source_column,
ccu.table_name as dest_table,
ccu.column_name as dest_column
from information_schema.table_constraints as tc
inner join information_schema.key_column_usage as kcu ON tc.constraint_name = kcu.constraint_name and tc.constraint_schema = kcu.constraint_schema
inner join information_schema.constraint_column_usage as ccu ON tc.constraint_name = ccu.constraint_name and tc.constraint_schema = ccu.constraint_schema
where tc.table_name = $1 and tc.constraint_type = 'FOREIGN KEY' and tc.table_schema = $2;`
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var rows *sql.Rows
var err error
if rows, err = p.dbConn.Query(query, tableName, schema); err != nil {
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return nil, err
}
for rows.Next() {
var fkey bdb.ForeignKey
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var sourceTable string
fkey.Table = tableName
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err = rows.Scan(&fkey.Name, &sourceTable, &fkey.Column, &fkey.ForeignTable, &fkey.ForeignColumn)
if err != nil {
return nil, err
}
fkeys = append(fkeys, fkey)
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}
if err = rows.Err(); err != nil {
return nil, err
}
return fkeys, nil
}
// TranslateColumnType converts postgres database types to Go types, for example
// "varchar" to "string" and "bigint" to "int64". It returns this parsed data
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// as a Column object.
func (p *PostgresDriver) TranslateColumnType(c bdb.Column) bdb.Column {
if c.Nullable {
switch c.DBType {
case "bigint", "bigserial":
c.Type = "null.Int64"
case "integer", "serial":
c.Type = "null.Int"
case "smallint", "smallserial":
c.Type = "null.Int16"
case "decimal", "numeric", "double precision":
c.Type = "null.Float64"
case "real":
c.Type = "null.Float32"
case "bit", "interval", "bit varying", "character", "money", "character varying", "cidr", "inet", "macaddr", "text", "uuid", "xml":
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c.Type = "null.String"
case `"char"`:
c.Type = "null.Byte"
case "bytea":
c.Type = "null.Bytes"
case "json", "jsonb":
c.Type = "null.JSON"
case "boolean":
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c.Type = "null.Bool"
case "date", "time", "timestamp without time zone", "timestamp with time zone":
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c.Type = "null.Time"
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case "ARRAY":
if c.ArrType == nil {
panic("unable to get postgres ARRAY underlying type")
}
c.Type = getArrayType(c)
// Make DBType something like ARRAYinteger for parsing with randomize.Struct
c.DBType = c.DBType + *c.ArrType
case "USER-DEFINED":
if c.UDTName == "hstore" {
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c.Type = "types.HStore"
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c.DBType = "hstore"
} else {
c.Type = "string"
fmt.Printf("Warning: Incompatible data type detected: %s\n", c.UDTName)
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}
default:
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c.Type = "null.String"
}
} else {
switch c.DBType {
case "bigint", "bigserial":
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c.Type = "int64"
case "integer", "serial":
c.Type = "int"
case "smallint", "smallserial":
c.Type = "int16"
case "decimal", "numeric", "double precision":
c.Type = "float64"
case "real":
c.Type = "float32"
case "bit", "interval", "uuint", "bit varying", "character", "money", "character varying", "cidr", "inet", "macaddr", "text", "uuid", "xml":
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c.Type = "string"
case `"char"`:
c.Type = "types.Byte"
case "json", "jsonb":
c.Type = "types.JSON"
case "bytea":
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c.Type = "[]byte"
case "boolean":
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c.Type = "bool"
case "date", "time", "timestamp without time zone", "timestamp with time zone":
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c.Type = "time.Time"
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case "ARRAY":
c.Type = getArrayType(c)
// Make DBType something like ARRAYinteger for parsing with randomize.Struct
c.DBType = c.DBType + *c.ArrType
case "USER-DEFINED":
if c.UDTName == "hstore" {
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c.Type = "types.HStore"
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c.DBType = "hstore"
} else {
c.Type = "string"
fmt.Printf("Warning: Incompatible data type detected: %s\n", c.UDTName)
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}
default:
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c.Type = "string"
}
}
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return c
}
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// getArrayType returns the correct boil.Array type for each database type
func getArrayType(c bdb.Column) string {
switch *c.ArrType {
case "bigint", "bigserial", "integer", "serial", "smallint", "smallserial":
return "types.Int64Array"
case "bytea":
return "types.BytesArray"
case "bit", "interval", "uuint", "bit varying", "character", "money", "character varying", "cidr", "inet", "macaddr", "text", "uuid", "xml":
return "types.StringArray"
case "boolean":
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return "types.BoolArray"
case "decimal", "numeric", "double precision", "real":
return "types.Float64Array"
default:
return "types.StringArray"
}
}
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// RightQuote is the quoting character for the right side of the identifier
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func (p *PostgresDriver) RightQuote() byte {
return '"'
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}
// LeftQuote is the quoting character for the left side of the identifier
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func (p *PostgresDriver) LeftQuote() byte {
return '"'
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}
// IndexPlaceholders returns true to indicate PSQL supports indexed placeholders
func (p *PostgresDriver) IndexPlaceholders() bool {
return true
}