package mssql import ( "fmt" "net" "net/url" "os" "strconv" "strings" "time" "unicode" ) type connectParams struct { logFlags uint64 port uint64 host string instance string database string user string password string dial_timeout time.Duration conn_timeout time.Duration keepAlive time.Duration encrypt bool disableEncryption bool trustServerCertificate bool certificate string hostInCertificate string hostInCertificateProvided bool serverSPN string workstation string appname string typeFlags uint8 failOverPartner string failOverPort uint64 packetSize uint16 } func parseConnectParams(dsn string) (connectParams, error) { var p connectParams var params map[string]string if strings.HasPrefix(dsn, "odbc:") { parameters, err := splitConnectionStringOdbc(dsn[len("odbc:"):]) if err != nil { return p, err } params = parameters } else if strings.HasPrefix(dsn, "sqlserver://") { parameters, err := splitConnectionStringURL(dsn) if err != nil { return p, err } params = parameters } else { params = splitConnectionString(dsn) } strlog, ok := params["log"] if ok { var err error p.logFlags, err = strconv.ParseUint(strlog, 10, 64) if err != nil { return p, fmt.Errorf("Invalid log parameter '%s': %s", strlog, err.Error()) } } server := params["server"] parts := strings.SplitN(server, `\`, 2) p.host = parts[0] if p.host == "." || strings.ToUpper(p.host) == "(LOCAL)" || p.host == "" { p.host = "localhost" } if len(parts) > 1 { p.instance = parts[1] } p.database = params["database"] p.user = params["user id"] p.password = params["password"] p.port = 1433 strport, ok := params["port"] if ok { var err error p.port, err = strconv.ParseUint(strport, 10, 16) if err != nil { f := "Invalid tcp port '%v': %v" return p, fmt.Errorf(f, strport, err.Error()) } } // https://docs.microsoft.com/en-us/sql/database-engine/configure-windows/configure-the-network-packet-size-server-configuration-option // Default packet size remains at 4096 bytes p.packetSize = 4096 strpsize, ok := params["packet size"] if ok { var err error psize, err := strconv.ParseUint(strpsize, 0, 16) if err != nil { f := "Invalid packet size '%v': %v" return p, fmt.Errorf(f, strpsize, err.Error()) } // Ensure packet size falls within the TDS protocol range of 512 to 32767 bytes // NOTE: Encrypted connections have a maximum size of 16383 bytes. If you request // a higher packet size, the server will respond with an ENVCHANGE request to // alter the packet size to 16383 bytes. p.packetSize = uint16(psize) if p.packetSize < 512 { p.packetSize = 512 } else if p.packetSize > 32767 { p.packetSize = 32767 } } // https://msdn.microsoft.com/en-us/library/dd341108.aspx // // Do not set a connection timeout. Use Context to manage such things. // Default to zero, but still allow it to be set. if strconntimeout, ok := params["connection timeout"]; ok { timeout, err := strconv.ParseUint(strconntimeout, 10, 64) if err != nil { f := "Invalid connection timeout '%v': %v" return p, fmt.Errorf(f, strconntimeout, err.Error()) } p.conn_timeout = time.Duration(timeout) * time.Second } p.dial_timeout = 15 * time.Second if strdialtimeout, ok := params["dial timeout"]; ok { timeout, err := strconv.ParseUint(strdialtimeout, 10, 64) if err != nil { f := "Invalid dial timeout '%v': %v" return p, fmt.Errorf(f, strdialtimeout, err.Error()) } p.dial_timeout = time.Duration(timeout) * time.Second } // default keep alive should be 30 seconds according to spec: // https://msdn.microsoft.com/en-us/library/dd341108.aspx p.keepAlive = 30 * time.Second if keepAlive, ok := params["keepalive"]; ok { timeout, err := strconv.ParseUint(keepAlive, 10, 64) if err != nil { f := "Invalid keepAlive value '%s': %s" return p, fmt.Errorf(f, keepAlive, err.Error()) } p.keepAlive = time.Duration(timeout) * time.Second } encrypt, ok := params["encrypt"] if ok { if strings.EqualFold(encrypt, "DISABLE") { p.disableEncryption = true } else { var err error p.encrypt, err = strconv.ParseBool(encrypt) if err != nil { f := "Invalid encrypt '%s': %s" return p, fmt.Errorf(f, encrypt, err.Error()) } } } else { p.trustServerCertificate = true } trust, ok := params["trustservercertificate"] if ok { var err error p.trustServerCertificate, err = strconv.ParseBool(trust) if err != nil { f := "Invalid trust server certificate '%s': %s" return p, fmt.Errorf(f, trust, err.Error()) } } p.certificate = params["certificate"] p.hostInCertificate, ok = params["hostnameincertificate"] if ok { p.hostInCertificateProvided = true } else { p.hostInCertificate = p.host p.hostInCertificateProvided = false } serverSPN, ok := params["serverspn"] if ok { p.serverSPN = serverSPN } else { p.serverSPN = fmt.Sprintf("MSSQLSvc/%s:%d", p.host, p.port) } workstation, ok := params["workstation id"] if ok { p.workstation = workstation } else { workstation, err := os.Hostname() if err == nil { p.workstation = workstation } } appname, ok := params["app name"] if !ok { appname = "go-mssqldb" } p.appname = appname appintent, ok := params["applicationintent"] if ok { if appintent == "ReadOnly" { p.typeFlags |= fReadOnlyIntent } } failOverPartner, ok := params["failoverpartner"] if ok { p.failOverPartner = failOverPartner } failOverPort, ok := params["failoverport"] if ok { var err error p.failOverPort, err = strconv.ParseUint(failOverPort, 0, 16) if err != nil { f := "Invalid tcp port '%v': %v" return p, fmt.Errorf(f, failOverPort, err.Error()) } } return p, nil } func splitConnectionString(dsn string) (res map[string]string) { res = map[string]string{} parts := strings.Split(dsn, ";") for _, part := range parts { if len(part) == 0 { continue } lst := strings.SplitN(part, "=", 2) name := strings.TrimSpace(strings.ToLower(lst[0])) if len(name) == 0 { continue } var value string = "" if len(lst) > 1 { value = strings.TrimSpace(lst[1]) } res[name] = value } return res } // Splits a URL of the form sqlserver://username:password@host/instance?param1=value¶m2=value func splitConnectionStringURL(dsn string) (map[string]string, error) { res := map[string]string{} u, err := url.Parse(dsn) if err != nil { return res, err } if u.Scheme != "sqlserver" { return res, fmt.Errorf("scheme %s is not recognized", u.Scheme) } if u.User != nil { res["user id"] = u.User.Username() p, exists := u.User.Password() if exists { res["password"] = p } } host, port, err := net.SplitHostPort(u.Host) if err != nil { host = u.Host } if len(u.Path) > 0 { res["server"] = host + "\\" + u.Path[1:] } else { res["server"] = host } if len(port) > 0 { res["port"] = port } query := u.Query() for k, v := range query { if len(v) > 1 { return res, fmt.Errorf("key %s provided more than once", k) } res[strings.ToLower(k)] = v[0] } return res, nil } // Splits a URL in the ODBC format func splitConnectionStringOdbc(dsn string) (map[string]string, error) { res := map[string]string{} type parserState int const ( // Before the start of a key parserStateBeforeKey parserState = iota // Inside a key parserStateKey // Beginning of a value. May be bare or braced parserStateBeginValue // Inside a bare value parserStateBareValue // Inside a braced value parserStateBracedValue // A closing brace inside a braced value. // May be the end of the value or an escaped closing brace, depending on the next character parserStateBracedValueClosingBrace // After a value. Next character should be a semicolon or whitespace. parserStateEndValue ) var state = parserStateBeforeKey var key string var value string for i, c := range dsn { switch state { case parserStateBeforeKey: switch { case c == '=': return res, fmt.Errorf("Unexpected character = at index %d. Expected start of key or semi-colon or whitespace.", i) case !unicode.IsSpace(c) && c != ';': state = parserStateKey key += string(c) } case parserStateKey: switch c { case '=': key = normalizeOdbcKey(key) state = parserStateBeginValue case ';': // Key without value key = normalizeOdbcKey(key) res[key] = value key = "" value = "" state = parserStateBeforeKey default: key += string(c) } case parserStateBeginValue: switch { case c == '{': state = parserStateBracedValue case c == ';': // Empty value res[key] = value key = "" state = parserStateBeforeKey case unicode.IsSpace(c): // Ignore whitespace default: state = parserStateBareValue value += string(c) } case parserStateBareValue: if c == ';' { res[key] = strings.TrimRightFunc(value, unicode.IsSpace) key = "" value = "" state = parserStateBeforeKey } else { value += string(c) } case parserStateBracedValue: if c == '}' { state = parserStateBracedValueClosingBrace } else { value += string(c) } case parserStateBracedValueClosingBrace: if c == '}' { // Escaped closing brace value += string(c) state = parserStateBracedValue continue } // End of braced value res[key] = value key = "" value = "" // This character is the first character past the end, // so it needs to be parsed like the parserStateEndValue state. state = parserStateEndValue switch { case c == ';': state = parserStateBeforeKey case unicode.IsSpace(c): // Ignore whitespace default: return res, fmt.Errorf("Unexpected character %c at index %d. Expected semi-colon or whitespace.", c, i) } case parserStateEndValue: switch { case c == ';': state = parserStateBeforeKey case unicode.IsSpace(c): // Ignore whitespace default: return res, fmt.Errorf("Unexpected character %c at index %d. Expected semi-colon or whitespace.", c, i) } } } switch state { case parserStateBeforeKey: // Okay case parserStateKey: // Unfinished key. Treat as key without value. key = normalizeOdbcKey(key) res[key] = value case parserStateBeginValue: // Empty value res[key] = value case parserStateBareValue: res[key] = strings.TrimRightFunc(value, unicode.IsSpace) case parserStateBracedValue: return res, fmt.Errorf("Unexpected end of braced value at index %d.", len(dsn)) case parserStateBracedValueClosingBrace: // End of braced value res[key] = value case parserStateEndValue: // Okay } return res, nil } // Normalizes the given string as an ODBC-format key func normalizeOdbcKey(s string) string { return strings.ToLower(strings.TrimRightFunc(s, unicode.IsSpace)) }