add more ini ablitity

master
兔子 5 years ago
parent 7df7c90d14
commit 55ad1d0d8a

@ -6,11 +6,17 @@ import (
"fmt"
"io"
"os"
"path/filepath"
"strings"
)
// Unzip 读取位于src的zip文件并解压到dst文件夹中
// shell传入当前解压的文件名称
func Unzip(src, dst string, shell func(string)) error {
dst, err := filepath.Abs(dst)
if err != nil {
return err
}
if !IsFile(src) {
return errors.New(src + " Not Exists")
}
@ -18,9 +24,9 @@ func Unzip(src, dst string, shell func(string)) error {
return errors.New(dst + " Exists And Not A Folder")
}
if !Exists(dst) {
err := os.MkdirAll(dst, 0644)
err := os.MkdirAll(dst, 0755)
if err != nil {
return nil
return err
}
}
zipreader, err := zip.OpenReader(src)
@ -29,8 +35,9 @@ func Unzip(src, dst string, shell func(string)) error {
}
defer zipreader.Close()
for _, v := range zipreader.File {
name := strings.ReplaceAll(v.Name, "\\", string(os.PathSeparator))
if v.FileInfo().IsDir() {
err := os.MkdirAll(dst+string(os.PathSeparator)+v.Name, 0644)
err := os.MkdirAll(dst+string(os.PathSeparator)+name, 0755)
if err != nil {
fmt.Println(err)
}
@ -41,8 +48,12 @@ func Unzip(src, dst string, shell func(string)) error {
fmt.Println(err)
continue
}
go shell(v.Name)
fpdst, err := os.Create(dst + string(os.PathSeparator) + v.Name)
go shell(name)
dir := filepath.Dir(dst + string(os.PathSeparator) + name)
if !Exists(dir) {
os.MkdirAll(dir, 0755)
}
fpdst, err := os.Create(dst + string(os.PathSeparator) + name)
if err != nil {
fmt.Println(err)
continue

@ -5,16 +5,22 @@ import (
"errors"
"reflect"
"strconv"
"time"
)
// DBRes 单连接下的数据库资源句柄
var DBRes *sql.DB
// DBRows 单连接下的数据库查询句柄
var DBRows *sql.Rows
// StarDB 一个简单封装的DB库
type StarDB struct {
DB *sql.DB
Rows *sql.Rows
}
// StarRows 为查询结果集(按行)
type StarRows struct {
Rows *sql.Rows
Length int
@ -25,6 +31,7 @@ type StarRows struct {
result [][]interface{}
}
// StarResult 为查询结果集(总)
type StarResult struct {
Result []interface{}
Columns []string
@ -32,35 +39,56 @@ type StarResult struct {
ColumnsType []reflect.Type
}
// StarResultCol 为查询结果集(按列)
type StarResultCol struct {
Result []interface{}
}
func (this *StarResultCol) MustBytes() [][]byte {
// MustBytes 列查询结果转Bytes
func (star *StarResultCol) MustBytes() [][]byte {
var res [][]byte
for _, v := range this.Result {
for _, v := range star.Result {
res = append(res, v.([]byte))
}
return res
}
func (this *StarResultCol) MustBool() []bool {
// MustBool 列查询结果转Bool
func (star *StarResultCol) MustBool() []bool {
var res []bool
var tmp bool
for _, v := range this.Result {
for _, v := range star.Result {
switch vtype := v.(type) {
case nil:
tmp = false
case bool:
tmp = vtype
case float64, float32:
if vtype.(float64) > 0 {
case float64:
if vtype > 0 {
tmp = true
} else {
tmp = false
}
case int, int32, int64:
if vtype.(int) > 0 {
case float32:
if vtype > 0 {
tmp = true
} else {
tmp = false
}
case int:
if vtype > 0 {
tmp = true
} else {
tmp = false
}
case int32:
if vtype > 0 {
tmp = true
} else {
tmp = false
}
case int64:
if vtype > 0 {
tmp = true
} else {
tmp = false
@ -74,52 +102,77 @@ func (this *StarResultCol) MustBool() []bool {
}
return res
}
func (this *StarResultCol) MustFloat32() []float32 {
// MustFloat32 列查询结果转Float32
func (star *StarResultCol) MustFloat32() []float32 {
var res []float32
var tmp float32
for _, v := range this.Result {
for _, v := range star.Result {
switch vtype := v.(type) {
case nil:
tmp = 0
case float64, float32:
tmp = float32(vtype.(float64))
case float32:
tmp = vtype
case float64:
tmp = float32(vtype)
case string:
tmps, _ := strconv.ParseFloat(vtype, 32)
tmp = float32(tmps)
case int, int32, int64:
tmp = float32(vtype.(int64))
case int:
tmp = float32(vtype)
case int32:
tmp = float32(vtype)
case int64:
tmp = float32(vtype)
case time.Time:
tmp = float32(vtype.Unix())
default:
tmp = v.(float32)
tmpt := string(vtype.([]byte))
tmps, _ := strconv.ParseFloat(tmpt, 32)
tmp = float32(tmps)
}
res = append(res, tmp)
}
return res
}
func (this *StarResultCol) MustFloat64() []float64 {
// MustFloat64 列查询结果转Float64
func (star *StarResultCol) MustFloat64() []float64 {
var res []float64
var tmp float64
for _, v := range this.Result {
for _, v := range star.Result {
switch vtype := v.(type) {
case nil:
tmp = 0
case float64, float32:
tmp = vtype.(float64)
case float64:
tmp = vtype
case float32:
tmp = float64(vtype)
case string:
tmp, _ = strconv.ParseFloat(vtype, 64)
case int, int32, int64:
tmp = float64(vtype.(int64))
case int:
tmp = float64(vtype)
case int32:
tmp = float64(vtype)
case int64:
tmp = float64(vtype)
case time.Time:
tmp = float64(vtype.Unix())
default:
tmp = v.(float64)
tmpt := string(vtype.([]byte))
tmps, _ := strconv.ParseFloat(tmpt, 64)
tmp = float64(tmps)
}
res = append(res, tmp)
}
return res
}
func (this *StarResultCol) MustString() []string {
// MustString 列查询结果转String
func (star *StarResultCol) MustString() []string {
var res []string
var tmp string
for _, v := range this.Result {
for _, v := range star.Result {
switch vtype := v.(type) {
case nil:
tmp = ""
@ -137,6 +190,8 @@ func (this *StarResultCol) MustString() []string {
tmp = strconv.FormatFloat(float64(vtype), 'f', 10, 32)
case int:
tmp = strconv.Itoa(vtype)
case time.Time:
tmp = vtype.String()
default:
tmp = string(vtype.([]byte))
}
@ -145,120 +200,269 @@ func (this *StarResultCol) MustString() []string {
return res
}
func (this *StarResultCol) MustInt32() []int32 {
// MustInt32 列查询结果转Int32
func (star *StarResultCol) MustInt32() []int32 {
var res []int32
var tmp int32
for _, v := range this.Result {
for _, v := range star.Result {
switch vtype := v.(type) {
case nil:
tmp = 0
case float64, float32:
tmp = int32(vtype.(float64))
case float64:
tmp = int32(vtype)
case float32:
tmp = int32(vtype)
case string:
tmps, _ := strconv.ParseInt(vtype, 10, 32)
tmp = int32(tmps)
case int, int32, int64:
tmp = int32(vtype.(int64))
case int:
tmp = int32(vtype)
case int64:
tmp = int32(vtype)
case int32:
tmp = vtype
case time.Time:
tmp = int32(vtype.Unix())
default:
tmp = v.(int32)
tmpt := string(vtype.([]byte))
tmps, _ := strconv.ParseInt(tmpt, 10, 32)
tmp = int32(tmps)
}
res = append(res, tmp)
}
return res
}
func (this *StarResultCol) MustInt64() []int64 {
// MustInt64 列查询结果转Int64
func (star *StarResultCol) MustInt64() []int64 {
var res []int64
var tmp int64
for _, v := range this.Result {
for _, v := range star.Result {
switch vtype := v.(type) {
case nil:
tmp = 0
case float64, float32:
tmp = int64(vtype.(float64))
case float64:
tmp = int64(vtype)
case float32:
tmp = int64(vtype)
case string:
tmp, _ = strconv.ParseInt(vtype, 10, 64)
case int, int32, int64:
tmp = (vtype.(int64))
tmps, _ := strconv.ParseInt(vtype, 10, 64)
tmp = int64(tmps)
case int:
tmp = int64(vtype)
case int32:
tmp = int64(vtype)
case int64:
tmp = vtype
case time.Time:
tmp = vtype.Unix()
default:
tmp = v.(int64)
tmpt := string(vtype.([]byte))
tmp, _ = strconv.ParseInt(tmpt, 10, 64)
}
res = append(res, tmp)
}
return res
}
func (this *StarResultCol) MustInt() []int {
// MustInt 列查询结果转Int
func (star *StarResultCol) MustInt() []int {
var res []int
var tmp int
for _, v := range this.Result {
for _, v := range star.Result {
switch vtype := v.(type) {
case nil:
tmp = 0
case float64, float32:
tmp = int(vtype.(float64))
case float64:
tmp = int(vtype)
case float32:
tmp = int(vtype)
case string:
tmps, _ := strconv.ParseInt(vtype, 10, 64)
tmp = int(tmps)
case int, int32, int64:
tmp = int(vtype.(int64))
case int:
tmp = vtype
case int32:
tmp = int(vtype)
case int64:
tmp = int(vtype)
case time.Time:
tmp = int(vtype.Unix())
default:
tmp = int(v.(int64))
tmpt := string(vtype.([]byte))
tmps, _ := strconv.ParseInt(tmpt, 10, 64)
tmp = int(tmps)
}
res = append(res, tmp)
}
return res
}
func (this *StarResult) MustInt64(name string) int64 {
// MustDate 列查询结果转Date(time.Time)
func (star *StarResultCol) MustDate(layout string) []time.Time {
var res []time.Time
var tmp time.Time
for _, v := range star.Result {
switch vtype := v.(type) {
case nil:
tmp = time.Time{}
case float64:
tmp = time.Unix(int64(vtype), int64(vtype-float64(int64(vtype)))*1000000000)
case float32:
tmp = time.Unix(int64(vtype), int64(vtype-float32(int64(vtype)))*1000000000)
case string:
tmp, _ = time.Parse(layout, vtype)
case int:
tmp = time.Unix(int64(vtype), 0)
case int32:
tmp = time.Unix(int64(vtype), 0)
case int64:
tmp = time.Unix(vtype, 0)
case time.Time:
tmp = vtype
default:
tmpt := string(vtype.([]byte))
tmp, _ = time.Parse(layout, tmpt)
}
res = append(res, tmp)
}
return res
}
// IsNil 检测是不是nil 列查询结果是不是nil
func (star *StarResultCol) IsNil(name string) []bool {
var res []bool
var tmp bool
for _, v := range star.Result {
switch v.(type) {
case nil:
tmp = true
default:
tmp = false
}
res = append(res, tmp)
}
return res
}
// IsNil 检测是不是nil
func (star *StarResult) IsNil(name string) bool {
num, ok := star.columnref[name]
if !ok {
return false
}
tmp := star.Result[num]
switch tmp.(type) {
case nil:
return true
default:
return false
}
}
// MustDate 列查询结果转Date
func (star *StarResult) MustDate(name, layout string) time.Time {
var res time.Time
num, ok := star.columnref[name]
if !ok {
return time.Time{}
}
tmp := star.Result[num]
switch vtype := tmp.(type) {
case nil:
res = time.Time{}
case float64:
res = time.Unix(int64(vtype), int64(vtype-float64(int64(vtype)))*1000000000)
case float32:
res = time.Unix(int64(vtype), int64(vtype-float32(int64(vtype)))*1000000000)
case string:
res, _ = time.Parse(layout, vtype)
case int:
res = time.Unix(int64(vtype), 0)
case int32:
res = time.Unix(int64(vtype), 0)
case int64:
res = time.Unix(vtype, 0)
case time.Time:
res = vtype
default:
res, _ = time.Parse(layout, string(tmp.([]byte)))
}
return res
}
// MustInt64 列查询结果转int64
func (star *StarResult) MustInt64(name string) int64 {
var res int64
num, ok := this.columnref[name]
num, ok := star.columnref[name]
if !ok {
return 0
}
tmp := this.Result[num]
tmp := star.Result[num]
switch vtype := tmp.(type) {
case nil:
res = 0
case float64, float32:
res = int64(vtype.(float64))
case float64:
res = int64(vtype)
case float32:
res = int64(vtype)
case string:
res, _ = strconv.ParseInt(vtype, 10, 64)
case int, int32, int64:
res = (vtype.(int64))
case int:
res = int64(vtype)
case int32:
res = int64(vtype)
case int64:
res = vtype
case time.Time:
res = int64(vtype.Unix())
default:
res, _ = strconv.ParseInt(string(tmp.([]byte)), 10, 64)
}
return res
}
func (this *StarResult) MustInt32(name string) int32 {
// MustInt32 列查询结果转Int32
func (star *StarResult) MustInt32(name string) int32 {
var res int32
num, ok := this.columnref[name]
num, ok := star.columnref[name]
if !ok {
return 0
}
tmp := this.Result[num]
tmp := star.Result[num]
switch vtype := tmp.(type) {
case nil:
res = 0
case float64, float32:
res = int32(vtype.(float64))
case float64:
res = int32(vtype)
case float32:
res = int32(vtype)
case string:
ress, _ := strconv.ParseInt(vtype, 10, 32)
res = int32(ress)
case int, int32, int64:
res = int32(vtype.(int64))
case int:
res = int32(vtype)
case int32:
res = vtype
case int64:
res = int32(vtype)
case time.Time:
res = int32(vtype.Unix())
default:
ress, _ := strconv.ParseInt(string(tmp.([]byte)), 10, 32)
res = int32(ress)
}
return res
}
func (this *StarResult) MustString(name string) string {
// MustString 列查询结果转string
func (star *StarResult) MustString(name string) string {
var res string
num, ok := this.columnref[name]
num, ok := star.columnref[name]
if !ok {
return ""
}
switch vtype := this.Result[num].(type) {
switch vtype := star.Result[num].(type) {
case nil:
res = ""
case string:
@ -275,40 +479,52 @@ func (this *StarResult) MustString(name string) string {
res = strconv.FormatFloat(float64(vtype), 'f', 10, 32)
case int:
res = strconv.Itoa(vtype)
case time.Time:
res = vtype.String()
default:
res = string(vtype.([]byte))
}
return res
}
func (this *StarResult) MustFloat64(name string) float64 {
// MustFloat64 列查询结果转float64
func (star *StarResult) MustFloat64(name string) float64 {
var res float64
num, ok := this.columnref[name]
num, ok := star.columnref[name]
if !ok {
return 0
}
switch vtype := this.Result[num].(type) {
switch vtype := star.Result[num].(type) {
case nil:
res = 0
case string:
res, _ = strconv.ParseFloat(vtype, 64)
case float64:
res = vtype
case int, int64, int32, float32:
res = vtype.(float64)
case int:
res = float64(vtype)
case int64:
res = float64(vtype)
case int32:
res = float64(vtype)
case float32:
res = float64(vtype)
case time.Time:
res = float64(vtype.Unix())
default:
res, _ = strconv.ParseFloat(string(vtype.([]byte)), 64)
}
return res
}
func (this *StarResult) MustFloat32(name string) float32 {
// MustFloat32 列查询结果转float32
func (star *StarResult) MustFloat32(name string) float32 {
var res float32
num, ok := this.columnref[name]
num, ok := star.columnref[name]
if !ok {
return 0
}
switch vtype := this.Result[num].(type) {
switch vtype := star.Result[num].(type) {
case nil:
res = 0
case string:
@ -318,8 +534,14 @@ func (this *StarResult) MustFloat32(name string) float32 {
res = float32(vtype)
case float32:
res = vtype
case int, int64, int32:
res = vtype.(float32)
case int:
res = float32(vtype)
case int64:
res = float32(vtype)
case int32:
res = float32(vtype)
case time.Time:
res = float32(vtype.Unix())
default:
tmp, _ := strconv.ParseFloat(string(vtype.([]byte)), 32)
res = float32(tmp)
@ -327,23 +549,32 @@ func (this *StarResult) MustFloat32(name string) float32 {
return res
}
func (this *StarResult) MustInt(name string) int {
// MustInt 列查询结果转int
func (star *StarResult) MustInt(name string) int {
var res int
num, ok := this.columnref[name]
num, ok := star.columnref[name]
if !ok {
return 0
}
tmp := this.Result[num]
tmp := star.Result[num]
switch vtype := tmp.(type) {
case nil:
res = 0
case float64, float32:
res = int(vtype.(float64))
case float64:
res = int(vtype)
case float32:
res = int(vtype)
case string:
ress, _ := strconv.ParseInt(vtype, 10, 64)
res = int(ress)
case int, int32, int64:
res = int(vtype.(int64))
case int:
res = vtype
case int32:
res = int(vtype)
case int64:
res = int(vtype)
case time.Time:
res = int(vtype.Unix())
default:
ress, _ := strconv.ParseInt(string(tmp.([]byte)), 10, 64)
res = int(ress)
@ -351,26 +582,45 @@ func (this *StarResult) MustInt(name string) int {
return res
}
func (this *StarResult) MustBool(name string) bool {
// MustBool 列查询结果转bool
func (star *StarResult) MustBool(name string) bool {
var res bool
num, ok := this.columnref[name]
num, ok := star.columnref[name]
if !ok {
return false
}
tmp := this.Result[num]
tmp := star.Result[num]
switch vtype := tmp.(type) {
case nil:
res = false
case bool:
res = vtype
case float64, float32:
if vtype.(float64) > 0 {
case float64:
if vtype > 0 {
res = true
} else {
res = false
}
case int, int32, int64:
if vtype.(int) > 0 {
case float32:
if vtype > 0 {
res = true
} else {
res = false
}
case int:
if vtype > 0 {
res = true
} else {
res = false
}
case int32:
if vtype > 0 {
res = true
} else {
res = false
}
case int64:
if vtype > 0 {
res = true
} else {
res = false
@ -382,65 +632,71 @@ func (this *StarResult) MustBool(name string) bool {
}
return res
}
func (this *StarResult) MustBytes(name string) []byte {
num, ok := this.columnref[name]
// MustBytes 列查询结果转byte
func (star *StarResult) MustBytes(name string) []byte {
num, ok := star.columnref[name]
if !ok {
return []byte{}
}
res := this.Result[num].([]byte)
res := star.Result[num].([]byte)
return res
}
func (this *StarRows) Rescan() {
this.parserows()
// Rescan 重新分析结果集
func (star *StarRows) Rescan() {
star.parserows()
}
func (this *StarRows) Col(name string) *StarResultCol {
// Col 选择需要进行操作的数据结果列
func (star *StarRows) Col(name string) *StarResultCol {
result := new(StarResultCol)
if _, ok := this.columnref[name]; !ok {
if _, ok := star.columnref[name]; !ok {
return result
}
var rescol []interface{}
for _, v := range this.result {
rescol = append(rescol, v[this.columnref[name]])
for _, v := range star.result {
rescol = append(rescol, v[star.columnref[name]])
}
result.Result = rescol
return result
}
func (this *StarRows) Row(id int) *StarResult {
// Row 选择需要进行操作的数据结果行
func (star *StarRows) Row(id int) *StarResult {
result := new(StarResult)
if id+1 > len(this.result) {
if id+1 > len(star.result) {
return result
}
result.Result = this.result[id]
result.Columns = this.Columns
result.ColumnsType = this.ColumnsType
result.columnref = this.columnref
result.Result = star.result[id]
result.Columns = star.Columns
result.ColumnsType = star.ColumnsType
result.columnref = star.columnref
return result
}
func (this *StarRows) Close() error {
return this.Rows.Close()
// Close 关闭打开的结果集
func (star *StarRows) Close() error {
return star.Rows.Close()
}
func (this *StarRows) parserows() {
this.result = [][]interface{}{}
this.columnref = make(map[string]int)
this.StringResult = []map[string]string{}
this.Columns, _ = this.Rows.Columns()
types, _ := this.Rows.ColumnTypes()
func (star *StarRows) parserows() {
star.result = [][]interface{}{}
star.columnref = make(map[string]int)
star.StringResult = []map[string]string{}
star.Columns, _ = star.Rows.Columns()
types, _ := star.Rows.ColumnTypes()
for _, v := range types {
this.ColumnsType = append(this.ColumnsType, v.ScanType())
star.ColumnsType = append(star.ColumnsType, v.ScanType())
}
scanArgs := make([]interface{}, len(this.Columns))
values := make([]interface{}, len(this.Columns))
for i, _ := range values {
this.columnref[this.Columns[i]] = i
scanArgs := make([]interface{}, len(star.Columns))
values := make([]interface{}, len(star.Columns))
for i := range values {
star.columnref[star.Columns[i]] = i
scanArgs[i] = &values[i]
}
for this.Rows.Next() {
if err := this.Rows.Scan(scanArgs...); err != nil {
for star.Rows.Next() {
if err := star.Rows.Scan(scanArgs...); err != nil {
return
}
record := make(map[string]string)
@ -448,28 +704,39 @@ func (this *StarRows) parserows() {
for i, col := range values {
rescopy = append(rescopy, col)
switch vtype := col.(type) {
case float32:
record[star.Columns[i]] = strconv.FormatFloat(float64(vtype), 'f', -1, 64)
case float64:
record[this.Columns[i]] = strconv.FormatFloat(vtype, 'f', -1, 64)
record[star.Columns[i]] = strconv.FormatFloat(vtype, 'f', -1, 64)
case int64:
record[this.Columns[i]] = strconv.FormatInt(vtype, 10)
record[star.Columns[i]] = strconv.FormatInt(vtype, 10)
case int32:
record[star.Columns[i]] = strconv.FormatInt(int64(vtype), 10)
case int:
record[star.Columns[i]] = strconv.Itoa(vtype)
case string:
record[this.Columns[i]] = vtype
record[star.Columns[i]] = vtype
case bool:
record[star.Columns[i]] = strconv.FormatBool(vtype)
case time.Time:
record[star.Columns[i]] = vtype.String()
case nil:
record[this.Columns[i]] = ""
record[star.Columns[i]] = ""
default:
record[this.Columns[i]] = string(vtype.([]byte))
record[star.Columns[i]] = string(vtype.([]byte))
}
}
this.result = append(this.result, rescopy)
this.StringResult = append(this.StringResult, record)
star.result = append(star.result, rescopy)
star.StringResult = append(star.StringResult, record)
}
this.Length = len(this.StringResult)
star.Length = len(star.StringResult)
}
func (this *StarDB) Query(args ...interface{}) (*StarRows, error) {
// Query 进行Query操作
func (star *StarDB) Query(args ...interface{}) (*StarRows, error) {
var err error
effect := new(StarRows)
if err = this.DB.Ping(); err != nil {
if err = star.DB.Ping(); err != nil {
return effect, err
}
if len(args) == 0 {
@ -477,15 +744,15 @@ func (this *StarDB) Query(args ...interface{}) (*StarRows, error) {
}
if len(args) == 1 {
sql := args[0]
if this.Rows, err = this.DB.Query(sql.(string)); err != nil {
if star.Rows, err = star.DB.Query(sql.(string)); err != nil {
return effect, err
}
effect.Rows = this.Rows
effect.Rows = star.Rows
effect.parserows()
return effect, nil
}
sql := args[0]
stmt, err := this.DB.Prepare(sql.(string))
stmt, err := star.DB.Prepare(sql.(string))
if err != nil {
return effect, err
}
@ -499,35 +766,38 @@ func (this *StarDB) Query(args ...interface{}) (*StarRows, error) {
}
}
}
if this.Rows, err = stmt.Query(para...); err != nil {
if star.Rows, err = stmt.Query(para...); err != nil {
return effect, err
}
effect.Rows = this.Rows
effect.Rows = star.Rows
effect.parserows()
return effect, nil
}
func (this *StarDB) Open(Method, ConnStr string) error {
// Open 打开一个新的数据库
func (star *StarDB) Open(Method, ConnStr string) error {
var err error
this.DB, err = sql.Open(Method, ConnStr)
star.DB, err = sql.Open(Method, ConnStr)
if err != nil {
return err
}
err = this.DB.Ping()
err = star.DB.Ping()
return err
}
func (this *StarDB) Close() error {
if err := this.DB.Close(); err != nil {
// Close 关闭打开的数据库
func (star *StarDB) Close() error {
if err := star.DB.Close(); err != nil {
return err
}
return this.DB.Close()
return star.DB.Close()
}
func (this *StarDB) Exec(args ...interface{}) (sql.Result, error) {
// Exec 执行Exec操作
func (star *StarDB) Exec(args ...interface{}) (sql.Result, error) {
var err error
var effect sql.Result
if err = this.DB.Ping(); err != nil {
if err = star.DB.Ping(); err != nil {
return effect, err
}
if len(args) == 0 {
@ -535,17 +805,17 @@ func (this *StarDB) Exec(args ...interface{}) (sql.Result, error) {
}
if len(args) == 1 {
sql := args[0]
if _, err = this.DB.Exec(sql.(string)); err != nil {
if _, err = star.DB.Exec(sql.(string)); err != nil {
return effect, err
}
return effect, nil
}
sql := args[0]
stmt, err := this.DB.Prepare(sql.(string))
defer stmt.Close()
stmt, err := star.DB.Prepare(sql.(string))
if err != nil {
return effect, err
}
defer stmt.Close()
var para []interface{}
for k, v := range args {
if k != 0 {
@ -561,6 +831,7 @@ func (this *StarDB) Exec(args ...interface{}) (sql.Result, error) {
return effect, nil
}
// FetchAll 把结果集全部转为key-value型<string>数据
func FetchAll(rows *sql.Rows) (error, map[int]map[string]string) {
var ii int = 0
records := make(map[int]map[string]string)
@ -598,6 +869,7 @@ func FetchAll(rows *sql.Rows) (error, map[int]map[string]string) {
return nil, records
}
// OpenDB 打开一个数据库
func OpenDB(Method, ConnStr string) error {
var err error
DBRes, err = sql.Open(Method, ConnStr)
@ -607,11 +879,14 @@ func OpenDB(Method, ConnStr string) error {
err = DBRes.Ping()
return err
}
// CloseDB 关闭打开的数据库
func CloseDB() {
DBRes.Close()
DBRows.Close()
}
// Query 进行数据库查询操作
func Query(args ...interface{}) (error, map[int]map[string]string) {
var err error
records := make(map[int]map[string]string)
@ -650,6 +925,7 @@ func Query(args ...interface{}) (error, map[int]map[string]string) {
}
// DBExec 进行数据库EXEC查询操作
func DBExec(args ...interface{}) error {
var err error
if err = DBRes.Ping(); err != nil {

235
ini.go

@ -3,9 +3,11 @@ package starainrt
import (
"bufio"
"errors"
"fmt"
"io"
"io/ioutil"
"os"
"reflect"
"regexp"
"strconv"
"strings"
@ -200,7 +202,8 @@ jump:
type StarCfg struct {
Data []*CfgSegment
segmap map[string]int
nodemap map[int]map[string]int
//nodemap map[int]map[string]int
segid int
}
type CfgNode struct {
@ -214,7 +217,8 @@ type CfgSegment struct {
cmap map[string]int
Comment string
Node []*CfgNode
InsertNode []*CfgNode
nodeid int
//InsertNode []*CfgNode
}
func (this *StarCfg) ParseFromFile(filepath string) error {
@ -234,28 +238,33 @@ func (this *StarCfg) WriteToFile(filepath string) error {
return ioutil.WriteFile(filepath, data, 0644)
}
// Parse 生成INI文件结构
func (this *StarCfg) Parse(data []byte) {
var newnode *CfgNode
segint := 0
this.segid = 0 //segment序号
nodeint := 0
this.segmap = make(map[string]int)
this.nodemap = make(map[int]map[string]int)
strdata := string(data)
list := strings.Split(strdata, "\n")
this.segmap = make(map[string]int) //segment名 序号
//this.nodemap = make(map[int]map[string]int)
nodemap := make(map[string]int)
strdata := string(data) //转换成字符串
list := strings.Split(strdata, "\n") //分割
newseg := new(CfgSegment)
newseg.Name = "unnamed"
newseg.InsertNode = []*CfgNode{}
newseg.Name = "unnamed" //默认名
//newseg.InsertNode = []*CfgNode{}
this.segmap["unnamed"] = 0
lastiseg := true
for _, v := range list {
istrans := false
isseg := false
isnote := false
isequal := false
isseg := false //是否为新seg
isnote := false //是否为注释
isequal := false // 是否为等号
tmp1 := []rune{}
tmp2 := []rune{}
note := []rune{}
v = strings.TrimSpace(v)
if len(v) > 0 && v[0:1] == ";" {
isnote = true //首字母是;时,代表注释
}
for k, v2 := range v {
if k == 0 {
if v2 == '[' {
@ -291,14 +300,18 @@ func (this *StarCfg) Parse(data []byte) {
}
if isseg {
this.Data = append(this.Data, newseg)
newseg.nodeid = nodeint
//newseg.cmap = make(map[string]int)
newseg.cmap = nodemap
nodemap = make(map[string]int)
newseg = new(CfgSegment)
newseg.InsertNode = []*CfgNode{}
//newseg.InsertNode = []*CfgNode{}
newseg.Name = strings.TrimSpace(string(tmp1))
if isnote {
newseg.Comment = strings.TrimSpace(string(note))
}
segint++
this.segmap[newseg.Name] = segint
this.segid++
this.segmap[newseg.Name] = this.segid
nodeint = 0
lastiseg = true
continue
@ -311,10 +324,7 @@ func (this *StarCfg) Parse(data []byte) {
newnode.Comment = strings.TrimSpace(string(note))
}
newseg.Node = append(newseg.Node, newnode)
if this.nodemap[segint] == nil {
this.nodemap[segint] = make(map[string]int)
}
this.nodemap[segint][newnode.Key] = nodeint
nodemap[newnode.Key] = nodeint
nodeint++
lastiseg = false
continue
@ -330,18 +340,137 @@ func (this *StarCfg) Parse(data []byte) {
}
}
newseg.nodeid = nodeint
//newseg.cmap = make(map[string]int)
newseg.cmap = nodemap
this.Data = append(this.Data, newseg)
}
// Unmarshal 输出结果到结构体中
func (cfg *StarCfg) Unmarshal(ins interface{}) error {
var structSet func(t reflect.Type, v reflect.Value) error
t := reflect.TypeOf(ins)
v := reflect.ValueOf(ins).Elem()
if v.Kind() != reflect.Struct {
return errors.New("Not a Struct")
}
if t.Kind() != reflect.Ptr || !v.CanSet() {
return errors.New("Cannot Write!")
}
t = t.Elem()
structSet = func(t reflect.Type, v reflect.Value) error {
for i := 0; i < t.NumField(); i++ {
tp := t.Field(i)
vl := v.Field(i)
if !vl.CanSet() {
continue
}
if vl.Type().Kind() == reflect.Struct {
structSet(vl.Type(), vl)
continue
}
seg := tp.Tag.Get("seg")
key := tp.Tag.Get("key")
if seg == "" || key == "" {
continue
}
if _, ok := cfg.segmap[seg]; !ok {
continue
}
segs := cfg.Data[cfg.segmap[seg]]
if segs.Get(key) == "" {
continue
}
switch vl.Kind() {
case reflect.String:
vl.SetString(segs.Get(key))
case reflect.Int, reflect.Int32, reflect.Int64:
vl.SetInt(segs.Int64(key))
case reflect.Float32, reflect.Float64:
vl.SetFloat(segs.Float64(key))
case reflect.Bool:
vl.SetBool(segs.Bool(key))
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
vl.SetUint(uint64(segs.Int64(key)))
default:
continue
}
}
return nil
}
return structSet(t, v)
}
// Marshal 输出结果到结构体中
func (cfg *StarCfg) Marshal(ins interface{}) ([]byte, error) {
var structSet func(t reflect.Type, v reflect.Value)
t := reflect.TypeOf(ins)
v := reflect.ValueOf(ins)
if v.Kind() != reflect.Struct {
return nil, errors.New("Not a Struct")
}
if t.Kind() == reflect.Ptr {
t = t.Elem()
v = v.Elem()
}
structSet = func(t reflect.Type, v reflect.Value) {
for i := 0; i < t.NumField(); i++ {
var seg, key, comment string = "", "", ""
tp := t.Field(i)
vl := v.Field(i)
if vl.Type().Kind() == reflect.Struct {
structSet(vl.Type(), vl)
continue
}
seg = tp.Tag.Get("seg")
key = tp.Tag.Get("key")
comment = tp.Tag.Get("comment")
if seg == "" || key == "" {
continue
}
if _, ok := cfg.segmap[seg]; !ok {
cfg.AddSeg(seg)
}
cfg.Seg(seg).Set(key, fmt.Sprint(vl), comment)
}
}
structSet(t, v)
return cfg.Build(), nil
}
func (this *StarCfg) Seg(name string) *CfgSegment {
if _, ok := this.segmap[name]; !ok {
return nil
}
seg := this.Data[this.segmap[name]]
if seg.Name == name {
seg.cmap = this.nodemap[this.segmap[name]]
return seg
}
func (cfg *StarCfg) AddSeg(name string) *CfgSegment {
if _, ok := cfg.segmap[name]; !ok {
newseg := new(CfgSegment)
newseg.Name = name
newseg.cmap = make(map[string]int)
cfg.Data = append(cfg.Data, newseg)
cfg.segid++
if cfg.segmap == nil {
cfg.segid = 0
cfg.segmap = make(map[string]int)
}
cfg.segmap[newseg.Name] = cfg.segid
return newseg
}
seg := cfg.Data[cfg.segmap[name]]
return seg
}
func (cfg *StarCfg) DeleteSeg(name string) error {
if _, ok := cfg.segmap[name]; !ok {
return errors.New("Seg Not Exists")
}
cfg.Data[cfg.segmap[name]] = nil
delete(cfg.segmap, name)
return nil
}
@ -349,6 +478,9 @@ func (this *StarCfg) Build() []byte {
var res, comm string
for _, v := range this.Data {
comm = ""
if v == nil {
continue
}
if v.Name != "unnamed" {
res += `[ ` + this.repkv(v.Name) + ` ]`
}
@ -360,19 +492,11 @@ func (this *StarCfg) Build() []byte {
}
res += comm + "\n"
comm = ""
for _, v2 := range v.Node {
res += this.repkv(v2.Key) + " = " + this.repkv(v2.Value)
if v2.Comment != "" {
comm = strings.Replace(v2.Comment, "\n", "\n#", -1)
if comm[0:1] != "\n" {
comm = " #" + comm
}
}
res += comm + "\n"
}
comm = ""
for _, v2 := range v.InsertNode {
if v2 == nil {
continue
}
res += this.repkv(v2.Key) + " = " + this.repkv(v2.Value)
if v2.Comment != "" {
comm = strings.Replace(v2.Comment, "\n", "\n#", -1)
@ -397,24 +521,23 @@ func (this *StarCfg) repkv(value string) string {
func (this *CfgSegment) GetComment(key string) string {
if v, ok := this.cmap[key]; !ok {
for _, v2 := range this.InsertNode {
if v2.Key == key {
return this.Node[v].Comment
}
}
return ""
} else {
return this.Node[v].Comment
}
}
func (this *CfgSegment) SetComment(key, comment string) error {
if v, ok := this.cmap[key]; !ok {
return errors.New("Key Not Exists")
} else {
this.Node[v].Comment = comment
return nil
}
}
func (this *CfgSegment) Exist(key string) bool {
if _, ok := this.cmap[key]; !ok {
for _, v2 := range this.InsertNode {
if v2.Key == key {
return true
}
}
return false
} else {
return true
@ -423,11 +546,6 @@ func (this *CfgSegment) Exist(key string) bool {
func (this *CfgSegment) Get(key string) string {
if v, ok := this.cmap[key]; !ok {
for _, v2 := range this.InsertNode {
if v2.Key == key {
return this.Node[v].Value
}
}
return ""
} else {
return this.Node[v].Value
@ -520,20 +638,13 @@ func (this *CfgSegment) SetInt(key string, value int, comment string) error {
func (this *CfgSegment) Set(key, value, comment string) error {
if v, ok := this.cmap[key]; !ok {
for _, v2 := range this.InsertNode {
if v2.Key == key {
this.Node[v].Value = value
if comment != "" {
this.Node[v].Comment = comment
}
return nil
}
}
node := new(CfgNode)
node.Key = key
node.Value = value
node.Comment = comment
this.InsertNode = append(this.InsertNode, node)
this.Node = append(this.Node, node)
this.cmap[key] = this.nodeid
this.nodeid++
return nil
} else {
this.Node[v].Value = value
@ -543,3 +654,13 @@ func (this *CfgSegment) Set(key, value, comment string) error {
}
return nil
}
func (this *CfgSegment) Delete(key string) error {
if v, ok := this.cmap[key]; !ok {
return errors.New("Key not exists!")
} else {
this.Node[v] = nil
delete(this.cmap, key)
}
return nil
}

@ -21,3 +21,69 @@ func Test_CfgParse(t *testing.T) {
ini.Seg("happy").SetInt64("sakura", 986787, "")
fmt.Println(string(ini.Build()))
}
type Ntest struct {
N string `seg:"happy" key:"me"`
}
type Testsss struct {
Okk string `seg:"unnamed" key:"ok"`
Migrate string `seg:"happy" key:"migrate" comment:"whnb"`
Ntest
}
func Test_CfgParseStruct(t *testing.T) {
data := `#lalala
ok =true\# #ok
[happy] #ok
#kkk
me = \=tru
sa = p\\k
migrate = ok #oooo
[siki]
sakurs = ssss #[ossk]`
//data, _ := ioutil.ReadFile(`c:\Users\Starainrt\Desktop\postgresql.conf`)
okk := Testsss{}
ini := new(StarCfg)
ini.Parse([]byte(data))
//fmt.Println(ini.Seg("happy").Get("migrate"))
fmt.Println(ini.Unmarshal(&okk))
fmt.Println(okk)
}
func Test_DeleteAdd(t *testing.T) {
data := `[A]
a=1
b=2
c=3
[B]
a=1
b=2
c=3
[C]
a=1
b=2
c=3
`
ini := new(StarCfg)
ini.Parse([]byte(data))
fmt.Println(ini.Seg("A").Int("a"))
fmt.Println(ini.Seg("A").Int("b"))
fmt.Println(ini.Seg("B").Int("c"))
fmt.Println("-----------------------")
ini.Seg("A").Set("d", "4", "")
ini.DeleteSeg("B")
ini.AddSeg("D")
ini.AddSeg("E").SetInt("a", 1, "")
ini.Seg("C").Delete("a")
fmt.Println(string(ini.Build()))
}
func Test_Marshal(t *testing.T) {
var a Testsss
a.Migrate = "1"
a.N = "2"
a.Okk = "okkkkk"
ini := StarCfg{}
data, err := ini.Marshal(a)
fmt.Println(string(data), err)
}

340
net.go

@ -2,141 +2,283 @@ package starainrt
import (
"bytes"
"context"
"encoding/binary"
"errors"
"sync"
"time"
)
/*
SecretKey Key
*/
//SecretKey 通信加密Key不应当被修改
const SecretKey string = "1996victorique1127B612BTXL"
var header []byte = []byte{11, 27, 19, 96}
var Crypto *StarCrypto
// 识别头
var header = []byte{11, 27, 19, 96, 12, 25, 02, 20}
func init() {
Crypto = new(StarCrypto)
// MsgQueue 为基本的信息单位
type MsgQueue struct {
ID uint16
Msg []byte
Conn interface{}
}
// StarQueue 为流数据中的消息队列分发
type StarQueue struct {
Encode bool
Reserve uint16
Msgid uint16
MsgPool []MsgUsed
UnFinMsg []byte
MsgPool []MsgQueue
UnFinMsg sync.Map
LastID int //= -1
ctx context.Context
cancel context.CancelFunc
duration time.Duration
}
// NewQueue 建立一个新消息队列
func NewQueue() *StarQueue {
que := new(StarQueue)
que.LastID = -1
var que StarQueue
que.Encode = true
return que
que.ctx, que.cancel = context.WithCancel(context.Background())
que.duration = 0
return &que
}
func (this *StarQueue) BuildMessage(str string) []byte {
var msg []byte
var buffer bytes.Buffer
if this.Encode {
msg = Crypto.VicqueEncodeV1([]byte(str), SecretKey)
} else {
msg = []byte(str)
}
buffer.Write([]byte(Crypto.CRC32(msg)))
buffer.Write([]byte{byte(this.Msgid >> 8), byte(this.Msgid)})
buffer.Write(msg)
lens := len(buffer.Bytes())
if lens > 65535 {
return nil
// Uint32ToByte 4位uint32转byte
func Uint32ToByte(src uint32) []byte {
res := make([]byte, 4)
res[3] = uint8(src)
res[2] = uint8(src >> 8)
res[1] = uint8(src >> 16)
res[0] = uint8(src >> 24)
return res
}
// ByteToUint32 byte转4位uint32
func ByteToUint32(src []byte) uint32 {
var res uint32
buffer := bytes.NewBuffer(src)
binary.Read(buffer, binary.BigEndian, &res)
return res
}
// Uint16ToByte 2位uint16转byte
func Uint16ToByte(src uint16) []byte {
res := make([]byte, 2)
res[1] = uint8(src)
res[0] = uint8(src >> 8)
return res
}
// ByteToUint16 用于byte转uint16
func ByteToUint16(src []byte) uint16 {
var res uint16
buffer := bytes.NewBuffer(src)
binary.Read(buffer, binary.BigEndian, &res)
return res
}
// BuildMessage 生成编码后的信息用于发送
func (que *StarQueue) BuildMessage(src []byte) []byte {
var buff bytes.Buffer
que.Msgid++
if que.Encode {
cryptos := new(StarCrypto)
src = cryptos.VicqueEncodeV1(src, SecretKey)
}
msg = make([]byte, lens)
copy(msg, buffer.Bytes())
buffer.Reset()
ulens := uint16(lens)
buffer.Write(header)
buffer.Write([]byte{byte(ulens >> 8), byte(ulens)})
buffer.Write(msg)
this.Msgid++
return buffer.Bytes()
length := uint32(len(src))
buff.Write(header)
buff.Write(Uint32ToByte(length))
buff.Write(Uint16ToByte(que.Msgid))
buff.Write(src)
return buff.Bytes()
}
type MsgUsed struct {
type unFinMsg struct {
ID uint16
Msg string
Crc32 string
Conn interface{}
LengthRecv uint32
// HeaderMsg 信息头应当为14位8位识别码+4位长度码+2位id
HeaderMsg []byte
RecvMsg []byte
}
func (this *StarQueue) ParseMessage(msg []byte, conn interface{}) int {
var buffer bytes.Buffer
buffer.Write(this.UnFinMsg)
buffer.Write(msg)
msg = buffer.Bytes()
if len(msg) <= 6 {
this.UnFinMsg = msg
return -2
}
if msg[0] != byte(11) {
this.UnFinMsg = []byte{}
//resend last
return this.LastID + 1
}
if msg[1] != byte(27) || msg[2] != byte(19) || msg[3] != byte(96) {
//resend last
this.UnFinMsg = []byte{}
return this.LastID + 1
}
length := uint16(uint(msg[4])<<uint(8) + uint(msg[5]))
if 6+length > uint16(len(msg)) {
this.UnFinMsg = msg
return -2
} else {
this.UnFinMsg = []byte{}
strmsg := msg[6 : length+6]
crc := strmsg[0:8]
id := strmsg[8:10]
strmsg = strmsg[10:]
if Crypto.CRC32([]byte(strmsg)) != string(crc) {
//resend last
this.UnFinMsg = []byte{}
return this.LastID + 1
// ParseMessage 用于解析啊收到的msg信息
func (que *StarQueue) ParseMessage(msg []byte, conn interface{}) error {
tmp, ok := que.UnFinMsg.Load(conn)
cryptos := new(StarCrypto)
if ok { //存在未完成的信息
lastMsg := tmp.(*unFinMsg)
headerLen := len(lastMsg.HeaderMsg)
if headerLen < 14 { //未完成头标题
//传输的数据不能填充header头
if len(msg) < 14-headerLen {
//加入header头并退出
lastMsg.HeaderMsg = bytesMerge(lastMsg.HeaderMsg, msg)
que.UnFinMsg.Store(conn, lastMsg)
return nil
}
//获取14字节完整的header
header := msg[0 : 14-headerLen]
lastMsg.HeaderMsg = bytesMerge(lastMsg.HeaderMsg, header)
//检查收到的header是否为认证header
//若不是,丢弃并重新来过
if !checkHeader(lastMsg.HeaderMsg[0:8]) {
que.UnFinMsg.Delete(conn)
if len(msg) == 0 {
return nil
}
return que.ParseMessage(msg, conn)
}
//获得本数据包长度
lastMsg.LengthRecv = ByteToUint32(lastMsg.HeaderMsg[8:12])
//获得本数据包ID
lastMsg.ID = ByteToUint16(lastMsg.HeaderMsg[12:14])
//存入列表
que.UnFinMsg.Store(conn, lastMsg)
msg = msg[14-headerLen:]
if uint32(len(msg)) < lastMsg.LengthRecv {
lastMsg.RecvMsg = msg
que.UnFinMsg.Store(conn, lastMsg)
return nil
}
if uint32(len(msg)) >= lastMsg.LengthRecv {
lastMsg.RecvMsg = msg[0:lastMsg.LengthRecv]
if que.Encode {
lastMsg.RecvMsg = cryptos.VicqueDecodeV1(lastMsg.RecvMsg, SecretKey)
}
msg = msg[lastMsg.LengthRecv:]
stroeMsg := MsgQueue{
ID: lastMsg.ID,
Msg: lastMsg.RecvMsg,
Conn: conn,
}
que.MsgPool = append(que.MsgPool, stroeMsg)
que.UnFinMsg.Delete(conn)
return que.ParseMessage(msg, conn)
}
} else {
if this.Encode {
strmsg = Crypto.VicqueDecodeV1(strmsg, SecretKey)
lastID := int(lastMsg.LengthRecv) - len(lastMsg.RecvMsg)
if lastID < 0 {
que.UnFinMsg.Delete(conn)
return que.ParseMessage(msg, conn)
}
msgs := MsgUsed{uint16(uint(id[0])<<8 + uint(id[1])), string(strmsg), string(crc), conn}
this.LastID = int(msgs.ID)
this.MsgPool = append(this.MsgPool, msgs)
if len(msg) >= lastID {
lastMsg.RecvMsg = bytesMerge(lastMsg.RecvMsg, msg[0:lastID])
if que.Encode {
lastMsg.RecvMsg = cryptos.VicqueDecodeV1(lastMsg.RecvMsg, SecretKey)
}
if 6+length == uint16(len(msg)) {
return -2
stroeMsg := MsgQueue{
ID: lastMsg.ID,
Msg: lastMsg.RecvMsg,
Conn: conn,
}
msg = msg[length+6:]
return this.ParseMessage(msg, conn)
que.MsgPool = append(que.MsgPool, stroeMsg)
que.UnFinMsg.Delete(conn)
if len(msg) == lastID {
return nil
}
msg = msg[lastID:]
return que.ParseMessage(msg, conn)
}
return -2
lastMsg.RecvMsg = bytesMerge(lastMsg.RecvMsg, msg)
que.UnFinMsg.Store(conn, lastMsg)
return nil
}
}
if len(msg) == 0 {
return nil
}
var start int
if start = searchHeader(msg); start == -1 {
return errors.New("data format error")
}
msg = msg[start:]
lastMsg := unFinMsg{}
que.UnFinMsg.Store(conn, &lastMsg)
return que.ParseMessage(msg, conn)
}
func (this *StarQueue) Restore(n int) ([]MsgUsed, error) {
if n > len(this.MsgPool) {
return nil, errors.New("N is Too Large")
func checkHeader(msg []byte) bool {
if len(msg) != 8 {
return false
}
for k, v := range msg {
if v != header[k] {
return false
}
tmp := this.MsgPool[0:n]
if n != len(this.MsgPool) {
this.MsgPool = this.MsgPool[n:]
} else {
this.MsgPool = []MsgUsed{}
}
return tmp, nil
return true
}
func (this *StarQueue) RestoreOne() (MsgUsed, error) {
if len(this.MsgPool) == 0 {
return MsgUsed{}, errors.New("N is Too Large")
func searchHeader(msg []byte) int {
if len(msg) < 8 {
return 0
}
tmp := this.MsgPool[0]
if 1 != len(this.MsgPool) {
this.MsgPool = this.MsgPool[1:]
for k, v := range msg {
find := 0
if v == header[0] {
for k2, v2 := range header {
if msg[k+k2] == v2 {
find++
} else {
this.MsgPool = []MsgUsed{}
break
}
}
if find == 8 {
return k
}
}
}
return -1
}
func bytesMerge(src ...[]byte) []byte {
var buff bytes.Buffer
for _, v := range src {
buff.Write(v)
}
return tmp, nil
return buff.Bytes()
}
// Restore 获取收到的信息
func (que *StarQueue) Restore(n int) ([]MsgQueue, error) {
var res []MsgQueue
dura := time.Duration(0)
for len(que.MsgPool) < n {
select {
case <-que.ctx.Done():
return res, errors.New("Stoped By External Function Call")
default:
time.Sleep(time.Millisecond * 20)
dura = time.Millisecond*20 + dura
if que.duration != 0 && dura > que.duration {
return res, errors.New("Time Exceed")
}
}
}
if len(que.MsgPool) < n {
return res, errors.New("Result Not Enough")
}
res = que.MsgPool[0:n]
que.MsgPool = que.MsgPool[n:]
return res, nil
}
// RestoreOne 获取收到的一个信息
func (que *StarQueue) RestoreOne() (MsgQueue, error) {
data, err := que.Restore(1)
if len(data) == 1 {
return data[0], err
}
return MsgQueue{}, err
}
// Stop 立即停止Restore
func (que *StarQueue) Stop() {
que.cancel()
}
// RestoreDuration Restore最大超时时间
func (que *StarQueue) RestoreDuration(tm time.Duration) {
que.duration = tm
}

@ -0,0 +1,184 @@
package starainrt
import (
"fmt"
"testing"
)
func Test_oldddd(t *testing.T) {
a := []int{}
a = append(a, 1)
a = append(a, 2)
a = append(a, 3)
fmt.Println(a)
a = a[3:]
fmt.Println(a)
}
func Test_binary(t *testing.T) {
bytes := Uint16ToByte(65512)
fmt.Println(bytes)
fmt.Println(ByteToUint16(bytes))
}
func Test_test(t *testing.T) {
que := NewQueue()
okk := que.BuildMessage([]byte(`
with
all_values as (
(select V.ID,
V.OBJID,
V.TITLE,
V.CONTENT,
V.URL,
V.URL_TYPE,
V.STATUS,
V.SEARCH_TIMES,
V.UPDATE_TIMES
from SPMS_SEARCH_VIEW V
)
),
in_values as (
select T1.*
from SPMS_SEARCH_DATASET T1,
(select V.ID,
V.OBJID,
V.TITLE,
V.CONTENT,
V.URL,
V.URL_TYPE,
V.STATUS,
V.SEARCH_TIMES,
V.UPDATE_TIMES
from SPMS_SEARCH_VIEW V
) T
where T.OBJID = T1.OBJID
),
upsert as (
update SPMS_SEARCH_DATASET as T1
set
ID = T.ID,
TITLE = T.TITLE,
CONTENT = T.CONTENT,
URL = T.URL,
URL_TYPE = T.URL_TYPE,
STATUS = T.STATUS,
SEARCH_TIMES = T.SEARCH_TIMES,
UPDATE_TIMES = TO_CHAR(T.UPDATE_TIMES, 'yyyy-MM-dd hh24:mi:ss'),
SYNC_TIMES = V_CUR_TIME
from all_values T
where T.OBJID = T1.OBJID and TO_DATE(T1.UPDATE_TIMES, 'yyyy-MM-dd hh24:mi:ss') \u003c TO_DATE(TO_CHAR(T.UPDATE_TIMES, 'yyyy-MM-dd hh24:mi:ss'), 'yyyy-MM-dd hh24:mi:ss')
)
insert into SPMS_SEARCH_DATASET(ID, OBJID, TITLE, CONTENT, URL, URL_TYPE, STATUS, SEARCH_TIMES, UPDATE_TIMES, SYNC_TIMES)
select T.ID,
T.OBJID,
T.TITLE,
T.CONTENT,
T.URL,
T.URL_TYPE,
T.STATUS,
T.SEARCH_TIMES,
TO_CHAR(T.UPDATE_TIMES, 'yyyy-MM-dd hh24:mi:ss'),
V_CUR_TIME
from (select V.ID,
V.OBJID,
V.TITLE,
V.CONTENT,
V.URL,
V.URL_TYPE,
V.STATUS,
V.SEARCH_TIMES,
V.UPDATE_TIMES
from SPMS_SEARCH_VIEW V
) T
where not exists(select 1
from in_values T1
where T.OBJID = T1.OBJID
)
with
all_values as (
(select V.ID,
V.OBJID,
V.TITLE,
V.CONTENT,
V.URL,
V.URL_TYPE,
V.STATUS,
V.SEARCH_TIMES,
V.UPDATE_TIMES
from SPMS_SEARCH_VIEW V
)
),
in_values as (
select T1.*
from SPMS_SEARCH_DATASET T1,
(select V.ID,
V.OBJID,
V.TITLE,
V.CONTENT,
V.URL,
V.URL_TYPE,
V.STATUS,
V.SEARCH_TIMES,
V.UPDATE_TIMES
from SPMS_SEARCH_VIEW V
) T
where T.OBJID = T1.OBJID
),
upsert as (
update SPMS_SEARCH_DATASET as T1
set
ID = T.ID,
TITLE = T.TITLE,
CONTENT = T.CONTENT,
URL = T.URL,
URL_TYPE = T.URL_TYPE,
STATUS = T.STATUS,
SEARCH_TIMES = T.SEARCH_TIMES,
UPDATE_TIMES = TO_CHAR(T.UPDATE_TIMES, 'yyyy-MM-dd hh24:mi:ss'),
SYNC_TIMES = V_CUR_TIME
from all_values T
where T.OBJID = T1.OBJID and TO_DATE(T1.UPDATE_TIMES, 'yyyy-MM-dd hh24:mi:ss') \u003c TO_DATE(TO_CHAR(T.UPDATE_TIMES, 'yyyy-MM-dd hh24:mi:ss'), 'yyyy-MM-dd hh24:mi:ss')
)
insert into SPMS_SEARCH_DATASET(ID, OBJID, TITLE, CONTENT, URL, URL_TYPE, STATUS, SEARCH_TIMES, UPDATE_TIMES, SYNC_TIMES)
select T.ID,
T.OBJID,
T.TITLE,
T.CONTENT,
T.URL,
T.URL_TYPE,
T.STATUS,
T.SEARCH_TIMES,
TO_CHAR(T.UPDATE_TIMES, 'yyyy-MM-dd hh24:mi:ss'),
V_CUR_TIME
from (select V.ID,
V.OBJID,
V.TITLE,
V.CONTENT,
V.URL,
V.URL_TYPE,
V.STATUS,
V.SEARCH_TIMES,
V.UPDATE_TIMES
from SPMS_SEARCH_VIEW V
) T
where not exists(select 1
from in_values T1
where T.OBJID = T1.OBJID
)
`))
fmt.Println(string(okk))
que.ParseMessage([]byte{'n', 'm', 'b'}, "nbb")
// que.ParseMessage([]byte{'n', 23, 24, 4, 45, 6, 56, 56, 2, 3, 1, 2}, "nbb")
que.ParseMessage(okk[0:123], "nbb")
que.ParseMessage([]byte{}, "nbb")
que.ParseMessage([]byte{}, "nbb")
que.ParseMessage([]byte{}, "nbb")
que.ParseMessage(okk[123:135], "nbb")
que.ParseMessage(okk[135:], "nbb")
fmt.Println(string(que.MsgPool[0].Msg))
}
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