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9 Commits
v0.12.24 ... v0.12.30

Author SHA1 Message Date
Vikram Rangnekar
7ec1f59224 Fix bug with cursors and multiple order by 2020-02-23 02:28:37 +05:30
Vikram Rangnekar
d3ecb1d6cc Fix bug with multi root queries 2020-02-21 10:29:37 +05:30
Vikram Rangnekar
aed4170e8e Fix bug with cursor filters 2020-02-20 22:53:29 +05:30
Vikram Rangnekar
c33e93ab37 Add support for cursors with multiple order by clauses 2020-02-19 10:22:44 +05:30
Vikram Rangnekar
3d3e5d9c2b Add Yugabyte to docs 2020-02-12 08:42:53 +05:30
Vikram Rangnekar
67b4a4d945 Fix issue with cursor as a variable 2020-02-11 11:41:35 +05:30
Vikram Rangnekar
7413813138 Add pagination using opaque cursors 2020-02-10 12:15:37 +05:30
Vikram Rangnekar
12007db76e Add support for Yugabyte DB 2020-02-07 11:42:14 +05:30
Vikram Rangnekar
c85d379fe2 Add ability to add comments to the allow list 2020-02-04 00:20:25 -05:00
40 changed files with 1616 additions and 1142 deletions
Expand all files Collapse all files

1
README.md
View File

@ -48,6 +48,7 @@ This compiler is what sits at the heart of Super Graph with layers of useful fun
- Fuzz tested for security
- Database migrations tool
- Database seeding tool
- Works with Postgres and YugabyteDB
## Get started

74
allow/allow.go
View File

@ -18,11 +18,11 @@ const (
)
type Item struct {
Name string
key string
URI string
Query string
Vars json.RawMessage
Name string
key string
Query string
Vars json.RawMessage
Comment string
}
type List struct {
@ -105,7 +105,7 @@ func (al *List) IsPersist() bool {
return al.saveChan != nil
}
func (al *List) Add(vars []byte, query, uri string) error {
func (al *List) Set(vars []byte, query, comment string) error {
if al.saveChan == nil {
return errors.New("allow.list is read-only")
}
@ -129,9 +129,9 @@ func (al *List) Add(vars []byte, query, uri string) error {
}
al.saveChan <- Item{
URI: uri,
Query: q,
Vars: vars,
Comment: comment,
Query: q,
Vars: vars,
}
return nil
@ -149,7 +149,7 @@ func (al *List) Load() ([]Item, error) {
return list, nil
}
var uri string
var comment bytes.Buffer
var varBytes []byte
itemMap := make(map[string]struct{})
@ -166,7 +166,7 @@ func (al *List) Load() ([]Item, error) {
e++
}
if (e - s) > 2 {
uri = strings.TrimSpace(string(b[(s + 1):e]))
comment.Write(b[(s + 1):(e + 1)])
}
}
@ -207,13 +207,14 @@ func (al *List) Load() ([]Item, error) {
if _, ok := itemMap[key]; !ok {
v := Item{
Name: name,
key: key,
URI: uri,
Query: query,
Vars: varBytes,
Name: name,
key: key,
Query: query,
Vars: varBytes,
Comment: comment.String(),
}
list = append(list, v)
comment.Reset()
}
varBytes = nil
@ -252,6 +253,9 @@ func (al *List) save(item Item) error {
}
if index != -1 {
if len(list[index].Comment) != 0 {
item.Comment = list[index].Comment
}
list[index] = item
} else {
list = append(list, item)
@ -269,9 +273,29 @@ func (al *List) save(item Item) error {
})
for _, v := range list {
_, err := f.WriteString(fmt.Sprintf("# %s\n\n", v.URI))
if err != nil {
return err
cmtLines := strings.Split(v.Comment, "\n")
i := 0
for _, c := range cmtLines {
if c = strings.TrimSpace(c); len(c) == 0 {
continue
}
_, err := f.WriteString(fmt.Sprintf("# %s\n", c))
if err != nil {
return err
}
i++
}
if i != 0 {
if _, err := f.WriteString("\n"); err != nil {
return err
}
} else {
if _, err := f.WriteString(fmt.Sprintf("# Query named %s\n\n", v.Name)); err != nil {
return err
}
}
if len(v.Vars) != 0 && !bytes.Equal(v.Vars, []byte("{}")) {
@ -317,17 +341,13 @@ func QueryName(b string) string {
for i := 0; i < len(b); i++ {
switch {
case state == 2 && b[i] == '{':
return b[s:i]
case state == 2 && b[i] == ' ':
case state == 2 && !isValidNameChar(b[i]):
return b[s:i]
case state == 1 && b[i] == '{':
return ""
case state == 1 && b[i] != ' ':
case state == 1 && isValidNameChar(b[i]):
s = i
state = 2
case state == 1 && b[i] == ' ':
continue
case i != 0 && b[i] == ' ' && (b[i-1] == 'n' || b[i-1] == 'y'):
state = 1
}
@ -335,3 +355,7 @@ func QueryName(b string) string {
return ""
}
func isValidNameChar(c byte) bool {
return (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || (c >= '0' && c <= '9') || c == '_'
}

4
allow/allow_test.go
View File

@ -21,7 +21,9 @@ func TestGQLName1(t *testing.T) {
func TestGQLName2(t *testing.T) {
var q = `
query hakuna_matata {
query hakuna_matata
{
products(
distinct: [price]
where: { id: { and: { greater_or_equals: 20, lt: 28 } } }

4
config/dev.yml
View File

@ -32,6 +32,10 @@ reload_on_config_change: true
# Path pointing to where the migrations can be found
migrations_path: ./config/migrations
# Secret key for general encryption operations like
# encrypting the cursor data
secret_key: supercalifajalistics
# Postgres related environment Variables
# SG_DATABASE_HOST
# SG_DATABASE_PORT

4
config/prod.yml
View File

@ -32,6 +32,10 @@ enable_tracing: true
# Path pointing to where the migrations can be found
# migrations_path: migrations
# Secret key for general encryption operations like
# encrypting the cursor data
# secret_key: supercalifajalistics
# Postgres related environment Variables
# SG_DATABASE_HOST
# SG_DATABASE_PORT

2
config/seed.js
View File

@ -11,7 +11,7 @@ for (i = 0; i < user_count; i++) {
var pwd = fake.password()
var data = {
full_name: fake.name(),
avatar: fake.image_url(),
avatar: fake.avatar_url(200),
phone: fake.phone(),
email: fake.email(),
password: pwd,

80
crypto/encrypt.go Normal file
View File

@ -0,0 +1,80 @@
// cryptopasta - basic cryptography examples
//
// Written in 2015 by George Tankersley <george.tankersley@gmail.com>
//
// To the extent possible under law, the author(s) have dedicated all copyright
// and related and neighboring rights to this software to the public domain
// worldwide. This software is distributed without any warranty.
//
// You should have received a copy of the CC0 Public Domain Dedication along
// with this software. If not, see // <http://creativecommons.org/publicdomain/zero/1.0/>.
// Provides symmetric authenticated encryption using 256-bit AES-GCM with a random nonce.
package crypto
import (
"crypto/aes"
"crypto/cipher"
"crypto/rand"
"errors"
"io"
)
// NewEncryptionKey generates a random 256-bit key for Encrypt() and
// Decrypt(). It panics if the source of randomness fails.
func NewEncryptionKey() [32]byte {
key := [32]byte{}
_, err := io.ReadFull(rand.Reader, key[:])
if err != nil {
panic(err)
}
return key
}
// Encrypt encrypts data using 256-bit AES-GCM. This both hides the content of
// the data and provides a check that it hasn't been altered. Output takes the
// form nonce|ciphertext|tag where '|' indicates concatenation.
func Encrypt(plaintext []byte, key *[32]byte) (ciphertext []byte, err error) {
block, err := aes.NewCipher(key[:])
if err != nil {
return nil, err
}
gcm, err := cipher.NewGCM(block)
if err != nil {
return nil, err
}
nonce := make([]byte, gcm.NonceSize())
_, err = io.ReadFull(rand.Reader, nonce)
if err != nil {
return nil, err
}
return gcm.Seal(nonce, nonce, plaintext, nil), nil
}
// Decrypt decrypts data using 256-bit AES-GCM. This both hides the content of
// the data and provides a check that it hasn't been altered. Expects input
// form nonce|ciphertext|tag where '|' indicates concatenation.
func Decrypt(ciphertext []byte, key *[32]byte) (plaintext []byte, err error) {
block, err := aes.NewCipher(key[:])
if err != nil {
return nil, err
}
gcm, err := cipher.NewGCM(block)
if err != nil {
return nil, err
}
if len(ciphertext) < gcm.NonceSize() {
return nil, errors.New("malformed ciphertext")
}
return gcm.Open(nil,
ciphertext[:gcm.NonceSize()],
ciphertext[gcm.NonceSize():],
nil,
)
}

174
docs/guide.md
View File

@ -1024,6 +1024,113 @@ mutation {
}
```
### Pagination
This is a must have feature of any API. When you want your users to go thought a list page by page or implement some fancy infinite scroll you're going to need pagination. There are two ways to paginate in Super Graph.
Limit-Offset
This is simple enough but also inefficient when working with a large number of total items. Limit, limits the number of items fetched and offset is the point you want to fetch from. The below query will fetch 10 results at a time starting with the 100th item. You will have to keep updating offset (110, 120, 130, etc ) to walk thought the results so make offset a variable.
```graphql
query {
products(limit: 10, offset: 100) {
id
slug
name
}
}
```
#### Cursor
This is a powerful and highly efficient way to paginate though a large number of results. Infact it does not matter how many total results there are this will always be lighting fast. You can use a cursor to walk forward of backward though the results. If you plan to implement infinite scroll this is the option you should choose.
When going this route the results will contain a cursor value this is an encrypted string that you don't have to worry about just pass this back in to the next API call and you'll received the next set of results. The cursor value is encrypted since its contents should only matter to Super Graph and not the client. Also since the primary key is used for this feature it's possible you might not want to leak it's value to clients.
You will need to set this config value to ensure the encrypted cursor data is secure. If not set a random value is used which will change with each deployment breaking older cursor values that clients might be using so best to set it.
```yaml
# Secret key for general encryption operations like
# encrypting the cursor data
secret_key: supercalifajalistics
```
Paginating forward through your results
```json
{
"variables": {
"cursor": "MJoTLbQF4l0GuoDsYmCrpjPeaaIlNpfm4uFU4PQ="
}
}
```
```graphql
query {
products(first: 10, after: $cursor) {
slug
name
}
}
```
Paginating backward through your results
```graphql
query {
products(last: 10, before: $cursor) {
slug
name
}
}
```
```graphql
"data": {
"products": [
{
"slug": "eius-nulla-et-8",
"name" "Pale Ale"
},
{
"slug": "sapiente-ut-alias-12",
"name" "Brown Ale"
}
...
],
"products_cursor": "dJwHassm5+d82rGydH2xQnwNxJ1dcj4/cxkh5Cer"
}
```
Nested tables can also have cursors. Requesting multiple cursors are supported on a single request but when paginating using a cursor only one table is currently supported. To explain this better, you can only use a `before` or `after` argument with a cursor value to paginate a single table in a query.
```graphql
query {
products(last: 10) {
slug
name
customers(last: 5) {
email
full_name
}
}
}
```
Multiple order-by arguments are supported. Super Graph is smart enough to allow cursor based pagination when you also need complex sort order like below.
```graphql
query {
products(
last: 10
before: $cursor
order_by: [ price: desc, total_customers: asc ]) {
slug
name
}
}
```
## Using Variables
Variables (`$product_id`) and their values (`"product_id": 5`) can be passed along side the GraphQL query. Using variables makes for better client side code as well as improved server side SQL query caching. The build-in web-ui also supports setting variables. Not having to manipulate your GraphQL query string to insert values into it makes for cleaner
@ -1542,7 +1649,7 @@ tables:
```
## Configuration files
## Configuration
Configuration files can either be in YAML or JSON their names are derived from the `GO_ENV` variable, for example `GO_ENV=prod` will cause the `prod.yaml` config file to be used. or `GO_ENV=dev` will use the `dev.yaml`. A path to look for the config files in can be specified using the `-path <folder>` command line argument.
@ -1795,6 +1902,71 @@ SG_AUTH_RAILS_REDIS_PASSWORD
SG_AUTH_JWT_PUBLIC_KEY_FILE
```
## YugabyteDB
Yugabyte is an open-source, geo-distrubuted cloud-native relational DB that scales horizontally. Super Graph works with Yugabyte right out of the box. If you think you're data needs will outgrow Postgres and you don't really want to deal with sharding then Yugabyte is the way to go. Just point Super Graph to your Yugabyte DB and everything will just work including running migrations, seeding, querying, mutations, etc.
To use Yugabyte in your local development flow just uncomment the following lines in the `docker-compose.yml` file that is part of your Super Graph app. Also remember to comment out the originl postgres `db` config.
```yaml
# Postgres DB
# db:
# image: postgres:latest
# ports:
# - "5432:5432"
#Standard config to run a single node of Yugabyte
yb-master:
image: yugabytedb/yugabyte:latest
container_name: yb-master-n1
command: [ "/home/yugabyte/bin/yb-master",
"--fs_data_dirs=/mnt/disk0,/mnt/disk1",
"--master_addresses=yb-master-n1:7100",
"--replication_factor=1",
"--enable_ysql=true"]
ports:
- "7000:7000"
environment:
SERVICE_7000_NAME: yb-master
db:
image: yugabytedb/yugabyte:latest
container_name: yb-tserver-n1
command: [ "/home/yugabyte/bin/yb-tserver",
"--fs_data_dirs=/mnt/disk0,/mnt/disk1",
"--start_pgsql_proxy",
"--tserver_master_addrs=yb-master-n1:7100"]
ports:
- "9042:9042"
- "6379:6379"
- "5433:5433"
- "9000:9000"
environment:
SERVICE_5433_NAME: ysql
SERVICE_9042_NAME: ycql
SERVICE_6379_NAME: yedis
SERVICE_9000_NAME: yb-tserver
depends_on:
- yb-master
# Environment variables to point Super Graph to Yugabyte
# This is required since it uses a different user and port number
yourapp_api:
image: dosco/super-graph:latest
environment:
GO_ENV: "development"
Uncomment below for Yugabyte DB
SG_DATABASE_PORT: 5433
SG_DATABASE_USER: yugabyte
SG_DATABASE_PASSWORD: yugabyte
volumes:
- ./config:/config
ports:
- "8080:8080"
depends_on:
- db
```
## Developing Super Graph
If you want to build and run Super Graph from code then the below commands will build the web ui and launch Super Graph in developer mode with a watcher to rebuild on code changes. And the demo rails app is also launched to make it essier to test changes.

2
jsn/filter.go
View File

@ -109,7 +109,7 @@ func Filter(w *bytes.Buffer, b []byte, keys []string) error {
case state == expectValue && b[i] == 'n':
state = expectNull
case state == expectNull && b[i] == 'l':
case state == expectNull && (b[i-1] == 'l' && b[i] == 'l'):
e = i
}

3
jsn/get.go
View File

@ -117,8 +117,9 @@ func Get(b []byte, keys [][]byte) []Field {
case state == expectValue && b[i] == 'n':
state = expectNull
s = i
case state == expectNull && b[i] == 'l':
case state == expectNull && (b[i-1] == 'l' && b[i] == 'l'):
e = i
}

29
jsn/json_test.go
View File

@ -158,6 +158,9 @@ var (
input5 = `
{"data":{"title":"In September 2018, Slovak police stated that Kuciak was murdered because of his investigative work, and that the murder had been ordered.[9][10] They arrested eight suspects,[11] charging three of them with first-degree murder.[11]","topics":["cpp"]},"a":["1111"]},"thread_slug":"in-september-2018-slovak-police-stated-that-kuciak-7929",}`
input6 = `
{"users" : [{"id" : 1, "email" : "vicram@gmail.com", "slug" : "vikram-rangnekar", "threads" : [], "threads_cursor" : null}, {"id" : 3, "email" : "marareilly@lang.name", "slug" : "raymundo-corwin", "threads" : [{"id" : 9, "title" : "Et alias et aut porro praesentium nam in voluptatem reiciendis quisquam perspiciatis inventore eos quia et et enim qui amet."}, {"id" : 25, "title" : "Ipsam quam nemo culpa tempore amet optio sit sed eligendi autem consequatur quaerat rem velit quibusdam quibusdam optio a voluptatem."}], "threads_cursor" : 25}], "users_cursor" : 3}`
)
func TestGet(t *testing.T) {
@ -227,6 +230,32 @@ func TestGet1(t *testing.T) {
}
}
func TestGet2(t *testing.T) {
values := Get([]byte(input6), [][]byte{
[]byte("users_cursor"), []byte("threads_cursor"),
})
expected := []Field{
{[]byte("threads_cursor"), []byte(`null`)},
{[]byte("threads_cursor"), []byte(`25`)},
{[]byte("users_cursor"), []byte(`3`)},
}
if len(values) != len(expected) {
t.Fatal("len(values) != len(expected)")
}
for i := range expected {
if !bytes.Equal(values[i].Key, expected[i].Key) {
t.Error(string(values[i].Key), " != ", string(expected[i].Key))
}
if !bytes.Equal(values[i].Value, expected[i].Value) {
t.Error(string(values[i].Value), " != ", string(expected[i].Value))
}
}
}
func TestValue(t *testing.T) {
v1 := []byte("12345")
if !bytes.Equal(Value(v1), v1) {

3
jsn/keys.go
View File

@ -101,8 +101,9 @@ func Keys(b []byte) [][]byte {
case state == expectValue && b[i] == 'n':
state = expectNull
s = i
case state == expectNull && b[i] == 'l':
case state == expectNull && (b[i-1] == 'l' && b[i] == 'l'):
e = i
}

3
jsn/replace.go
View File

@ -104,8 +104,9 @@ func Replace(w *bytes.Buffer, b []byte, from, to []Field) error {
case state == expectValue && b[i] == 'n':
state = expectNull
s = i
case state == expectNull && b[i] == 'l':
case state == expectNull && (b[i-1] == 'l' && b[i] == 'l'):
e = i
}

3
jsn/strip.go
View File

@ -82,8 +82,9 @@ func Strip(b []byte, path [][]byte) []byte {
case state == expectValue && b[i] == 'n':
state = expectNull
s = i
case state == expectNull && b[i] == 'l':
case state == expectNull && (b[i-1] == 'l' && b[i] == 'l'):
e = i
}

8
migrate/migrate.go
View File

@ -257,7 +257,7 @@ func (m *Migrator) MigrateTo(targetVersion int32) (err error) {
ctx := context.Background()
// Lock to ensure multiple migrations cannot occur simultaneously
lockNum := int64(9628173550095224) // arbitrary random number
if _, lockErr := m.conn.Exec(ctx, "select pg_advisory_lock($1)", lockNum); lockErr != nil {
if _, lockErr := m.conn.Exec(ctx, "select pg_try_advisory_lock($1)", lockNum); lockErr != nil {
return lockErr
}
defer func() {
@ -331,9 +331,9 @@ func (m *Migrator) MigrateTo(targetVersion int32) (err error) {
}
// Reset all database connection settings. Important to do before updating version as search_path may have been changed.
if _, err := tx.Exec(ctx, "reset all"); err != nil {
return err
}
// if _, err := tx.Exec(ctx, "reset all"); err != nil {
// return err
// }
// Add one to the version
_, err = tx.Exec(ctx, "update "+m.versionTable+" set version=$1", sequence)

198
psql/columns.go Normal file
View File

@ -0,0 +1,198 @@
//nolint:errcheck
package psql
import (
"errors"
"io"
"strings"
"github.com/dosco/super-graph/qcode"
)
func (c *compilerContext) renderBaseColumns(
sel *qcode.Select,
ti *DBTableInfo,
childCols []*qcode.Column,
skipped uint32) ([]int, bool, error) {
var realColsRendered []int
colcount := (len(sel.Cols) + len(sel.OrderBy) + 1)
colmap := make(map[string]struct{}, colcount)
isSearch := sel.Args["search"] != nil
isCursorPaged := sel.Paging.Type != qcode.PtOffset
isAgg := false
i := 0
for n, col := range sel.Cols {
cn := col.Name
colmap[cn] = struct{}{}
_, isRealCol := ti.ColMap[cn]
if isRealCol {
c.renderComma(i)
realColsRendered = append(realColsRendered, n)
colWithTable(c.w, ti.Name, cn)
i++
continue
}
if isSearch && !isRealCol {
switch {
case cn == "search_rank":
if err := c.renderColumnSearchRank(sel, ti, col, i); err != nil {
return nil, false, err
}
i++
case strings.HasPrefix(cn, "search_headline_"):
if err := c.renderColumnSearchHeadline(sel, ti, col, i); err != nil {
return nil, false, err
}
i++
}
} else {
if err := c.renderColumnFunction(sel, ti, col, i); err != nil {
return nil, false, err
}
isAgg = true
i++
}
}
if isCursorPaged {
if _, ok := colmap[ti.PrimaryCol.Key]; !ok {
colmap[ti.PrimaryCol.Key] = struct{}{}
c.renderComma(i)
colWithTable(c.w, ti.Name, ti.PrimaryCol.Name)
}
i++
}
for _, ob := range sel.OrderBy {
if _, ok := colmap[ob.Col]; ok {
continue
}
colmap[ob.Col] = struct{}{}
c.renderComma(i)
colWithTable(c.w, ti.Name, ob.Col)
i++
}
for _, col := range childCols {
if _, ok := colmap[col.Name]; ok {
continue
}
c.renderComma(i)
colWithTable(c.w, col.Table, col.Name)
i++
}
return realColsRendered, isAgg, nil
}
func (c *compilerContext) renderColumnSearchRank(sel *qcode.Select, ti *DBTableInfo, col qcode.Column, columnsRendered int) error {
if isColumnBlocked(sel, col.Name) {
return nil
}
if ti.TSVCol == nil {
return errors.New("no ts_vector column found")
}
cn := ti.TSVCol.Name
arg := sel.Args["search"]
c.renderComma(columnsRendered)
//fmt.Fprintf(w, `ts_rank("%s"."%s", websearch_to_tsquery('%s')) AS %s`,
//c.sel.Name, cn, arg.Val, col.Name)
io.WriteString(c.w, `ts_rank(`)
colWithTable(c.w, ti.Name, cn)
if c.schema.ver >= 110000 {
io.WriteString(c.w, `, websearch_to_tsquery('{{`)
} else {
io.WriteString(c.w, `, to_tsquery('{{`)
}
io.WriteString(c.w, arg.Val)
io.WriteString(c.w, `}}'))`)
alias(c.w, col.Name)
return nil
}
func (c *compilerContext) renderColumnSearchHeadline(sel *qcode.Select, ti *DBTableInfo, col qcode.Column, columnsRendered int) error {
cn := col.Name[16:]
if isColumnBlocked(sel, cn) {
return nil
}
arg := sel.Args["search"]
c.renderComma(columnsRendered)
//fmt.Fprintf(w, `ts_headline("%s"."%s", websearch_to_tsquery('%s')) AS %s`,
//c.sel.Name, cn, arg.Val, col.Name)
io.WriteString(c.w, `ts_headline(`)
colWithTable(c.w, ti.Name, cn)
if c.schema.ver >= 110000 {
io.WriteString(c.w, `, websearch_to_tsquery('{{`)
} else {
io.WriteString(c.w, `, to_tsquery('{{`)
}
io.WriteString(c.w, arg.Val)
io.WriteString(c.w, `}}'))`)
alias(c.w, col.Name)
return nil
}
func (c *compilerContext) renderColumnFunction(sel *qcode.Select, ti *DBTableInfo, col qcode.Column, columnsRendered int) error {
pl := funcPrefixLen(col.Name)
// if pl == 0 {
// //fmt.Fprintf(w, `'%s not defined' AS %s`, cn, col.Name)
// io.WriteString(c.w, `'`)
// io.WriteString(c.w, col.Name)
// io.WriteString(c.w, ` not defined'`)
// alias(c.w, col.Name)
// }
if pl == 0 || !sel.Functions {
return nil
}
cn := col.Name[pl:]
if isColumnBlocked(sel, cn) {
return nil
}
fn := cn[0 : pl-1]
c.renderComma(columnsRendered)
//fmt.Fprintf(w, `%s("%s"."%s") AS %s`, fn, c.sel.Name, cn, col.Name)
io.WriteString(c.w, fn)
io.WriteString(c.w, `(`)
colWithTable(c.w, ti.Name, cn)
io.WriteString(c.w, `)`)
alias(c.w, col.Name)
return nil
}
func (c *compilerContext) renderComma(columnsRendered int) {
if columnsRendered != 0 {
io.WriteString(c.w, `, `)
}
}
func isColumnBlocked(sel *qcode.Select, name string) bool {
if len(sel.Allowed) != 0 {
if _, ok := sel.Allowed[name]; !ok {
return true
}
}
return false
}

119
psql/insert_test.go
View File

@ -12,68 +12,41 @@ func simpleInsert(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *) SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id" FROM "users" LIMIT ('1') :: integer) AS "users_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{"email": "reannagreenholt@orn.com", "full_name": "Flo Barton"}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func singleInsert(t *testing.T) {
gql := `mutation {
product(id: 15, insert: $insert) {
product(id: $id, insert: $insert) {
id
name
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{insert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description", "price", "user_id") SELECT "t"."name", "t"."description", "t"."price", "t"."user_id" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"insert": json.RawMessage(` { "name": "my_name", "price": 6.95, "description": "my_desc", "user_id": 5 }`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "anon")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "anon")
}
func bulkInsert(t *testing.T) {
gql := `mutation {
product(name: "test", id: 15, insert: $insert) {
product(name: "test", id: $id, insert: $insert) {
id
name
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{insert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_recordset(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"insert": json.RawMessage(` [{ "name": "my_name", "description": "my_desc" }]`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "anon")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "anon")
}
func simpleInsertWithPresets(t *testing.T) {
@ -83,20 +56,11 @@ func simpleInsertWithPresets(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", 'now' :: timestamp without time zone, 'now' :: timestamp without time zone, '{{user_id}}' :: bigint FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{"name": "Tomato", "price": 5.76}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func nestedInsertManyToMany(t *testing.T) {
@ -118,10 +82,6 @@ func nestedInsertManyToMany(t *testing.T) {
}
}`
sql1 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "customers" AS (INSERT INTO "customers" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price") SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t RETURNING *), "purchases" AS (INSERT INTO "purchases" ("sale_type", "quantity", "due_date", "product_id", "customer_id") SELECT "t"."sale_type", "t"."quantity", "t"."due_date", "products"."id", "customers"."id" FROM "_sg_input" i, "products", "customers", json_populate_record(NULL::purchases, i.j) t RETURNING *) SELECT json_object_agg('purchase', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "purchases_0"."sale_type" AS "sale_type", "purchases_0"."quantity" AS "quantity", "purchases_0"."due_date" AS "due_date", "product_1_join"."json_1" AS "product", "customer_2_join"."json_2" AS "customer") AS "json_row_0")) AS "json_0" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "customers_2"."id" AS "id", "customers_2"."full_name" AS "full_name", "customers_2"."email" AS "email") AS "json_row_2")) AS "json_2" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2" LIMIT ('1') :: integer) AS "customer_2_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
sql2 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "price") SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t RETURNING *), "customers" AS (INSERT INTO "customers" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t RETURNING *), "purchases" AS (INSERT INTO "purchases" ("sale_type", "quantity", "due_date", "customer_id", "product_id") SELECT "t"."sale_type", "t"."quantity", "t"."due_date", "customers"."id", "products"."id" FROM "_sg_input" i, "customers", "products", json_populate_record(NULL::purchases, i.j) t RETURNING *) SELECT json_object_agg('purchase', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "purchases_0"."sale_type" AS "sale_type", "purchases_0"."quantity" AS "quantity", "purchases_0"."due_date" AS "due_date", "product_1_join"."json_1" AS "product", "customer_2_join"."json_2" AS "customer") AS "json_row_0")) AS "json_0" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "customers_2"."id" AS "id", "customers_2"."full_name" AS "full_name", "customers_2"."email" AS "email") AS "json_row_2")) AS "json_2" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2" LIMIT ('1') :: integer) AS "customer_2_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(` {
"sale_type": "bought",
@ -139,16 +99,7 @@ func nestedInsertManyToMany(t *testing.T) {
`),
}
for i := 0; i < 1000; i++ {
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql1 && string(resSQL) != sql2 {
t.Fatal(errNotExpected)
}
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedInsertOneToMany(t *testing.T) {
@ -165,8 +116,6 @@ func nestedInsertOneToMany(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "users"."id" FROM "_sg_input" i, "users", json_populate_record(NULL::products, i.j->'product') t RETURNING *) SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."full_name" AS "full_name", "users_0"."email" AS "email", "product_1_join"."json_1" AS "product") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"email": "thedude@rug.com",
@ -182,14 +131,7 @@ func nestedInsertOneToMany(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedInsertOneToOne(t *testing.T) {
@ -205,8 +147,6 @@ func nestedInsertOneToOne(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j->'user') t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "users"."id" FROM "_sg_input" i, "users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -225,14 +165,7 @@ func nestedInsertOneToOne(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedInsertOneToManyWithConnect(t *testing.T) {
@ -249,8 +182,6 @@ func nestedInsertOneToManyWithConnect(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *), "products" AS ( UPDATE "products" SET "user_id" = "users"."id" FROM "users" WHERE ("products"."id"= ((i.j->'product'->'connect'->>'id'))::bigint) RETURNING "products".*) SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."full_name" AS "full_name", "users_0"."email" AS "email", "product_1_join"."json_1" AS "product") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"email": "thedude@rug.com",
@ -263,14 +194,7 @@ func nestedInsertOneToManyWithConnect(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedInsertOneToOneWithConnect(t *testing.T) {
@ -290,8 +214,6 @@ func nestedInsertOneToOneWithConnect(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint LIMIT 1), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user", "tags_2_join"."json_2" AS "tags") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id", "products"."tags" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_2"), '[]') AS "json_2" FROM (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "tags_2"."id" AS "id", "tags_2"."name" AS "name") AS "json_row_2")) AS "json_2" FROM (SELECT "tags"."id", "tags"."name" FROM "tags" WHERE ((("tags"."slug") = any ("products_0"."tags"))) LIMIT ('20') :: integer) AS "tags_2" LIMIT ('20') :: integer) AS "json_agg_2") AS "tags_2_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -304,14 +226,7 @@ func nestedInsertOneToOneWithConnect(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedInsertOneToOneWithConnectArray(t *testing.T) {
@ -327,8 +242,6 @@ func nestedInsertOneToOneWithConnectArray(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id" = ANY((select a::bigint AS list from json_array_elements_text((i.j->'user'->'connect'->>'id')::json) AS a)) LIMIT 1), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -341,14 +254,7 @@ func nestedInsertOneToOneWithConnectArray(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func TestCompileInsert(t *testing.T) {
@ -362,5 +268,4 @@ func TestCompileInsert(t *testing.T) {
t.Run("nestedInsertOneToManyWithConnect", nestedInsertOneToManyWithConnect)
t.Run("nestedInsertOneToOneWithConnect", nestedInsertOneToOneWithConnect)
t.Run("nestedInsertOneToOneWithConnectArray", nestedInsertOneToOneWithConnectArray)
}

8
psql/mutate.go
View File

@ -77,7 +77,7 @@ func (co *Compiler) compileMutation(qc *qcode.QCode, w io.Writer, vars Variables
root.Where = nil
root.Args = nil
return c.compileQuery(qc, w)
return c.compileQuery(qc, w, vars)
}
type kvitem struct {
@ -682,12 +682,6 @@ func renderCteNameWithSuffix(w io.Writer, item kvitem, suffix string) error {
return nil
}
func quoted(w io.Writer, identifier string) {
io.WriteString(w, `"`)
io.WriteString(w, identifier)
io.WriteString(w, `"`)
}
func joinPath(w io.Writer, path []string) {
for i := range path {
if i != 0 {

44
psql/mutate_test.go
View File

@ -13,20 +13,11 @@ func singleUpsert(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"upsert": json.RawMessage(` { "name": "my_name", "description": "my_desc" }`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func singleUpsertWhere(t *testing.T) {
@ -37,20 +28,11 @@ func singleUpsertWhere(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) WHERE (("products"."price") > 3) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"upsert": json.RawMessage(` { "name": "my_name", "description": "my_desc" }`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func bulkUpsert(t *testing.T) {
@ -61,20 +43,11 @@ func bulkUpsert(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_recordset(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"upsert": json.RawMessage(` [{ "name": "my_name", "description": "my_desc" }]`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func delete(t *testing.T) {
@ -85,20 +58,11 @@ func delete(t *testing.T) {
}
}`
sql := `WITH "products" AS (DELETE FROM "products" WHERE (((("products"."price") > 0) AND (("products"."price") < 8)) AND (("products"."id") IS NOT DISTINCT FROM 1)) RETURNING "products".*)SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"update": json.RawMessage(` { "name": "my_name", "description": "my_desc" }`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
// func blockedInsert(t *testing.T) {

101
psql/psql_test.go
View File

@ -1,8 +1,11 @@
package psql
import (
"fmt"
"io/ioutil"
"log"
"os"
"strings"
"testing"
"github.com/dosco/super-graph/qcode"
@ -10,11 +13,14 @@ import (
const (
errNotExpected = "Generated SQL did not match what was expected"
headerMarker = "=== RUN"
commentMarker = "---"
)
var (
qcompile *qcode.Compiler
pcompile *Compiler
expected map[string][]string
)
func TestMain(m *testing.M) {
@ -138,21 +144,94 @@ func TestMain(m *testing.M) {
Vars: vars,
})
expected = make(map[string][]string)
b, err := ioutil.ReadFile("tests.sql")
if err != nil {
log.Fatal(err)
}
text := string(b)
lines := strings.Split(text, "\n")
var h string
for _, v := range lines {
switch {
case strings.HasPrefix(v, headerMarker):
h = strings.TrimSpace(v[len(headerMarker):])
case strings.HasPrefix(v, commentMarker):
break
default:
v := strings.TrimSpace(v)
if len(v) != 0 {
expected[h] = append(expected[h], v)
}
}
}
os.Exit(m.Run())
}
func compileGQLToPSQL(gql string, vars Variables, role string) ([]byte, error) {
qc, err := qcompile.Compile([]byte(gql), role)
if err != nil {
return nil, err
func compileGQLToPSQL(t *testing.T, gql string, vars Variables, role string) {
generateTestFile := false
if generateTestFile {
var sqlStmts []string
for i := 0; i < 100; i++ {
qc, err := qcompile.Compile([]byte(gql), role)
if err != nil {
t.Fatal(err)
}
_, sqlB, err := pcompile.CompileEx(qc, vars)
if err != nil {
t.Fatal(err)
}
sql := string(sqlB)
match := false
for _, s := range sqlStmts {
if sql == s {
match = true
break
}
}
if !match {
s := string(sql)
sqlStmts = append(sqlStmts, s)
fmt.Println(s)
}
}
return
}
_, sqlStmt, err := pcompile.CompileEx(qc, vars)
if err != nil {
return nil, err
for i := 0; i < 200; i++ {
qc, err := qcompile.Compile([]byte(gql), role)
if err != nil {
t.Fatal(err)
}
_, sqlStmt, err := pcompile.CompileEx(qc, vars)
if err != nil {
t.Fatal(err)
}
failed := true
for _, sql := range expected[t.Name()] {
if string(sqlStmt) == sql {
failed = false
}
}
if failed {
fmt.Println(string(sqlStmt))
t.Fatal(errNotExpected)
}
}
//fmt.Println(string(sqlStmt))
return sqlStmt, nil
}

762
psql/query.go
View File

@ -30,7 +30,10 @@ type Compiler struct {
}
func NewCompiler(conf Config) *Compiler {
return &Compiler{conf.Schema, conf.Vars}
return &Compiler{
schema: conf.Schema,
vars: conf.Vars,
}
}
func (c *Compiler) AddRelationship(child, parent string, rel *DBRel) error {
@ -65,7 +68,7 @@ func (co *Compiler) CompileEx(qc *qcode.QCode, vars Variables) (uint32, []byte,
func (co *Compiler) Compile(qc *qcode.QCode, w io.Writer, vars Variables) (uint32, error) {
switch qc.Type {
case qcode.QTQuery:
return co.compileQuery(qc, w)
return co.compileQuery(qc, w, vars)
case qcode.QTInsert, qcode.QTUpdate, qcode.QTDelete, qcode.QTUpsert:
return co.compileMutation(qc, w, vars)
}
@ -73,67 +76,37 @@ func (co *Compiler) Compile(qc *qcode.QCode, w io.Writer, vars Variables) (uint3
return 0, fmt.Errorf("Unknown operation type %d", qc.Type)
}
func (co *Compiler) compileQuery(qc *qcode.QCode, w io.Writer) (uint32, error) {
func (co *Compiler) compileQuery(qc *qcode.QCode, w io.Writer, vars Variables) (uint32, error) {
if len(qc.Selects) == 0 {
return 0, errors.New("empty query")
}
c := &compilerContext{w, qc.Selects, co}
multiRoot := (len(qc.Roots) > 1)
st := NewIntStack()
si := 0
i := 0
if multiRoot {
io.WriteString(c.w, `SELECT row_to_json("json_root") FROM (SELECT `)
for _, id := range qc.Roots {
root := qc.Selects[id]
if root.SkipRender {
continue
}
st.Push(root.ID + closeBlock)
st.Push(root.ID)
if si != 0 {
io.WriteString(c.w, `, `)
}
io.WriteString(c.w, `"sel_`)
int2string(c.w, root.ID)
io.WriteString(c.w, `"."json_`)
int2string(c.w, root.ID)
io.WriteString(c.w, `"`)
alias(c.w, root.FieldName)
si++
io.WriteString(c.w, `SELECT json_build_object(`)
for _, id := range qc.Roots {
root := &qc.Selects[id]
if root.SkipRender {
continue
}
if si != 0 {
io.WriteString(c.w, ` FROM `)
st.Push(root.ID + closeBlock)
st.Push(root.ID)
if i != 0 {
io.WriteString(c.w, `, `)
}
} else {
root := qc.Selects[0]
if !root.SkipRender {
io.WriteString(c.w, `SELECT json_object_agg(`)
io.WriteString(c.w, `'`)
io.WriteString(c.w, root.FieldName)
io.WriteString(c.w, `', `)
io.WriteString(c.w, `json_`)
int2string(c.w, root.ID)
st.Push(root.ID + closeBlock)
st.Push(root.ID)
io.WriteString(c.w, `) FROM `)
si++
}
c.renderRootSelect(root)
i++
}
if si == 0 {
io.WriteString(c.w, `) as "__root" FROM `)
if i == 0 {
return 0, errors.New("all tables skipped. cannot render query")
}
@ -149,22 +122,22 @@ func (co *Compiler) compileQuery(qc *qcode.QCode, w io.Writer) (uint32, error) {
if id < closeBlock {
sel := &c.s[id]
if sel.ParentID == -1 {
io.WriteString(c.w, `(`)
}
ti, err := c.schema.GetTable(sel.Name)
if err != nil {
return 0, err
}
if sel.ParentID != -1 {
if err = c.renderLateralJoin(sel); err != nil {
return 0, err
}
if sel.ParentID == -1 {
io.WriteString(c.w, `(`)
} else {
c.renderLateralJoin(sel)
}
skipped, err := c.renderSelect(sel, ti)
if !ti.Singular {
c.renderPluralSelect(sel, ti)
}
skipped, err := c.renderSelect(sel, ti, vars)
if err != nil {
return 0, err
}
@ -191,40 +164,94 @@ func (co *Compiler) compileQuery(qc *qcode.QCode, w io.Writer) (uint32, error) {
return 0, err
}
err = c.renderSelectClose(sel, ti)
if err != nil {
return 0, err
if !ti.Singular {
io.WriteString(c.w, `)`)
aliasWithID(c.w, "__sel", sel.ID)
}
if sel.ParentID != -1 {
if err = c.renderLateralJoinClose(sel); err != nil {
return 0, err
}
} else {
if sel.ParentID == -1 {
io.WriteString(c.w, `)`)
aliasWithID(c.w, `sel`, sel.ID)
aliasWithID(c.w, "__sel", sel.ID)
if st.Len() != 0 {
io.WriteString(c.w, `, `)
}
} else {
c.renderLateralJoinClose(sel)
}
if len(sel.Args) != 0 {
i := 0
for _, v := range sel.Args {
qcode.FreeNode(v)
qcode.FreeNode(v, 500)
i++
}
}
}
}
if multiRoot {
io.WriteString(c.w, `) AS "json_root"`)
}
return ignored, nil
}
func (c *compilerContext) processChildren(sel *qcode.Select, ti *DBTableInfo) (uint32, []*qcode.Column, error) {
func (c *compilerContext) renderPluralSelect(sel *qcode.Select, ti *DBTableInfo) error {
io.WriteString(c.w, `SELECT coalesce(json_agg("__sel_`)
int2string(c.w, sel.ID)
io.WriteString(c.w, `"."json"), '[]') as "json"`)
if sel.Paging.Type != qcode.PtOffset {
n := 0
// check if primary key already included in order by
// query argument
for _, ob := range sel.OrderBy {
if ob.Col == ti.PrimaryCol.Key {
n = 1
break
}
}
if n == 1 {
n = len(sel.OrderBy)
} else {
n = len(sel.OrderBy) + 1
}
io.WriteString(c.w, `, CONCAT_WS(','`)
for i := 0; i < n; i++ {
io.WriteString(c.w, `, max("__cur_`)
int2string(c.w, int32(i))
io.WriteString(c.w, `")`)
}
io.WriteString(c.w, `) as "cursor"`)
}
io.WriteString(c.w, ` FROM (`)
return nil
}
func (c *compilerContext) renderRootSelect(sel *qcode.Select) error {
io.WriteString(c.w, `'`)
io.WriteString(c.w, sel.FieldName)
io.WriteString(c.w, `', `)
io.WriteString(c.w, `"__sel_`)
int2string(c.w, sel.ID)
io.WriteString(c.w, `"."json"`)
if sel.Paging.Type != qcode.PtOffset {
io.WriteString(c.w, `, '`)
io.WriteString(c.w, sel.FieldName)
io.WriteString(c.w, `_cursor', `)
io.WriteString(c.w, `"__sel_`)
int2string(c.w, sel.ID)
io.WriteString(c.w, `"."cursor"`)
}
return nil
}
func (c *compilerContext) initSelect(sel *qcode.Select, ti *DBTableInfo, vars Variables) (uint32, []*qcode.Column, error) {
var skipped uint32
cols := make([]*qcode.Column, 0, len(sel.Cols))
@ -238,6 +265,31 @@ func (c *compilerContext) processChildren(sel *qcode.Select, ti *DBTableInfo) (u
colmap[sel.OrderBy[i].Col] = struct{}{}
}
if sel.Paging.Type != qcode.PtOffset {
colmap[ti.PrimaryCol.Key] = struct{}{}
addPrimaryKey := true
for _, ob := range sel.OrderBy {
if ob.Col == ti.PrimaryCol.Key {
addPrimaryKey = false
break
}
}
if addPrimaryKey {
ob := &qcode.OrderBy{Col: ti.PrimaryCol.Name, Order: qcode.OrderAsc}
if sel.Paging.Type == qcode.PtBackward {
ob.Order = qcode.OrderDesc
}
sel.OrderBy = append(sel.OrderBy, ob)
}
}
if sel.Paging.Cursor {
c.addSeekPredicate(sel)
}
for _, id := range sel.Children {
child := &c.s[id]
@ -283,7 +335,73 @@ func (c *compilerContext) processChildren(sel *qcode.Select, ti *DBTableInfo) (u
return skipped, cols, nil
}
func (c *compilerContext) renderSelect(sel *qcode.Select, ti *DBTableInfo) (uint32, error) {
// This
// (A, B, C) >= (X, Y, Z)
//
// Becomes
// (A > X)
// OR ((A = X) AND (B > Y))
// OR ((A = X) AND (B = Y) AND (C > Z))
// OR ((A = X) AND (B = Y) AND (C = Z))
func (c *compilerContext) addSeekPredicate(sel *qcode.Select) error {
var or, and *qcode.Exp
obLen := len(sel.OrderBy)
if obLen > 1 {
or = qcode.NewFilter()
or.Op = qcode.OpOr
}
for i := 0; i < obLen; i++ {
if i > 0 {
and = qcode.NewFilter()
and.Op = qcode.OpAnd
}
for n, ob := range sel.OrderBy {
f := qcode.NewFilter()
f.Col = ob.Col
f.Type = qcode.ValRef
f.Table = "__cur"
f.Val = ob.Col
if obLen == 1 {
qcode.AddFilter(sel, f)
return nil
}
switch {
case i > 0 && n != i:
f.Op = qcode.OpEquals
case ob.Order == qcode.OrderDesc:
f.Op = qcode.OpLesserThan
default:
f.Op = qcode.OpGreaterThan
}
if and != nil {
and.Children = append(and.Children, f)
} else {
or.Children = append(or.Children, f)
}
if n == i {
break
}
}
if and != nil {
or.Children = append(or.Children, and)
}
}
qcode.AddFilter(sel, or)
return nil
}
func (c *compilerContext) renderSelect(sel *qcode.Select, ti *DBTableInfo, vars Variables) (uint32, error) {
var rel *DBRel
var err error
@ -296,131 +414,53 @@ func (c *compilerContext) renderSelect(sel *qcode.Select, ti *DBTableInfo) (uint
}
}
skipped, childCols, err := c.processChildren(sel, ti)
skipped, childCols, err := c.initSelect(sel, ti, vars)
if err != nil {
return 0, err
}
hasOrder := len(sel.OrderBy) != 0
// SELECT
if !ti.Singular {
//fmt.Fprintf(w, `SELECT coalesce(json_agg("%s"`, c.sel.Name)
io.WriteString(c.w, `SELECT coalesce(json_agg("`)
io.WriteString(c.w, "json_")
int2string(c.w, sel.ID)
io.WriteString(c.w, `"`)
io.WriteString(c.w, `SELECT json_build_object(`)
if err := c.renderColumns(sel, ti, skipped); err != nil {
return 0, err
}
io.WriteString(c.w, `) AS "json"`)
if hasOrder {
if err := c.renderOrderBy(sel, ti); err != nil {
return 0, err
}
if sel.Paging.Type != qcode.PtOffset {
for i, ob := range sel.OrderBy {
io.WriteString(c.w, `, LAST_VALUE(`)
colWithTableID(c.w, ti.Name, sel.ID, ob.Col)
io.WriteString(c.w, `) OVER() AS "__cur_`)
int2string(c.w, int32(i))
io.WriteString(c.w, `"`)
}
//fmt.Fprintf(w, `), '[]') AS "%s" FROM (`, c.sel.Name)
io.WriteString(c.w, `), '[]')`)
aliasWithID(c.w, "json", sel.ID)
io.WriteString(c.w, ` FROM (`)
}
// ROW-TO-JSON
io.WriteString(c.w, `SELECT `)
if len(sel.DistinctOn) != 0 {
c.renderDistinctOn(sel, ti)
}
io.WriteString(c.w, `row_to_json((`)
//fmt.Fprintf(w, `SELECT "%d" FROM (SELECT `, c.sel.ID)
io.WriteString(c.w, `SELECT "json_row_`)
int2string(c.w, sel.ID)
io.WriteString(c.w, `" FROM (SELECT `)
// Combined column names
c.renderColumns(sel, ti)
c.renderRemoteRelColumns(sel, ti)
if err = c.renderJoinedColumns(sel, ti, skipped); err != nil {
return skipped, err
}
//fmt.Fprintf(w, `) AS "%d"`, c.sel.ID)
io.WriteString(c.w, `)`)
aliasWithID(c.w, "json_row", sel.ID)
//fmt.Fprintf(w, `)) AS "%s"`, c.sel.Name)
io.WriteString(c.w, `))`)
aliasWithID(c.w, "json", sel.ID)
// END-ROW-TO-JSON
if hasOrder {
c.renderOrderByColumns(sel, ti)
}
// END-SELECT
io.WriteString(c.w, ` FROM (`)
// FROM (SELECT .... )
err = c.renderBaseSelect(sel, ti, rel, childCols, skipped)
if err != nil {
return skipped, err
}
//fmt.Fprintf(w, `) AS "%s_%d"`, c.sel.Name, c.sel.ID)
io.WriteString(c.w, `)`)
aliasWithID(c.w, ti.Name, sel.ID)
// END-FROM
return skipped, nil
}
func (c *compilerContext) renderSelectClose(sel *qcode.Select, ti *DBTableInfo) error {
hasOrder := len(sel.OrderBy) != 0
if hasOrder {
err := c.renderOrderBy(sel, ti)
if err != nil {
return err
}
}
switch {
case ti.Singular:
io.WriteString(c.w, ` LIMIT ('1') :: integer`)
case len(sel.Paging.Limit) != 0:
//fmt.Fprintf(w, ` LIMIT ('%s') :: integer`, c.sel.Paging.Limit)
io.WriteString(c.w, ` LIMIT ('`)
io.WriteString(c.w, sel.Paging.Limit)
io.WriteString(c.w, `') :: integer`)
case sel.Paging.NoLimit:
break
default:
io.WriteString(c.w, ` LIMIT ('20') :: integer`)
}
if len(sel.Paging.Offset) != 0 {
//fmt.Fprintf(w, ` OFFSET ('%s') :: integer`, c.sel.Paging.Offset)
io.WriteString(c.w, `OFFSET ('`)
io.WriteString(c.w, sel.Paging.Offset)
io.WriteString(c.w, `') :: integer`)
}
if !ti.Singular {
//fmt.Fprintf(w, `) AS "json_agg_%d"`, c.sel.ID)
io.WriteString(c.w, `)`)
aliasWithID(c.w, "json_agg", sel.ID)
}
return nil
}
func (c *compilerContext) renderLateralJoin(sel *qcode.Select) error {
io.WriteString(c.w, ` LEFT OUTER JOIN LATERAL (`)
return nil
}
func (c *compilerContext) renderLateralJoinClose(sel *qcode.Select) error {
//fmt.Fprintf(w, `) AS "%s_%d_join" ON ('true')`, c.sel.Name, c.sel.ID)
io.WriteString(c.w, `)`)
aliasWithIDSuffix(c.w, sel.Name, sel.ID, "_join")
io.WriteString(c.w, `) `)
aliasWithID(c.w, "__sel", sel.ID)
io.WriteString(c.w, ` ON ('true')`)
return nil
}
@ -460,7 +500,7 @@ func (c *compilerContext) renderJoinByName(table, parent string, id int32) error
return nil
}
func (c *compilerContext) renderColumns(sel *qcode.Select, ti *DBTableInfo) {
func (c *compilerContext) renderColumns(sel *qcode.Select, ti *DBTableInfo, skipped uint32) error {
i := 0
for _, col := range sel.Cols {
n := funcPrefixLen(col.Name)
@ -484,15 +524,21 @@ func (c *compilerContext) renderColumns(sel *qcode.Select, ti *DBTableInfo) {
if i != 0 {
io.WriteString(c.w, ", ")
}
//fmt.Fprintf(w, `"%s_%d"."%s" AS "%s"`,
//c.sel.Name, c.sel.ID, col.Name, col.FieldName)
colWithTableIDAlias(c.w, ti.Name, sel.ID, col.Name, col.FieldName)
squoted(c.w, col.FieldName)
io.WriteString(c.w, ", ")
colWithTableID(c.w, ti.Name, sel.ID, col.Name)
i++
}
i += c.renderRemoteRelColumns(sel, ti, i)
return c.renderJoinColumns(sel, ti, skipped, i)
}
func (c *compilerContext) renderRemoteRelColumns(sel *qcode.Select, ti *DBTableInfo) {
i := 0
func (c *compilerContext) renderRemoteRelColumns(sel *qcode.Select, ti *DBTableInfo, colsRendered int) int {
i := colsRendered
for _, id := range sel.Children {
child := &c.s[id]
@ -504,18 +550,19 @@ func (c *compilerContext) renderRemoteRelColumns(sel *qcode.Select, ti *DBTableI
if i != 0 || len(sel.Cols) != 0 {
io.WriteString(c.w, ", ")
}
//fmt.Fprintf(w, `"%s_%d"."%s" AS "%s"`,
//c.sel.Name, c.sel.ID, rel.Left.Col, rel.Right.Col)
squoted(c.w, rel.Right.Col)
io.WriteString(c.w, ", ")
colWithTableID(c.w, ti.Name, sel.ID, rel.Left.Col)
alias(c.w, rel.Right.Col)
i++
}
return i
}
func (c *compilerContext) renderJoinedColumns(sel *qcode.Select, ti *DBTableInfo, skipped uint32) error {
func (c *compilerContext) renderJoinColumns(sel *qcode.Select, ti *DBTableInfo, skipped uint32, colsRendered int) error {
// columns previously rendered
i := len(sel.Cols)
i := colsRendered
for _, id := range sel.Children {
if hasBit(skipped, uint32(id)) {
@ -530,18 +577,20 @@ func (c *compilerContext) renderJoinedColumns(sel *qcode.Select, ti *DBTableInfo
io.WriteString(c.w, ", ")
}
//fmt.Fprintf(w, `"%s_%d_join"."%s" AS "%s"`,
//s.Name, s.ID, s.Name, s.FieldName)
//if cti.Singular {
io.WriteString(c.w, `"`)
io.WriteString(c.w, childSel.Name)
io.WriteString(c.w, `_`)
squoted(c.w, childSel.FieldName)
io.WriteString(c.w, `, "__sel_`)
int2string(c.w, childSel.ID)
io.WriteString(c.w, `_join"."json_`)
int2string(c.w, childSel.ID)
io.WriteString(c.w, `" AS "`)
io.WriteString(c.w, childSel.FieldName)
io.WriteString(c.w, `"`)
io.WriteString(c.w, `"."json"`)
if childSel.Paging.Type != qcode.PtOffset {
io.WriteString(c.w, `, '`)
io.WriteString(c.w, childSel.FieldName)
io.WriteString(c.w, `_cursor', "__sel_`)
int2string(c.w, childSel.ID)
io.WriteString(c.w, `"."cursor"`)
}
i++
}
@ -550,171 +599,29 @@ func (c *compilerContext) renderJoinedColumns(sel *qcode.Select, ti *DBTableInfo
func (c *compilerContext) renderBaseSelect(sel *qcode.Select, ti *DBTableInfo, rel *DBRel,
childCols []*qcode.Column, skipped uint32) error {
var groupBy []int
isRoot := (rel == nil)
isFil := (sel.Where != nil && sel.Where.Op != qcode.OpNop)
isSearch := sel.Args["search"] != nil
isAgg := false
hasOrder := len(sel.OrderBy) != 0
colmap := make(map[string]struct{}, (len(sel.Cols) + len(sel.OrderBy)))
io.WriteString(c.w, ` FROM (SELECT `)
i := 0
for n, col := range sel.Cols {
cn := col.Name
colmap[cn] = struct{}{}
_, isRealCol := ti.ColMap[cn]
if !isRealCol {
if isSearch {
switch {
case cn == "search_rank":
if len(sel.Allowed) != 0 {
if _, ok := sel.Allowed[cn]; !ok {
continue
}
}
if ti.TSVCol == nil {
return errors.New("no ts_vector column found")
}
cn = ti.TSVCol.Name
arg := sel.Args["search"]
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `ts_rank("%s"."%s", websearch_to_tsquery('%s')) AS %s`,
//c.sel.Name, cn, arg.Val, col.Name)
io.WriteString(c.w, `ts_rank(`)
colWithTable(c.w, ti.Name, cn)
if c.schema.ver >= 110000 {
io.WriteString(c.w, `, websearch_to_tsquery('`)
} else {
io.WriteString(c.w, `, to_tsquery('`)
}
io.WriteString(c.w, arg.Val)
io.WriteString(c.w, `'))`)
alias(c.w, col.Name)
i++
case strings.HasPrefix(cn, "search_headline_"):
cn1 := cn[16:]
if len(sel.Allowed) != 0 {
if _, ok := sel.Allowed[cn1]; !ok {
continue
}
}
arg := sel.Args["search"]
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `ts_headline("%s"."%s", websearch_to_tsquery('%s')) AS %s`,
//c.sel.Name, cn, arg.Val, col.Name)
io.WriteString(c.w, `ts_headline(`)
colWithTable(c.w, ti.Name, cn1)
if c.schema.ver >= 110000 {
io.WriteString(c.w, `, websearch_to_tsquery('`)
} else {
io.WriteString(c.w, `, to_tsquery('`)
}
io.WriteString(c.w, arg.Val)
io.WriteString(c.w, `'))`)
alias(c.w, col.Name)
i++
}
} else {
pl := funcPrefixLen(cn)
if pl == 0 {
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `'%s not defined' AS %s`, cn, col.Name)
io.WriteString(c.w, `'`)
io.WriteString(c.w, cn)
io.WriteString(c.w, ` not defined'`)
alias(c.w, col.Name)
i++
} else if sel.Functions {
cn1 := cn[pl:]
if len(sel.Allowed) != 0 {
if _, ok := sel.Allowed[cn1]; !ok {
continue
}
}
if i != 0 {
io.WriteString(c.w, `, `)
}
fn := cn[0 : pl-1]
isAgg = true
//fmt.Fprintf(w, `%s("%s"."%s") AS %s`, fn, c.sel.Name, cn, col.Name)
io.WriteString(c.w, fn)
io.WriteString(c.w, `(`)
colWithTable(c.w, ti.Name, cn1)
io.WriteString(c.w, `)`)
alias(c.w, col.Name)
i++
}
}
} else {
groupBy = append(groupBy, n)
//fmt.Fprintf(w, `"%s"."%s"`, c.sel.Name, cn)
if i != 0 {
io.WriteString(c.w, `, `)
}
colWithTable(c.w, ti.Name, cn)
i++
}
if sel.Paging.Cursor {
c.renderCursorCTE(sel)
}
for _, ob := range sel.OrderBy {
if _, ok := colmap[ob.Col]; ok {
continue
}
colmap[ob.Col] = struct{}{}
io.WriteString(c.w, `SELECT `)
if i != 0 {
io.WriteString(c.w, `, `)
}
colWithTable(c.w, ti.Name, ob.Col)
i++
if len(sel.DistinctOn) != 0 {
c.renderDistinctOn(sel, ti)
}
for _, col := range childCols {
if _, ok := colmap[col.Name]; ok {
continue
}
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `"%s"."%s"`, col.Table, col.Name)
colWithTable(c.w, col.Table, col.Name)
i++
realColsRendered, isAgg, err := c.renderBaseColumns(sel, ti, childCols, skipped)
if err != nil {
return err
}
io.WriteString(c.w, ` FROM `)
c.renderFrom(sel, ti, rel)
// if tn, ok := c.tmap[sel.Name]; ok {
// //fmt.Fprintf(w, ` FROM "%s" AS "%s"`, tn, c.sel.Name)
// tableWithAlias(c.w, ti.Name, sel.Name)
// } else {
// //fmt.Fprintf(w, ` FROM "%s"`, c.sel.Name)
// io.WriteString(c.w, `"`)
// io.WriteString(c.w, sel.Name)
// io.WriteString(c.w, `"`)
// }
if isRoot && isFil {
io.WriteString(c.w, ` WHERE (`)
if err := c.renderWhere(sel, ti); err != nil {
@ -741,17 +648,19 @@ func (c *compilerContext) renderBaseSelect(sel *qcode.Select, ti *DBTableInfo, r
io.WriteString(c.w, `)`)
}
if isAgg {
if len(groupBy) != 0 {
io.WriteString(c.w, ` GROUP BY `)
if isAgg && len(realColsRendered) != 0 {
io.WriteString(c.w, ` GROUP BY `)
for i, id := range groupBy {
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `"%s"."%s"`, c.sel.Name, c.sel.Cols[id].Name)
colWithTable(c.w, ti.Name, sel.Cols[id].Name)
}
for i, id := range realColsRendered {
c.renderComma(i)
//fmt.Fprintf(w, `"%s"."%s"`, c.sel.Name, c.sel.Cols[id].Name)
colWithTable(c.w, ti.Name, sel.Cols[id].Name)
}
}
if hasOrder {
if err := c.renderOrderBy(sel, ti); err != nil {
return err
}
}
@ -779,10 +688,6 @@ func (c *compilerContext) renderBaseSelect(sel *qcode.Select, ti *DBTableInfo, r
io.WriteString(c.w, `') :: integer`)
}
//fmt.Fprintf(w, `) AS "%s_%d"`, c.sel.Name, c.sel.ID)
io.WriteString(c.w, `)`)
aliasWithID(c.w, ti.Name, sel.ID)
return nil
}
@ -821,24 +726,26 @@ func (c *compilerContext) renderFrom(sel *qcode.Select, ti *DBTableInfo, rel *DB
io.WriteString(c.w, `"`)
}
if sel.Paging.Cursor {
io.WriteString(c.w, `, "__cur"`)
}
return nil
}
func (c *compilerContext) renderOrderByColumns(sel *qcode.Select, ti *DBTableInfo) {
//colsRendered := len(sel.Cols) != 0
for i := range sel.OrderBy {
//io.WriteString(w, ", ")
io.WriteString(c.w, `, `)
col := sel.OrderBy[i].Col
//fmt.Fprintf(w, `"%s_%d"."%s" AS "%s_%d_%s_ob"`,
//c.sel.Name, c.sel.ID, c,
//c.sel.Name, c.sel.ID, c)
colWithTableID(c.w, ti.Name, sel.ID, col)
io.WriteString(c.w, ` AS `)
tableIDColSuffix(c.w, sel.Name, sel.ID, col, "_ob")
func (c *compilerContext) renderCursorCTE(sel *qcode.Select) error {
io.WriteString(c.w, `WITH "__cur" AS (SELECT `)
for i, ob := range sel.OrderBy {
if i != 0 {
io.WriteString(c.w, `, `)
}
io.WriteString(c.w, `a[`)
int2string(c.w, int32(i+1))
io.WriteString(c.w, `] as `)
quoted(c.w, ob.Col)
}
io.WriteString(c.w, ` FROM string_to_array('{{cursor}}', ',') as a) `)
return nil
}
func (c *compilerContext) renderRelationship(sel *qcode.Select, ti *DBTableInfo) error {
@ -961,7 +868,6 @@ func (c *compilerContext) renderExp(ex *qcode.Exp, ti *DBTableInfo, skipNested b
switch val.Op {
case qcode.OpFalse:
st.Push(val.Op)
qcode.FreeExp(val)
case qcode.OpAnd, qcode.OpOr:
st.Push(')')
@ -972,12 +878,12 @@ func (c *compilerContext) renderExp(ex *qcode.Exp, ti *DBTableInfo, skipNested b
}
}
st.Push('(')
qcode.FreeExp(val)
case qcode.OpNot:
//fmt.Printf("1> %s %d %s %s\n", val.Op, len(val.Children), val.Children[0].Op, val.Children[1].Op)
st.Push(val.Children[0])
st.Push(qcode.OpNot)
qcode.FreeExp(val)
default:
if !skipNested && len(val.NestedCols) != 0 {
@ -992,14 +898,13 @@ func (c *compilerContext) renderExp(ex *qcode.Exp, ti *DBTableInfo, skipNested b
if err := c.renderOp(val, ti); err != nil {
return err
}
qcode.FreeExp(val)
}
}
//qcode.FreeExp(val)
default:
return fmt.Errorf("12: unexpected value %v (%t)", intf, intf)
}
}
return nil
@ -1066,8 +971,12 @@ func (c *compilerContext) renderOp(ex *qcode.Exp, ti *DBTableInfo) error {
switch ex.Op {
case qcode.OpEquals:
io.WriteString(c.w, `IS NOT DISTINCT FROM`)
io.WriteString(c.w, `=`)
case qcode.OpNotEquals:
io.WriteString(c.w, `!=`)
case qcode.OpNotDistinct:
io.WriteString(c.w, `IS NOT DISTINCT FROM`)
case qcode.OpDistinct:
io.WriteString(c.w, `IS DISTINCT FROM`)
case qcode.OpGreaterOrEquals:
io.WriteString(c.w, `>=`)
@ -1130,23 +1039,24 @@ func (c *compilerContext) renderOp(ex *qcode.Exp, ti *DBTableInfo) error {
io.WriteString(c.w, `((`)
colWithTable(c.w, ti.Name, ti.TSVCol.Name)
if c.schema.ver >= 110000 {
io.WriteString(c.w, `) @@ websearch_to_tsquery('`)
io.WriteString(c.w, `) @@ websearch_to_tsquery('{{`)
} else {
io.WriteString(c.w, `) @@ to_tsquery('`)
io.WriteString(c.w, `) @@ to_tsquery('{{`)
}
io.WriteString(c.w, ex.Val)
io.WriteString(c.w, `'))`)
io.WriteString(c.w, `}}'))`)
return nil
default:
return fmt.Errorf("[Where] unexpected op code %d", ex.Op)
}
if ex.Type == qcode.ValList {
switch {
case ex.Type == qcode.ValList:
c.renderList(ex)
} else if col == nil {
case col == nil:
return errors.New("no column found for expression value")
} else {
default:
c.renderVal(ex, c.vars, col)
}
@ -1161,31 +1071,20 @@ func (c *compilerContext) renderOrderBy(sel *qcode.Select, ti *DBTableInfo) erro
io.WriteString(c.w, `, `)
}
ob := sel.OrderBy[i]
colWithTable(c.w, ti.Name, ob.Col)
switch ob.Order {
case qcode.OrderAsc:
//fmt.Fprintf(w, `"%s_%d.ob.%s" ASC`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` ASC`)
case qcode.OrderDesc:
//fmt.Fprintf(w, `"%s_%d.ob.%s" DESC`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` DESC`)
case qcode.OrderAscNullsFirst:
//fmt.Fprintf(w, `"%s_%d.ob.%s" ASC NULLS FIRST`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` ASC NULLS FIRST`)
case qcode.OrderDescNullsFirst:
//fmt.Fprintf(w, `%s_%d.ob.%s DESC NULLS FIRST`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` DESC NULLLS FIRST`)
case qcode.OrderAscNullsLast:
//fmt.Fprintf(w, `"%s_%d.ob.%s ASC NULLS LAST`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` ASC NULLS LAST`)
case qcode.OrderDescNullsLast:
//fmt.Fprintf(w, `%s_%d.ob.%s DESC NULLS LAST`, sel.Name, sel.ID, ob.Col)
tableIDColSuffix(c.w, sel.Name, sel.ID, ob.Col, "_ob")
io.WriteString(c.w, ` DESC NULLS LAST`)
default:
return fmt.Errorf("13: unexpected value %v", ob.Order)
@ -1200,8 +1099,7 @@ func (c *compilerContext) renderDistinctOn(sel *qcode.Select, ti *DBTableInfo) {
if i != 0 {
io.WriteString(c.w, `, `)
}
//fmt.Fprintf(w, `"%s_%d.ob.%s"`, c.sel.Name, c.sel.ID, c.sel.DistinctOn[i])
tableIDColSuffix(c.w, ti.Name, sel.ID, sel.DistinctOn[i], "_ob")
colWithTable(c.w, ti.Name, sel.DistinctOn[i])
}
io.WriteString(c.w, `) `)
}
@ -1228,32 +1126,24 @@ func (c *compilerContext) renderVal(ex *qcode.Exp, vars map[string]string, col *
io.WriteString(c.w, ` `)
switch ex.Type {
case qcode.ValBool, qcode.ValInt, qcode.ValFloat:
if len(ex.Val) != 0 {
io.WriteString(c.w, ex.Val)
} else {
io.WriteString(c.w, `''`)
}
case qcode.ValStr:
io.WriteString(c.w, `'`)
io.WriteString(c.w, ex.Val)
io.WriteString(c.w, `'`)
case qcode.ValVar:
io.WriteString(c.w, `'`)
if val, ok := vars[ex.Val]; ok {
io.WriteString(c.w, val)
squoted(c.w, val)
} else {
//fmt.Fprintf(w, `'{{%s}}'`, ex.Val)
io.WriteString(c.w, `{{`)
io.WriteString(c.w, ` '{{`)
io.WriteString(c.w, ex.Val)
io.WriteString(c.w, `}}`)
io.WriteString(c.w, `}}'`)
}
io.WriteString(c.w, `' :: `)
io.WriteString(c.w, col.Type)
case qcode.ValRef:
colWithTable(c.w, ex.Table, ex.Col)
default:
squoted(c.w, ex.Val)
}
//io.WriteString(c.w, `)`)
io.WriteString(c.w, ` :: `)
io.WriteString(c.w, col.Type)
}
func funcPrefixLen(fn string) int {
@ -1303,15 +1193,6 @@ func aliasWithID(w io.Writer, alias string, id int32) {
io.WriteString(w, `"`)
}
func aliasWithIDSuffix(w io.Writer, alias string, id int32, suffix string) {
io.WriteString(w, ` AS "`)
io.WriteString(w, alias)
io.WriteString(w, `_`)
int2string(w, id)
io.WriteString(w, suffix)
io.WriteString(w, `"`)
}
func colWithTable(w io.Writer, table, col string) {
io.WriteString(w, `"`)
io.WriteString(w, table)
@ -1332,27 +1213,16 @@ func colWithTableID(w io.Writer, table string, id int32, col string) {
io.WriteString(w, `"`)
}
func colWithTableIDAlias(w io.Writer, table string, id int32, col, alias string) {
func quoted(w io.Writer, identifier string) {
io.WriteString(w, `"`)
io.WriteString(w, table)
io.WriteString(w, `_`)
int2string(w, id)
io.WriteString(w, `"."`)
io.WriteString(w, col)
io.WriteString(w, `" AS "`)
io.WriteString(w, alias)
io.WriteString(w, identifier)
io.WriteString(w, `"`)
}
func tableIDColSuffix(w io.Writer, table string, id int32, col, suffix string) {
io.WriteString(w, `"`)
io.WriteString(w, table)
io.WriteString(w, `_`)
int2string(w, id)
io.WriteString(w, `_`)
io.WriteString(w, col)
io.WriteString(w, suffix)
io.WriteString(w, `"`)
func squoted(w io.Writer, identifier string) {
io.WriteString(w, `'`)
io.WriteString(w, identifier)
io.WriteString(w, `'`)
}
const charset = "0123456789"

340
psql/query_test.go
View File

@ -2,6 +2,7 @@ package psql
import (
"bytes"
"encoding/json"
"testing"
)
@ -10,16 +11,16 @@ func withComplexArgs(t *testing.T) {
proDUcts(
# returns only 30 items
limit: 30,
# starts from item 10, commented out for now
# offset: 10,
# orders the response items by highest price
order_by: { price: desc },
# no duplicate prices returned
distinct: [ price ]
# only items with an id >= 20 and < 28 are returned
where: { id: { and: { greater_or_equals: 20, lt: 28 } } }) {
id
@ -28,16 +29,41 @@ func withComplexArgs(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0" ORDER BY "products_0_price_ob" DESC), '[]') AS "json_0" FROM (SELECT DISTINCT ON ("products_0_price_ob") row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."price" AS "price") AS "json_row_0")) AS "json_0", "products_0"."price" AS "products_0_price_ob" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND ((("products"."id") < 28) AND (("products"."id") >= 20)))) LIMIT ('30') :: integer) AS "products_0" ORDER BY "products_0_price_ob" DESC LIMIT ('30') :: integer) AS "json_agg_0") AS "sel_0"`
compileGQLToPSQL(t, gql, nil, "user")
}
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
func withWhereAndList(t *testing.T) {
gql := `query {
products(
where: {
and: [
{ not: { id: { is_null: true } } },
{ price: { gt: 10 } },
] } ) {
id
name
price
}
}`
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func withWhereIsNull(t *testing.T) {
gql := `query {
products(
where: {
and: {
not: { id: { is_null: true } },
price: { gt: 10 }
}}) {
id
name
price
}
}`
compileGQLToPSQL(t, gql, nil, "user")
}
func withWhereMultiOr(t *testing.T) {
@ -56,93 +82,23 @@ func withWhereMultiOr(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."price" AS "price") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND ((("products"."price") < 20) OR (("products"."price") > 10) OR NOT (("products"."id") IS NULL)))) LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
}
func withWhereIsNull(t *testing.T) {
gql := `query {
products(
where: {
and: {
not: { id: { is_null: true } },
price: { gt: 10 }
}}) {
id
name
price
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."price" AS "price") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND ((("products"."price") > 10) AND NOT (("products"."id") IS NULL)))) LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
}
func withWhereAndList(t *testing.T) {
gql := `query {
products(
where: {
and: [
{ not: { id: { is_null: true } } },
{ price: { gt: 10 } },
] } ) {
id
name
price
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."price" AS "price") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND ((("products"."price") > 10) AND NOT (("products"."id") IS NULL)))) LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func fetchByID(t *testing.T) {
gql := `query {
product(id: 15) {
product(id: $id) {
id
name
}
}`
sql := `SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND (("products"."id") = 15))) LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func searchQuery(t *testing.T) {
gql := `query {
products(search: "ale") {
products(search: $query) {
id
name
search_rank
@ -150,16 +106,7 @@ func searchQuery(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."search_rank" AS "search_rank", "products_0"."search_headline_description" AS "search_headline_description") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", ts_rank("products"."tsv", websearch_to_tsquery('ale')) AS "search_rank", ts_headline("products"."description", websearch_to_tsquery('ale')) AS "search_headline_description" FROM "products" WHERE ((("products"."tsv") @@ websearch_to_tsquery('ale'))) LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "admin")
}
func oneToMany(t *testing.T) {
@ -173,16 +120,7 @@ func oneToMany(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('users', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."email" AS "email", "products_1_join"."json_1" AS "products") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."email", "users"."id" FROM "users" LIMIT ('20') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_1"), '[]') AS "json_1" FROM (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id")) AND ((("products"."price") > 0) AND (("products"."price") < 8))) LIMIT ('20') :: integer) AS "products_1" LIMIT ('20') :: integer) AS "json_agg_1") AS "products_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func oneToManyReverse(t *testing.T) {
@ -196,16 +134,7 @@ func oneToManyReverse(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."name" AS "name", "products_0"."price" AS "price", "users_1_join"."json_1" AS "users") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."name", "products"."price", "products"."user_id" FROM "products" WHERE (((("products"."price") > 0) AND (("products"."price") < 8))) LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_1"), '[]') AS "json_1" FROM (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('20') :: integer) AS "users_1" LIMIT ('20') :: integer) AS "json_agg_1") AS "users_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func oneToManyArray(t *testing.T) {
@ -227,16 +156,7 @@ func oneToManyArray(t *testing.T) {
}
}`
sql := `SELECT row_to_json("json_root") FROM (SELECT "sel_0"."json_0" AS "tags", "sel_2"."json_2" AS "product" FROM (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "products_2"."name" AS "name", "products_2"."price" AS "price", "tags_3_join"."json_3" AS "tags") AS "json_row_2")) AS "json_2" FROM (SELECT "products"."name", "products"."price", "products"."tags" FROM "products" LIMIT ('1') :: integer) AS "products_2" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_3"), '[]') AS "json_3" FROM (SELECT row_to_json((SELECT "json_row_3" FROM (SELECT "tags_3"."id" AS "id", "tags_3"."name" AS "name") AS "json_row_3")) AS "json_3" FROM (SELECT "tags"."id", "tags"."name" FROM "tags" WHERE ((("tags"."slug") = any ("products_2"."tags"))) LIMIT ('20') :: integer) AS "tags_3" LIMIT ('20') :: integer) AS "json_agg_3") AS "tags_3_join" ON ('true') LIMIT ('1') :: integer) AS "sel_2", (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "tags_0"."name" AS "name", "product_1_join"."json_1" AS "product") AS "json_row_0")) AS "json_0" FROM (SELECT "tags"."name", "tags"."slug" FROM "tags" LIMIT ('20') :: integer) AS "tags_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."name" AS "name") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."name" FROM "products" WHERE ((("tags_0"."slug") = any ("products"."tags"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0") AS "json_root"`
resSQL, err := compileGQLToPSQL(gql, nil, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "admin")
}
func manyToMany(t *testing.T) {
@ -250,16 +170,7 @@ func manyToMany(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."name" AS "name", "customers_1_join"."json_1" AS "customers") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."name", "products"."id" FROM "products" WHERE (((("products"."price") > 0) AND (("products"."price") < 8))) LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_1"), '[]') AS "json_1" FROM (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "customers_1"."email" AS "email", "customers_1"."full_name" AS "full_name") AS "json_row_1")) AS "json_1" FROM (SELECT "customers"."email", "customers"."full_name" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_0"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('20') :: integer) AS "customers_1" LIMIT ('20') :: integer) AS "json_agg_1") AS "customers_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func manyToManyReverse(t *testing.T) {
@ -273,16 +184,7 @@ func manyToManyReverse(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('customers', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "customers_0"."email" AS "email", "customers_0"."full_name" AS "full_name", "products_1_join"."json_1" AS "products") AS "json_row_0")) AS "json_0" FROM (SELECT "customers"."email", "customers"."full_name", "customers"."id" FROM "customers" LIMIT ('20') :: integer) AS "customers_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_1"), '[]') AS "json_1" FROM (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."name" AS "name") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."name" FROM "products" LEFT OUTER JOIN "purchases" ON (("purchases"."customer_id") = ("customers_0"."id")) WHERE ((("products"."id") = ("purchases"."product_id")) AND ((("products"."price") > 0) AND (("products"."price") < 8))) LIMIT ('20') :: integer) AS "products_1" LIMIT ('20') :: integer) AS "json_agg_1") AS "products_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func aggFunction(t *testing.T) {
@ -293,16 +195,7 @@ func aggFunction(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."name" AS "name", "products_0"."count_price" AS "count_price") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."name", count("products"."price") AS "count_price" FROM "products" WHERE (((("products"."price") > 0) AND (("products"."price") < 8))) GROUP BY "products"."name" LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func aggFunctionBlockedByCol(t *testing.T) {
@ -313,16 +206,7 @@ func aggFunctionBlockedByCol(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."name" FROM "products" LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "anon")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "anon")
}
func aggFunctionDisabled(t *testing.T) {
@ -333,16 +217,7 @@ func aggFunctionDisabled(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."name" FROM "products" LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "anon1")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "anon1")
}
func aggFunctionWithFilter(t *testing.T) {
@ -353,16 +228,7 @@ func aggFunctionWithFilter(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."max_price" AS "max_price") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", max("products"."price") AS "max_price" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND (("products"."id") > 10))) GROUP BY "products"."id" LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func syntheticTables(t *testing.T) {
@ -372,16 +238,7 @@ func syntheticTables(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('me', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT ) AS "json_row_0")) AS "json_0" FROM (SELECT "users"."email" FROM "users" WHERE ((("users"."id") IS NOT DISTINCT FROM '{{user_id}}' :: bigint)) LIMIT ('1') :: integer) AS "users_0" LIMIT ('1') :: integer) AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func queryWithVariables(t *testing.T) {
@ -392,16 +249,7 @@ func queryWithVariables(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE ((((("products"."price") > 0) AND (("products"."price") < 8)) AND ((("products"."price") IS NOT DISTINCT FROM '{{product_price}}' :: numeric(7,2)) AND (("products"."id") = '{{product_id}}' :: bigint)))) LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func withWhereOnRelations(t *testing.T) {
@ -418,16 +266,7 @@ func withWhereOnRelations(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('users', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."email" AS "email") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."email" FROM "users" WHERE (NOT EXISTS (SELECT 1 FROM products WHERE (("products"."user_id") = ("users"."id")) AND ((("products"."price") > 3)))) LIMIT ('20') :: integer) AS "users_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "user")
}
func multiRoot(t *testing.T) {
@ -451,16 +290,24 @@ func multiRoot(t *testing.T) {
}
}`
sql := `SELECT row_to_json("json_root") FROM (SELECT "sel_0"."json_0" AS "customer", "sel_1"."json_1" AS "user", "sel_2"."json_2" AS "product" FROM (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "products_2"."id" AS "id", "products_2"."name" AS "name", "customers_3_join"."json_3" AS "customers", "customer_4_join"."json_4" AS "customer") AS "json_row_2")) AS "json_2" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE (((("products"."price") > 0) AND (("products"."price") < 8))) LIMIT ('1') :: integer) AS "products_2" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_4" FROM (SELECT "customers_4"."email" AS "email") AS "json_row_4")) AS "json_4" FROM (SELECT "customers"."email" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_2"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('1') :: integer) AS "customers_4" LIMIT ('1') :: integer) AS "customer_4_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_3"), '[]') AS "json_3" FROM (SELECT row_to_json((SELECT "json_row_3" FROM (SELECT "customers_3"."email" AS "email") AS "json_row_3")) AS "json_3" FROM (SELECT "customers"."email" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_2"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('20') :: integer) AS "customers_3" LIMIT ('20') :: integer) AS "json_agg_3") AS "customers_3_join" ON ('true') LIMIT ('1') :: integer) AS "sel_2", (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "sel_1", (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "customers_0"."id" AS "id") AS "json_row_0")) AS "json_0" FROM (SELECT "customers"."id" FROM "customers" LIMIT ('1') :: integer) AS "customers_0" LIMIT ('1') :: integer) AS "sel_0") AS "json_root"`
compileGQLToPSQL(t, gql, nil, "user")
}
resSQL, err := compileGQLToPSQL(gql, nil, "user")
if err != nil {
t.Fatal(err)
func withCursor(t *testing.T) {
gql := `query {
Products(
first: 20
after: $cursor
order_by: { price: desc }) {
Name
}
}`
vars := map[string]json.RawMessage{
"cursor": json.RawMessage(`"0,1"`),
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func jsonColumnAsTable(t *testing.T) {
@ -477,16 +324,7 @@ func jsonColumnAsTable(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "tag_count_1_join"."json_1" AS "tag_count") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "tag_count_1"."count" AS "count", "tags_2_join"."json_2" AS "tags") AS "json_row_1")) AS "json_1" FROM (SELECT "tag_count"."count", "tag_count"."tag_id" FROM "products", json_to_recordset("products"."tag_count") AS "tag_count"(tag_id bigint, count int) WHERE ((("products"."id") = ("products_0"."id"))) LIMIT ('1') :: integer) AS "tag_count_1" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("json_2"), '[]') AS "json_2" FROM (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "tags_2"."name" AS "name") AS "json_row_2")) AS "json_2" FROM (SELECT "tags"."name" FROM "tags" WHERE ((("tags"."id") = ("tag_count_1"."tag_id"))) LIMIT ('20') :: integer) AS "tags_2" LIMIT ('20') :: integer) AS "json_agg_2") AS "tags_2_join" ON ('true') LIMIT ('1') :: integer) AS "tag_count_1_join" ON ('true') LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "admin")
}
func skipUserIDForAnonRole(t *testing.T) {
@ -501,37 +339,19 @@ func skipUserIDForAnonRole(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('products', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('20') :: integer) AS "products_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "anon")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "anon")
}
func blockedQuery(t *testing.T) {
gql := `query {
user(id: 5, where: { id: { gt: 3 } }) {
user(id: $id, where: { id: { gt: 3 } }) {
id
full_name
email
}
}`
sql := `SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."full_name" AS "full_name", "users_0"."email" AS "email") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE (false) LIMIT ('1') :: integer) AS "users_0" LIMIT ('1') :: integer) AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "bad_dude")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "bad_dude")
}
func blockedFunctions(t *testing.T) {
@ -542,16 +362,7 @@ func blockedFunctions(t *testing.T) {
}
}`
sql := `SELECT json_object_agg('users', json_0) FROM (SELECT coalesce(json_agg("json_0"), '[]') AS "json_0" FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."email" AS "email") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."email" FROM "users" WHERE (false) LIMIT ('20') :: integer) AS "users_0" LIMIT ('20') :: integer) AS "json_agg_0") AS "sel_0"`
resSQL, err := compileGQLToPSQL(gql, nil, "bad_dude")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, nil, "bad_dude")
}
func TestCompileQuery(t *testing.T) {
@ -575,6 +386,7 @@ func TestCompileQuery(t *testing.T) {
t.Run("withWhereOnRelations", withWhereOnRelations)
t.Run("multiRoot", multiRoot)
t.Run("jsonColumnAsTable", jsonColumnAsTable)
t.Run("withCursor", withCursor)
t.Run("skipUserIDForAnonRole", skipUserIDForAnonRole)
t.Run("blockedQuery", blockedQuery)
t.Run("blockedFunctions", blockedFunctions)

12
psql/tables.go
View File

@ -167,7 +167,7 @@ SELECT
ELSE ''::text
END AS foreignkey,
CASE
WHEN p.contype = ('f'::char) THEN p.confkey
WHEN p.contype = ('f'::char) THEN p.confkey::int2[]
ELSE ARRAY[]::int2[]
END AS foreignkey_fieldnum
FROM pg_attribute f
@ -244,3 +244,13 @@ ORDER BY id;`
return cols, nil
}
// func GetValType(type string) qcode.ValType {
// switch {
// case "bigint", "integer", "smallint", "numeric", "bigserial":
// return qcode.ValInt
// case "double precision", "real":
// return qcode.ValFloat
// case ""
// }
// }

151
psql/tests.sql Normal file
View File

@ -0,0 +1,151 @@
=== RUN TestCompileInsert
=== RUN TestCompileInsert/simpleInsert
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *) SELECT json_build_object('user', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id") AS "json" FROM (SELECT "users"."id" FROM "users" LIMIT ('1') :: integer) AS "users_0") AS "__sel_0"
=== RUN TestCompileInsert/singleInsert
WITH "_sg_input" AS (SELECT '{{insert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description", "price", "user_id") SELECT "t"."name", "t"."description", "t"."price", "t"."user_id" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
=== RUN TestCompileInsert/bulkInsert
WITH "_sg_input" AS (SELECT '{{insert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_recordset(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
=== RUN TestCompileInsert/simpleInsertWithPresets
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", 'now' :: timestamp without time zone, 'now' :: timestamp without time zone, '{{user_id}}' :: bigint FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id") AS "json" FROM (SELECT "products"."id" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
=== RUN TestCompileInsert/nestedInsertManyToMany
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "price") SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t RETURNING *), "customers" AS (INSERT INTO "customers" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t RETURNING *), "purchases" AS (INSERT INTO "purchases" ("sale_type", "quantity", "due_date", "customer_id", "product_id") SELECT "t"."sale_type", "t"."quantity", "t"."due_date", "customers"."id", "products"."id" FROM "_sg_input" i, "customers", "products", json_populate_record(NULL::purchases, i.j) t RETURNING *) SELECT json_build_object('purchase', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('sale_type', "purchases_0"."sale_type", 'quantity', "purchases_0"."quantity", 'due_date', "purchases_0"."due_date", 'product', "__sel_1"."json", 'customer', "__sel_2"."json") AS "json" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "customers_2"."id", 'full_name', "customers_2"."full_name", 'email', "customers_2"."email") AS "json" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2") AS "__sel_2" ON ('true') LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1") AS "__sel_1" ON ('true')) AS "__sel_0"
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "customers" AS (INSERT INTO "customers" ("full_name", "email") SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price") SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t RETURNING *), "purchases" AS (INSERT INTO "purchases" ("sale_type", "quantity", "due_date", "product_id", "customer_id") SELECT "t"."sale_type", "t"."quantity", "t"."due_date", "products"."id", "customers"."id" FROM "_sg_input" i, "products", "customers", json_populate_record(NULL::purchases, i.j) t RETURNING *) SELECT json_build_object('purchase', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('sale_type', "purchases_0"."sale_type", 'quantity', "purchases_0"."quantity", 'due_date', "purchases_0"."due_date", 'product', "__sel_1"."json", 'customer', "__sel_2"."json") AS "json" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "customers_2"."id", 'full_name', "customers_2"."full_name", 'email', "customers_2"."email") AS "json" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2") AS "__sel_2" ON ('true') LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1") AS "__sel_1" ON ('true')) AS "__sel_0"
=== RUN TestCompileInsert/nestedInsertOneToMany
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "users"."id" FROM "_sg_input" i, "users", json_populate_record(NULL::products, i.j->'product') t RETURNING *) SELECT json_build_object('user', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id", 'full_name', "users_0"."full_name", 'email', "users_0"."email", 'product', "__sel_1"."json") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1") AS "__sel_1" ON ('true')) AS "__sel_0"
=== RUN TestCompileInsert/nestedInsertOneToOne
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j->'user') t RETURNING *), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "users"."id" FROM "_sg_input" i, "users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "__sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "__sel_1" ON ('true')) AS "__sel_0"
=== RUN TestCompileInsert/nestedInsertOneToManyWithConnect
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (INSERT INTO "users" ("full_name", "email", "created_at", "updated_at") SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t RETURNING *), "products" AS ( UPDATE "products" SET "user_id" = "users"."id" FROM "users" WHERE ("products"."id"= ((i.j->'product'->'connect'->>'id'))::bigint) RETURNING "products".*) SELECT json_build_object('user', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id", 'full_name', "users_0"."full_name", 'email', "users_0"."email", 'product', "__sel_1"."json") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1") AS "__sel_1" ON ('true')) AS "__sel_0"
=== RUN TestCompileInsert/nestedInsertOneToOneWithConnect
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint LIMIT 1), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "__sel_1"."json", 'tags', "__sel_2"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id", "products"."tags" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("__sel_2"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "tags_2"."id", 'name', "tags_2"."name") AS "json" FROM (SELECT "tags"."id", "tags"."name" FROM "tags" WHERE ((("tags"."slug") = any ("products_0"."tags"))) LIMIT ('20') :: integer) AS "tags_2") AS "__sel_2") AS "__sel_2" ON ('true') LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "__sel_1" ON ('true')) AS "__sel_0"
=== RUN TestCompileInsert/nestedInsertOneToOneWithConnectArray
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id" = ANY((select a::bigint AS list from json_array_elements_text((i.j->'user'->'connect'->>'id')::json) AS a)) LIMIT 1), "products" AS (INSERT INTO "products" ("name", "price", "created_at", "updated_at", "user_id") SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t RETURNING *) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "__sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "__sel_1" ON ('true')) AS "__sel_0"
--- PASS: TestCompileInsert (0.02s)
--- PASS: TestCompileInsert/simpleInsert (0.00s)
--- PASS: TestCompileInsert/singleInsert (0.00s)
--- PASS: TestCompileInsert/bulkInsert (0.00s)
--- PASS: TestCompileInsert/simpleInsertWithPresets (0.00s)
--- PASS: TestCompileInsert/nestedInsertManyToMany (0.00s)
--- PASS: TestCompileInsert/nestedInsertOneToMany (0.00s)
--- PASS: TestCompileInsert/nestedInsertOneToOne (0.00s)
--- PASS: TestCompileInsert/nestedInsertOneToManyWithConnect (0.00s)
--- PASS: TestCompileInsert/nestedInsertOneToOneWithConnect (0.00s)
--- PASS: TestCompileInsert/nestedInsertOneToOneWithConnectArray (0.00s)
=== RUN TestCompileMutate
=== RUN TestCompileMutate/singleUpsert
WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
=== RUN TestCompileMutate/singleUpsertWhere
WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) WHERE (("products"."price") > '3' :: numeric(7,2)) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
=== RUN TestCompileMutate/bulkUpsert
WITH "_sg_input" AS (SELECT '{{upsert}}' :: json AS j), "products" AS (INSERT INTO "products" ("name", "description") SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_recordset(NULL::products, i.j) t RETURNING *) ON CONFLICT (id) DO UPDATE SET name = EXCLUDED.name, description = EXCLUDED.description RETURNING *) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
=== RUN TestCompileMutate/delete
WITH "products" AS (DELETE FROM "products" WHERE (((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND (("products"."id") = '1' :: bigint)) RETURNING "products".*) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
--- PASS: TestCompileMutate (0.01s)
--- PASS: TestCompileMutate/singleUpsert (0.00s)
--- PASS: TestCompileMutate/singleUpsertWhere (0.00s)
--- PASS: TestCompileMutate/bulkUpsert (0.00s)
--- PASS: TestCompileMutate/delete (0.00s)
=== RUN TestCompileQuery
=== RUN TestCompileQuery/withComplexArgs
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'price', "products_0"."price") AS "json" FROM (SELECT DISTINCT ON ("products"."price") "products"."id", "products"."name", "products"."price" FROM "products" WHERE (((("products"."id") < '28' :: bigint) AND (("products"."id") >= '20' :: bigint) AND ((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))))) ORDER BY "products"."price" DESC LIMIT ('30') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/withWhereAndList
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'price', "products_0"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE (((("products"."price") > '10' :: numeric(7,2)) AND NOT (("products"."id") IS NULL) AND ((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))))) LIMIT ('20') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/withWhereIsNull
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'price', "products_0"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE (((("products"."price") > '10' :: numeric(7,2)) AND NOT (("products"."id") IS NULL) AND ((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))))) LIMIT ('20') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/withWhereMultiOr
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'price', "products_0"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND ((("products"."price") < '20' :: numeric(7,2)) OR (("products"."price") > '10' :: numeric(7,2)) OR NOT (("products"."id") IS NULL)))) LIMIT ('20') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/fetchByID
SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE ((((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND (("products"."id") = '{{id}}' :: bigint))) LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
=== RUN TestCompileQuery/searchQuery
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'search_rank', "products_0"."search_rank", 'search_headline_description', "products_0"."search_headline_description") AS "json" FROM (SELECT "products"."id", "products"."name", ts_rank("products"."tsv", websearch_to_tsquery('{{query}}')) AS "search_rank", ts_headline("products"."description", websearch_to_tsquery('{{query}}')) AS "search_headline_description" FROM "products" WHERE ((("products"."tsv") @@ websearch_to_tsquery('{{query}}'))) LIMIT ('20') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/oneToMany
SELECT json_build_object('users', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('email', "users_0"."email", 'products', "__sel_1"."json") AS "json" FROM (SELECT "users"."email", "users"."id" FROM "users" LIMIT ('20') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("__sel_1"."json"), '[]') as "json" FROM (SELECT json_build_object('name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id")) AND ((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) LIMIT ('20') :: integer) AS "products_1") AS "__sel_1") AS "__sel_1" ON ('true')) AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/oneToManyReverse
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('name', "products_0"."name", 'price', "products_0"."price", 'users', "__sel_1"."json") AS "json" FROM (SELECT "products"."name", "products"."price", "products"."user_id" FROM "products" WHERE (((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("__sel_1"."json"), '[]') as "json" FROM (SELECT json_build_object('email', "users_1"."email") AS "json" FROM (SELECT "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('20') :: integer) AS "users_1") AS "__sel_1") AS "__sel_1" ON ('true')) AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/oneToManyArray
SELECT json_build_object('tags', "__sel_0"."json", 'product', "__sel_2"."json") as "__root" FROM (SELECT json_build_object('name', "products_2"."name", 'price', "products_2"."price", 'tags', "__sel_3"."json") AS "json" FROM (SELECT "products"."name", "products"."price", "products"."tags" FROM "products" LIMIT ('1') :: integer) AS "products_2" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("__sel_3"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "tags_3"."id", 'name', "tags_3"."name") AS "json" FROM (SELECT "tags"."id", "tags"."name" FROM "tags" WHERE ((("tags"."slug") = any ("products_2"."tags"))) LIMIT ('20') :: integer) AS "tags_3") AS "__sel_3") AS "__sel_3" ON ('true')) AS "__sel_2", (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('name', "tags_0"."name", 'product', "__sel_1"."json") AS "json" FROM (SELECT "tags"."name", "tags"."slug" FROM "tags" LIMIT ('20') :: integer) AS "tags_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('name', "products_1"."name") AS "json" FROM (SELECT "products"."name" FROM "products" WHERE ((("tags_0"."slug") = any ("products"."tags"))) LIMIT ('1') :: integer) AS "products_1") AS "__sel_1" ON ('true')) AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/manyToMany
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('name', "products_0"."name", 'customers', "__sel_1"."json") AS "json" FROM (SELECT "products"."name", "products"."id" FROM "products" WHERE (((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("__sel_1"."json"), '[]') as "json" FROM (SELECT json_build_object('email', "customers_1"."email", 'full_name', "customers_1"."full_name") AS "json" FROM (SELECT "customers"."email", "customers"."full_name" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_0"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('20') :: integer) AS "customers_1") AS "__sel_1") AS "__sel_1" ON ('true')) AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/manyToManyReverse
SELECT json_build_object('customers', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('email', "customers_0"."email", 'full_name', "customers_0"."full_name", 'products', "__sel_1"."json") AS "json" FROM (SELECT "customers"."email", "customers"."full_name", "customers"."id" FROM "customers" LIMIT ('20') :: integer) AS "customers_0" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("__sel_1"."json"), '[]') as "json" FROM (SELECT json_build_object('name', "products_1"."name") AS "json" FROM (SELECT "products"."name" FROM "products" LEFT OUTER JOIN "purchases" ON (("purchases"."customer_id") = ("customers_0"."id")) WHERE ((("products"."id") = ("purchases"."product_id")) AND ((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) LIMIT ('20') :: integer) AS "products_1") AS "__sel_1") AS "__sel_1" ON ('true')) AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/aggFunction
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('name', "products_0"."name", 'count_price', "products_0"."count_price") AS "json" FROM (SELECT "products"."name", price("products"."price") AS "count_price" FROM "products" WHERE (((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) GROUP BY "products"."name" LIMIT ('20') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/aggFunctionBlockedByCol
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('name', "products_0"."name") AS "json" FROM (SELECT "products"."name" FROM "products" GROUP BY "products"."name" LIMIT ('20') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/aggFunctionDisabled
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('name', "products_0"."name") AS "json" FROM (SELECT "products"."name" FROM "products" GROUP BY "products"."name" LIMIT ('20') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/aggFunctionWithFilter
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "products_0"."id", 'max_price', "products_0"."max_price") AS "json" FROM (SELECT "products"."id", pri("products"."price") AS "max_price" FROM "products" WHERE ((((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))) AND (("products"."id") > '10' :: bigint))) GROUP BY "products"."id" LIMIT ('20') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/syntheticTables
SELECT json_build_object('me', "__sel_0"."json") as "__root" FROM (SELECT json_build_object() AS "json" FROM (SELECT "users"."email" FROM "users" WHERE ((("users"."id") = '{{user_id}}' :: bigint)) LIMIT ('1') :: integer) AS "users_0") AS "__sel_0"
=== RUN TestCompileQuery/queryWithVariables
SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE (((("products"."price") = '{{product_price}}' :: numeric(7,2)) AND (("products"."id") = '{{product_id}}' :: bigint) AND ((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2))))) LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
=== RUN TestCompileQuery/withWhereOnRelations
SELECT json_build_object('users', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "users_0"."id", 'email', "users_0"."email") AS "json" FROM (SELECT "users"."id", "users"."email" FROM "users" WHERE (NOT EXISTS (SELECT 1 FROM products WHERE (("products"."user_id") = ("users"."id")) AND ((("products"."price") > '3' :: numeric(7,2))))) LIMIT ('20') :: integer) AS "users_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/multiRoot
SELECT json_build_object('customer', "__sel_0"."json", 'user', "__sel_1"."json", 'product', "__sel_2"."json") as "__root" FROM (SELECT json_build_object('id', "products_2"."id", 'name', "products_2"."name", 'customers', "__sel_3"."json", 'customer', "__sel_4"."json") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" WHERE (((("products"."price") > '0' :: numeric(7,2)) AND (("products"."price") < '8' :: numeric(7,2)))) LIMIT ('1') :: integer) AS "products_2" LEFT OUTER JOIN LATERAL (SELECT json_build_object('email', "customers_4"."email") AS "json" FROM (SELECT "customers"."email" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_2"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('1') :: integer) AS "customers_4") AS "__sel_4" ON ('true') LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("__sel_3"."json"), '[]') as "json" FROM (SELECT json_build_object('email', "customers_3"."email") AS "json" FROM (SELECT "customers"."email" FROM "customers" LEFT OUTER JOIN "purchases" ON (("purchases"."product_id") = ("products_2"."id")) WHERE ((("customers"."id") = ("purchases"."customer_id"))) LIMIT ('20') :: integer) AS "customers_3") AS "__sel_3") AS "__sel_3" ON ('true')) AS "__sel_2", (SELECT json_build_object('id', "users_1"."id", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_1") AS "__sel_1", (SELECT json_build_object('id', "customers_0"."id") AS "json" FROM (SELECT "customers"."id" FROM "customers" LIMIT ('1') :: integer) AS "customers_0") AS "__sel_0"
=== RUN TestCompileQuery/jsonColumnAsTable
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'tag_count', "__sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('20') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('count', "tag_count_1"."count", 'tags', "__sel_2"."json") AS "json" FROM (SELECT "tag_count"."count", "tag_count"."tag_id" FROM "products", json_to_recordset("products"."tag_count") AS "tag_count"(tag_id bigint, count int) WHERE ((("products"."id") = ("products_0"."id"))) LIMIT ('1') :: integer) AS "tag_count_1" LEFT OUTER JOIN LATERAL (SELECT coalesce(json_agg("__sel_2"."json"), '[]') as "json" FROM (SELECT json_build_object('name', "tags_2"."name") AS "json" FROM (SELECT "tags"."name" FROM "tags" WHERE ((("tags"."id") = ("tag_count_1"."tag_id"))) LIMIT ('20') :: integer) AS "tags_2") AS "__sel_2") AS "__sel_2" ON ('true')) AS "__sel_1" ON ('true')) AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/withCursor
SELECT json_build_object('products', "__sel_0"."json", 'products_cursor', "__sel_0"."cursor") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json", CONCAT_WS(',', max("__cur_0"), max("__cur_1")) as "cursor" FROM (SELECT json_build_object('name', "products_0"."name") AS "json", LAST_VALUE("products_0"."price") OVER() AS "__cur_0", LAST_VALUE("products_0"."id") OVER() AS "__cur_1" FROM (WITH "__cur" AS (SELECT a[1] as "price", a[2] as "id" FROM string_to_array('{{cursor}}', ',') as a) SELECT "products"."name", "products"."id", "products"."price" FROM "products", "__cur" WHERE (((("products"."price") < "__cur"."price" :: numeric(7,2)) OR ((("products"."price") = "__cur"."price" :: numeric(7,2)) AND (("products"."id") > "__cur"."id" :: bigint)))) ORDER BY "products"."price" DESC, "products"."id" ASC LIMIT ('20') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/skipUserIDForAnonRole
SELECT json_build_object('products', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('20') :: integer) AS "products_0") AS "__sel_0") AS "__sel_0"
=== RUN TestCompileQuery/blockedQuery
SELECT json_build_object('user', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id", 'full_name', "users_0"."full_name", 'email', "users_0"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE (false) LIMIT ('1') :: integer) AS "users_0") AS "__sel_0"
=== RUN TestCompileQuery/blockedFunctions
SELECT json_build_object('users', "__sel_0"."json") as "__root" FROM (SELECT coalesce(json_agg("__sel_0"."json"), '[]') as "json" FROM (SELECT json_build_object('email', "users_0"."email") AS "json" FROM (SELECT , "users"."email" FROM "users" WHERE (false) GROUP BY "users"."email" LIMIT ('20') :: integer) AS "users_0") AS "__sel_0") AS "__sel_0"
--- PASS: TestCompileQuery (0.02s)
--- PASS: TestCompileQuery/withComplexArgs (0.00s)
--- PASS: TestCompileQuery/withWhereAndList (0.00s)
--- PASS: TestCompileQuery/withWhereIsNull (0.00s)
--- PASS: TestCompileQuery/withWhereMultiOr (0.00s)
--- PASS: TestCompileQuery/fetchByID (0.00s)
--- PASS: TestCompileQuery/searchQuery (0.00s)
--- PASS: TestCompileQuery/oneToMany (0.00s)
--- PASS: TestCompileQuery/oneToManyReverse (0.00s)
--- PASS: TestCompileQuery/oneToManyArray (0.00s)
--- PASS: TestCompileQuery/manyToMany (0.00s)
--- PASS: TestCompileQuery/manyToManyReverse (0.00s)
--- PASS: TestCompileQuery/aggFunction (0.00s)
--- PASS: TestCompileQuery/aggFunctionBlockedByCol (0.00s)
--- PASS: TestCompileQuery/aggFunctionDisabled (0.00s)
--- PASS: TestCompileQuery/aggFunctionWithFilter (0.00s)
--- PASS: TestCompileQuery/syntheticTables (0.00s)
--- PASS: TestCompileQuery/queryWithVariables (0.00s)
--- PASS: TestCompileQuery/withWhereOnRelations (0.00s)
--- PASS: TestCompileQuery/multiRoot (0.00s)
--- PASS: TestCompileQuery/jsonColumnAsTable (0.00s)
--- PASS: TestCompileQuery/withCursor (0.00s)
--- PASS: TestCompileQuery/skipUserIDForAnonRole (0.00s)
--- PASS: TestCompileQuery/blockedQuery (0.00s)
--- PASS: TestCompileQuery/blockedFunctions (0.00s)
=== RUN TestCompileUpdate
=== RUN TestCompileUpdate/singleUpdate
WITH "_sg_input" AS (SELECT '{{update}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "description") = (SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE ((("products"."id") = '1' :: bigint) AND (("products"."id") = '{{id}}' :: bigint)) RETURNING "products".*) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name") AS "json" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
=== RUN TestCompileUpdate/simpleUpdateWithPresets
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "price", "updated_at") = (SELECT "t"."name", "t"."price", 'now' :: timestamp without time zone FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE (("products"."user_id") = '{{user_id}}' :: bigint) RETURNING "products".*) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id") AS "json" FROM (SELECT "products"."id" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
=== RUN TestCompileUpdate/nestedUpdateManyToMany
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "purchases" AS (UPDATE "purchases" SET ("sale_type", "quantity", "due_date") = (SELECT "t"."sale_type", "t"."quantity", "t"."due_date" FROM "_sg_input" i, json_populate_record(NULL::purchases, i.j) t) WHERE (("purchases"."id") = '{{id}}' :: bigint) RETURNING "purchases".*), "customers" AS (UPDATE "customers" SET ("full_name", "email") = (SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t) FROM "purchases" WHERE (("customers"."id") = ("purchases"."customer_id")) RETURNING "customers".*), "products" AS (UPDATE "products" SET ("name", "price") = (SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "purchases" WHERE (("products"."id") = ("purchases"."product_id")) RETURNING "products".*) SELECT json_build_object('purchase', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('sale_type', "purchases_0"."sale_type", 'quantity', "purchases_0"."quantity", 'due_date', "purchases_0"."due_date", 'product', "__sel_1"."json", 'customer', "__sel_2"."json") AS "json" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "customers_2"."id", 'full_name', "customers_2"."full_name", 'email', "customers_2"."email") AS "json" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2") AS "__sel_2" ON ('true') LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1") AS "__sel_1" ON ('true')) AS "__sel_0"
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "purchases" AS (UPDATE "purchases" SET ("sale_type", "quantity", "due_date") = (SELECT "t"."sale_type", "t"."quantity", "t"."due_date" FROM "_sg_input" i, json_populate_record(NULL::purchases, i.j) t) WHERE (("purchases"."id") = '{{id}}' :: bigint) RETURNING "purchases".*), "products" AS (UPDATE "products" SET ("name", "price") = (SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "purchases" WHERE (("products"."id") = ("purchases"."product_id")) RETURNING "products".*), "customers" AS (UPDATE "customers" SET ("full_name", "email") = (SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t) FROM "purchases" WHERE (("customers"."id") = ("purchases"."customer_id")) RETURNING "customers".*) SELECT json_build_object('purchase', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('sale_type', "purchases_0"."sale_type", 'quantity', "purchases_0"."quantity", 'due_date', "purchases_0"."due_date", 'product', "__sel_1"."json", 'customer', "__sel_2"."json") AS "json" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "customers_2"."id", 'full_name', "customers_2"."full_name", 'email', "customers_2"."email") AS "json" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2") AS "__sel_2" ON ('true') LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1") AS "__sel_1" ON ('true')) AS "__sel_0"
=== RUN TestCompileUpdate/nestedUpdateOneToMany
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (UPDATE "users" SET ("full_name", "email", "created_at", "updated_at") = (SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t) WHERE (("users"."id") = '8' :: bigint) RETURNING "users".*), "products" AS (UPDATE "products" SET ("name", "price", "created_at", "updated_at") = (SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "users" WHERE (("products"."user_id") = ("users"."id") AND "products"."id"= ((i.j->'product'->'where'->>'id'))::bigint) RETURNING "products".*) SELECT json_build_object('user', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id", 'full_name', "users_0"."full_name", 'email', "users_0"."email", 'product', "__sel_1"."json") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1") AS "__sel_1" ON ('true')) AS "__sel_0"
=== RUN TestCompileUpdate/nestedUpdateOneToOne
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "price", "created_at", "updated_at") = (SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = '{{id}}' :: bigint) RETURNING "products".*), "users" AS (UPDATE "users" SET ("email") = (SELECT "t"."email" FROM "_sg_input" i, json_populate_record(NULL::users, i.j->'user') t) FROM "products" WHERE (("users"."id") = ("products"."user_id")) RETURNING "users".*) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "__sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "__sel_1" ON ('true')) AS "__sel_0"
=== RUN TestCompileUpdate/nestedUpdateOneToManyWithConnect
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (UPDATE "users" SET ("full_name", "email", "created_at", "updated_at") = (SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t) WHERE (("users"."id") = '{{id}}' :: bigint) RETURNING "users".*), "products_c" AS ( UPDATE "products" SET "user_id" = "users"."id" FROM "users" WHERE ("products"."id"= ((i.j->'product'->'connect'->>'id'))::bigint) RETURNING "products".*), "products_d" AS ( UPDATE "products" SET "user_id" = NULL FROM "users" WHERE ("products"."id"= ((i.j->'product'->'disconnect'->>'id'))::bigint) RETURNING "products".*), "products" AS (SELECT * FROM "products_c" UNION ALL SELECT * FROM "products_d") SELECT json_build_object('user', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "users_0"."id", 'full_name', "users_0"."full_name", 'email', "users_0"."email", 'product', "__sel_1"."json") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "products_1"."id", 'name', "products_1"."name", 'price', "products_1"."price") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1") AS "__sel_1" ON ('true')) AS "__sel_0"
=== RUN TestCompileUpdate/nestedUpdateOneToOneWithConnect
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint AND "users"."email"= ((i.j->'user'->'connect'->>'email'))::character varying LIMIT 1), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = '{{product_id}}' :: bigint) RETURNING "products".*) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "__sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "__sel_1" ON ('true')) AS "__sel_0"
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."email"= ((i.j->'user'->'connect'->>'email'))::character varying AND "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint LIMIT 1), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = '{{product_id}}' :: bigint) RETURNING "products".*) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user', "__sel_1"."json") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT json_build_object('id', "users_1"."id", 'full_name', "users_1"."full_name", 'email', "users_1"."email") AS "json" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1") AS "__sel_1" ON ('true')) AS "__sel_0"
=== RUN TestCompileUpdate/nestedUpdateOneToOneWithDisconnect
WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT * FROM (VALUES(NULL::bigint)) AS LOOKUP("id")), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = '{{id}}' :: bigint) RETURNING "products".*) SELECT json_build_object('product', "__sel_0"."json") as "__root" FROM (SELECT json_build_object('id', "products_0"."id", 'name', "products_0"."name", 'user_id', "products_0"."user_id") AS "json" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0") AS "__sel_0"
--- PASS: TestCompileUpdate (0.02s)
--- PASS: TestCompileUpdate/singleUpdate (0.00s)
--- PASS: TestCompileUpdate/simpleUpdateWithPresets (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateManyToMany (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateOneToMany (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateOneToOne (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateOneToManyWithConnect (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateOneToOneWithConnect (0.00s)
--- PASS: TestCompileUpdate/nestedUpdateOneToOneWithDisconnect (0.00s)
PASS
ok github.com/dosco/super-graph/psql 0.716s

2
psql/update.go
View File

@ -228,6 +228,6 @@ func (c *compilerContext) renderDelete(qc *qcode.QCode, w io.Writer,
io.WriteString(w, ` RETURNING `)
quoted(w, ti.Name)
io.WriteString(w, `.*)`)
io.WriteString(w, `.*) `)
return 0, nil
}

109
psql/update_test.go
View File

@ -7,26 +7,17 @@ import (
func singleUpdate(t *testing.T) {
gql := `mutation {
product(id: 15, update: $update, where: { id: { eq: 1 } }) {
product(id: $id, update: $update, where: { id: { eq: 1 } }) {
id
name
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{update}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "description") = (SELECT "t"."name", "t"."description" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE ((("products"."id") IS NOT DISTINCT FROM 1) AND (("products"."id") = 15)) RETURNING "products".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"update": json.RawMessage(` { "name": "my_name", "description": "my_desc" }`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "anon")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "anon")
}
func simpleUpdateWithPresets(t *testing.T) {
@ -36,25 +27,16 @@ func simpleUpdateWithPresets(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "price", "updated_at") = (SELECT "t"."name", "t"."price", 'now' :: timestamp without time zone FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE (("products"."user_id") IS NOT DISTINCT FROM '{{user_id}}' :: bigint) RETURNING "products".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{"name": "Apple", "price": 1.25}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "user")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "user")
}
func nestedUpdateManyToMany(t *testing.T) {
gql := `mutation {
purchase(update: $data, id: 5) {
purchase(update: $data, id: $id) {
sale_type
quantity
due_date
@ -71,10 +53,6 @@ func nestedUpdateManyToMany(t *testing.T) {
}
}`
sql1 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "purchases" AS (UPDATE "purchases" SET ("sale_type", "quantity", "due_date") = (SELECT "t"."sale_type", "t"."quantity", "t"."due_date" FROM "_sg_input" i, json_populate_record(NULL::purchases, i.j) t) WHERE (("purchases"."id") = 5) RETURNING "purchases".*), "products" AS (UPDATE "products" SET ("name", "price") = (SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "purchases" WHERE (("products"."id") = ("purchases"."product_id")) RETURNING "products".*), "customers" AS (UPDATE "customers" SET ("full_name", "email") = (SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t) FROM "purchases" WHERE (("customers"."id") = ("purchases"."customer_id")) RETURNING "customers".*) SELECT json_object_agg('purchase', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "purchases_0"."sale_type" AS "sale_type", "purchases_0"."quantity" AS "quantity", "purchases_0"."due_date" AS "due_date", "product_1_join"."json_1" AS "product", "customer_2_join"."json_2" AS "customer") AS "json_row_0")) AS "json_0" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "customers_2"."id" AS "id", "customers_2"."full_name" AS "full_name", "customers_2"."email" AS "email") AS "json_row_2")) AS "json_2" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2" LIMIT ('1') :: integer) AS "customer_2_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
sql2 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "purchases" AS (UPDATE "purchases" SET ("sale_type", "quantity", "due_date") = (SELECT "t"."sale_type", "t"."quantity", "t"."due_date" FROM "_sg_input" i, json_populate_record(NULL::purchases, i.j) t) WHERE (("purchases"."id") = 5) RETURNING "purchases".*), "customers" AS (UPDATE "customers" SET ("full_name", "email") = (SELECT "t"."full_name", "t"."email" FROM "_sg_input" i, json_populate_record(NULL::customers, i.j->'customer') t) FROM "purchases" WHERE (("customers"."id") = ("purchases"."customer_id")) RETURNING "customers".*), "products" AS (UPDATE "products" SET ("name", "price") = (SELECT "t"."name", "t"."price" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "purchases" WHERE (("products"."id") = ("purchases"."product_id")) RETURNING "products".*) SELECT json_object_agg('purchase', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "purchases_0"."sale_type" AS "sale_type", "purchases_0"."quantity" AS "quantity", "purchases_0"."due_date" AS "due_date", "product_1_join"."json_1" AS "product", "customer_2_join"."json_2" AS "customer") AS "json_row_0")) AS "json_0" FROM (SELECT "purchases"."sale_type", "purchases"."quantity", "purchases"."due_date", "purchases"."product_id", "purchases"."customer_id" FROM "purchases" LIMIT ('1') :: integer) AS "purchases_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_2" FROM (SELECT "customers_2"."id" AS "id", "customers_2"."full_name" AS "full_name", "customers_2"."email" AS "email") AS "json_row_2")) AS "json_2" FROM (SELECT "customers"."id", "customers"."full_name", "customers"."email" FROM "customers" WHERE ((("customers"."id") = ("purchases_0"."customer_id"))) LIMIT ('1') :: integer) AS "customers_2" LIMIT ('1') :: integer) AS "customer_2_join" ON ('true') LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."id") = ("purchases_0"."product_id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(` {
"sale_type": "bought",
@ -92,17 +70,7 @@ func nestedUpdateManyToMany(t *testing.T) {
`),
}
for i := 0; i < 1000; i++ {
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql1 && string(resSQL) != sql2 {
t.Fatal(errNotExpected)
}
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedUpdateOneToMany(t *testing.T) {
@ -119,8 +87,6 @@ func nestedUpdateOneToMany(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (UPDATE "users" SET ("full_name", "email", "created_at", "updated_at") = (SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t) WHERE (("users"."id") IS NOT DISTINCT FROM 8) RETURNING "users".*), "products" AS (UPDATE "products" SET ("name", "price", "created_at", "updated_at") = (SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::products, i.j->'product') t) FROM "users" WHERE (("products"."user_id") = ("users"."id") AND "products"."id"= ((i.j->'product'->'where'->>'id'))::bigint) RETURNING "products".*) SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."full_name" AS "full_name", "users_0"."email" AS "email", "product_1_join"."json_1" AS "product") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"email": "thedude@rug.com",
@ -139,19 +105,12 @@ func nestedUpdateOneToMany(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedUpdateOneToOne(t *testing.T) {
gql := `mutation {
product(update: $data, id: 6) {
product(update: $data, id: $id) {
id
name
user {
@ -162,8 +121,6 @@ func nestedUpdateOneToOne(t *testing.T) {
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "products" AS (UPDATE "products" SET ("name", "price", "created_at", "updated_at") = (SELECT "t"."name", "t"."price", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = 6) RETURNING "products".*), "users" AS (UPDATE "users" SET ("email") = (SELECT "t"."email" FROM "_sg_input" i, json_populate_record(NULL::users, i.j->'user') t) FROM "products" WHERE (("users"."id") = ("products"."user_id")) RETURNING "users".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -176,19 +133,13 @@ func nestedUpdateOneToOne(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
compileGQLToPSQL(t, gql, vars, "admin")
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
}
func nestedUpdateOneToManyWithConnect(t *testing.T) {
gql := `mutation {
user(update: $data, id: 6) {
user(update: $data, id: $id) {
id
full_name
email
@ -200,8 +151,6 @@ func nestedUpdateOneToManyWithConnect(t *testing.T) {
}
}`
sql1 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "users" AS (UPDATE "users" SET ("full_name", "email", "created_at", "updated_at") = (SELECT "t"."full_name", "t"."email", "t"."created_at", "t"."updated_at" FROM "_sg_input" i, json_populate_record(NULL::users, i.j) t) WHERE (("users"."id") = 6) RETURNING "users".*), "products_c" AS ( UPDATE "products" SET "user_id" = "users"."id" FROM "users" WHERE ("products"."id"= ((i.j->'product'->'connect'->>'id'))::bigint) RETURNING "products".*), "products_d" AS ( UPDATE "products" SET "user_id" = NULL FROM "users" WHERE ("products"."id"= ((i.j->'product'->'disconnect'->>'id'))::bigint) RETURNING "products".*), "products" AS (SELECT * FROM "products_c" UNION ALL SELECT * FROM "products_d") SELECT json_object_agg('user', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "users_0"."id" AS "id", "users_0"."full_name" AS "full_name", "users_0"."email" AS "email", "product_1_join"."json_1" AS "product") AS "json_row_0")) AS "json_0" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" LIMIT ('1') :: integer) AS "users_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "products_1"."id" AS "id", "products_1"."name" AS "name", "products_1"."price" AS "price") AS "json_row_1")) AS "json_1" FROM (SELECT "products"."id", "products"."name", "products"."price" FROM "products" WHERE ((("products"."user_id") = ("users_0"."id"))) LIMIT ('1') :: integer) AS "products_1" LIMIT ('1') :: integer) AS "product_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"email": "thedude@rug.com",
@ -215,19 +164,12 @@ func nestedUpdateOneToManyWithConnect(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql1 {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedUpdateOneToOneWithConnect(t *testing.T) {
gql := `mutation {
product(update: $data, id: 9) {
product(update: $data, id: $product_id) {
id
name
user {
@ -238,10 +180,6 @@ func nestedUpdateOneToOneWithConnect(t *testing.T) {
}
}`
sql1 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint AND "users"."email"= ((i.j->'user'->'connect'->>'email'))::character varying LIMIT 1), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = 9) RETURNING "products".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
sql2 := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT "id" FROM "_sg_input" i,"users" WHERE "users"."email"= ((i.j->'user'->'connect'->>'email'))::character varying AND "users"."id"= ((i.j->'user'->'connect'->>'id'))::bigint LIMIT 1), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = 9) RETURNING "products".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "user_1_join"."json_1" AS "user") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LEFT OUTER JOIN LATERAL (SELECT row_to_json((SELECT "json_row_1" FROM (SELECT "users_1"."id" AS "id", "users_1"."full_name" AS "full_name", "users_1"."email" AS "email") AS "json_row_1")) AS "json_1" FROM (SELECT "users"."id", "users"."full_name", "users"."email" FROM "users" WHERE ((("users"."id") = ("products_0"."user_id"))) LIMIT ('1') :: integer) AS "users_1" LIMIT ('1') :: integer) AS "user_1_join" ON ('true') LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -252,29 +190,17 @@ func nestedUpdateOneToOneWithConnect(t *testing.T) {
}`),
}
for i := 0; i < 1000; i++ {
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql1 && string(resSQL) != sql2 {
t.Fatal(errNotExpected)
}
}
compileGQLToPSQL(t, gql, vars, "admin")
}
func nestedUpdateOneToOneWithDisconnect(t *testing.T) {
gql := `mutation {
product(update: $data, id: 2) {
product(update: $data, id: $id) {
id
name
user_id
}
}`
sql := `WITH "_sg_input" AS (SELECT '{{data}}' :: json AS j), "_x_users" AS (SELECT * FROM (VALUES(NULL::bigint)) AS LOOKUP("id")), "products" AS (UPDATE "products" SET ("name", "price", "user_id") = (SELECT "t"."name", "t"."price", "_x_users"."id" FROM "_sg_input" i, "_x_users", json_populate_record(NULL::products, i.j) t) WHERE (("products"."id") = 2) RETURNING "products".*) SELECT json_object_agg('product', json_0) FROM (SELECT row_to_json((SELECT "json_row_0" FROM (SELECT "products_0"."id" AS "id", "products_0"."name" AS "name", "products_0"."user_id" AS "user_id") AS "json_row_0")) AS "json_0" FROM (SELECT "products"."id", "products"."name", "products"."user_id" FROM "products" LIMIT ('1') :: integer) AS "products_0" LIMIT ('1') :: integer) AS "sel_0"`
vars := map[string]json.RawMessage{
"data": json.RawMessage(`{
"name": "Apple",
@ -285,14 +211,7 @@ func nestedUpdateOneToOneWithDisconnect(t *testing.T) {
}`),
}
resSQL, err := compileGQLToPSQL(gql, vars, "admin")
if err != nil {
t.Fatal(err)
}
if string(resSQL) != sql {
t.Fatal(errNotExpected)
}
compileGQLToPSQL(t, gql, vars, "admin")
}
// func nestedUpdateOneToOneWithDisconnectArray(t *testing.T) {

27
qcode/parse.go
View File

@ -556,6 +556,31 @@ func (t parserType) String() string {
return fmt.Sprintf("<%s>", v)
}
func FreeNode(n *Node) {
// type Frees struct {
// n *Node
// loc int
// }
// var freeList []Frees
// func FreeNode(n *Node, loc int) {
// j := -1
// for i := range freeList {
// if n == freeList[i].n {
// j = i
// break
// }
// }
// if j == -1 {
// nodePool.Put(n)
// freeList = append(freeList, Frees{n, loc})
// } else {
// fmt.Printf(">>>>(%d) RE_FREE %d %p %s %s\n", loc, freeList[j].loc, freeList[j].n, n.Name, n.Type)
// }
// }
func FreeNode(n *Node, loc int) {
nodePool.Put(n)
}

8
qcode/parse_test.go
View File

@ -22,8 +22,8 @@ func TestCompile1(t *testing.T) {
name
} }`), "user")
if err != nil {
t.Fatal(err)
if err == nil {
t.Fatal(errors.New("this should be an error id must be a variable"))
}
}
@ -39,7 +39,7 @@ func TestCompile2(t *testing.T) {
}
_, err = qc.Compile([]byte(`
query { product(id: 15) {
query { product(id: $id) {
id
name
} }`), "user")
@ -62,7 +62,7 @@ func TestCompile3(t *testing.T) {
_, err = qc.Compile([]byte(`
mutation {
product(id: 15, name: "Test") {
product(id: $test, name: "Test") {
id
name
}

249
qcode/qcode.go
View File

@ -65,6 +65,7 @@ type Exp struct {
Col string
NestedCols []string
Type ValType
Table string
Val string
ListType ValType
ListVal []string
@ -84,9 +85,19 @@ type OrderBy struct {
Order Order
}
type PagingType int
const (
PtOffset PagingType = iota
PtForward
PtBackward
)
type Paging struct {
Type PagingType
Limit string
Offset string
Cursor bool
NoLimit bool
}
@ -120,6 +131,8 @@ const (
OpEqID
OpTsQuery
OpFalse
OpNotDistinct
OpDistinct
)
type ValType int
@ -132,6 +145,7 @@ const (
ValList
ValVar
ValNone
ValRef
)
type AggregrateOp int
@ -183,6 +197,13 @@ func NewCompiler(c Config) (*Compiler, error) {
return co, nil
}
func NewFilter() *Exp {
ex := expPool.Get().(*Exp)
ex.Reset()
return ex
}
func (com *Compiler) AddRole(role, table string, trc TRConfig) error {
var err error
trv := &trval{}
@ -343,8 +364,8 @@ func (com *Compiler) compileQuery(qc *QCode, op *Operation, role string) error {
return err
}
// Order is important addFilters must come after compileArgs
com.addFilters(qc, s, role)
// Order is important AddFilters must come after compileArgs
com.AddFilters(qc, s, role)
if s.ParentID == -1 {
qc.Roots = append(qc.Roots, s.ID)
@ -390,7 +411,7 @@ func (com *Compiler) compileQuery(qc *QCode, op *Operation, role string) error {
return nil
}
func (com *Compiler) addFilters(qc *QCode, sel *Select, role string) {
func (com *Compiler) AddFilters(qc *QCode, sel *Select, role string) {
var fil *Exp
var nu bool
@ -400,10 +421,6 @@ func (com *Compiler) addFilters(qc *QCode, sel *Select, role string) {
} else if role == "anon" {
// Tables not defined under the anon role will not be rendered
sel.SkipRender = true
return
} else {
return
}
if fil == nil {
@ -418,55 +435,58 @@ func (com *Compiler) addFilters(qc *QCode, sel *Select, role string) {
case OpNop:
case OpFalse:
sel.Where = fil
default:
if sel.Where != nil {
ow := sel.Where
sel.Where = expPool.Get().(*Exp)
sel.Where.Reset()
sel.Where.Op = OpAnd
sel.Where.Children = sel.Where.childrenA[:2]
sel.Where.Children[0] = fil
sel.Where.Children[1] = ow
} else {
sel.Where = fil
}
AddFilter(sel, fil)
}
}
func (com *Compiler) compileArgs(qc *QCode, sel *Select, args []Arg, role string) error {
var err error
var ka bool
// don't free this arg either previously done or will be free'd
// in the future like in psql
var df bool
for i := range args {
arg := &args[i]
switch arg.Name {
case "id":
err, ka = com.compileArgID(sel, arg)
err, df = com.compileArgID(sel, arg)
case "search":
err, ka = com.compileArgSearch(sel, arg)
err, df = com.compileArgSearch(sel, arg)
case "where":
err, ka = com.compileArgWhere(sel, arg, role)
err, df = com.compileArgWhere(sel, arg, role)
case "orderby", "order_by", "order":
err, ka = com.compileArgOrderBy(sel, arg)
err, df = com.compileArgOrderBy(sel, arg)
case "distinct_on", "distinct":
err, ka = com.compileArgDistinctOn(sel, arg)
err, df = com.compileArgDistinctOn(sel, arg)
case "limit":
err, ka = com.compileArgLimit(sel, arg)
err, df = com.compileArgLimit(sel, arg)
case "offset":
err, ka = com.compileArgOffset(sel, arg)
err, df = com.compileArgOffset(sel, arg)
case "first":
err, df = com.compileArgFirstLast(sel, arg, PtForward)
case "last":
err, df = com.compileArgFirstLast(sel, arg, PtBackward)
case "after":
err, df = com.compileArgAfterBefore(sel, arg, PtForward)
case "before":
err, df = com.compileArgAfterBefore(sel, arg, PtBackward)
}
if !ka {
nodePool.Put(arg.Val)
if !df {
FreeNode(arg.Val, 5)
}
if err != nil {
@ -480,7 +500,7 @@ func (com *Compiler) compileArgs(qc *QCode, sel *Select, args []Arg, role string
func (com *Compiler) setMutationType(qc *QCode, args []Arg) error {
setActionVar := func(arg *Arg) error {
if arg.Val.Type != NodeVar {
return fmt.Errorf("value for argument '%s' must be a variable", arg.Name)
return argErr(arg.Name, "variable")
}
qc.ActionVar = arg.Val.Val
return nil
@ -503,7 +523,7 @@ func (com *Compiler) setMutationType(qc *QCode, args []Arg) error {
qc.Type = QTDelete
if arg.Val.Type != NodeBool {
return fmt.Errorf("value for argument '%s' must be a boolean", arg.Name)
return argErr(arg.Name, "boolen")
}
if arg.Val.Val == "false" {
@ -529,7 +549,7 @@ func (com *Compiler) compileArgNode(st *util.Stack, node *Node, usePool bool) (*
var needsUser bool
if node == nil || len(node.Children) == 0 {
return nil, needsUser, errors.New("invalid argument value")
return nil, false, errors.New("invalid argument value")
}
pushChild(st, nil, node)
@ -540,6 +560,7 @@ func (com *Compiler) compileArgNode(st *util.Stack, node *Node, usePool bool) (*
}
intf := st.Pop()
node, ok := intf.(*Node)
if !ok || node == nil {
return nil, needsUser, fmt.Errorf("16: unexpected value %v (%t)", intf, intf)
@ -576,19 +597,23 @@ func (com *Compiler) compileArgNode(st *util.Stack, node *Node, usePool bool) (*
}
}
pushChild(st, nil, node)
if usePool {
st.Push(node)
for {
if st.Len() == 0 {
break
for {
if st.Len() == 0 {
break
}
intf := st.Pop()
node, ok := intf.(*Node)
if !ok || node == nil {
continue
}
for i := range node.Children {
st.Push(node.Children[i])
}
FreeNode(node, 1)
}
intf := st.Pop()
node, _ := intf.(*Node)
for i := range node.Children {
st.Push(node.Children[i])
}
nodePool.Put(node)
}
return root, needsUser, nil
@ -603,60 +628,40 @@ func (com *Compiler) compileArgID(sel *Select, arg *Arg) (error, bool) {
return nil, false
}
if arg.Val.Type != NodeVar {
return argErr("id", "variable"), false
}
ex := expPool.Get().(*Exp)
ex.Reset()
ex.Op = OpEqID
ex.Type = ValVar
ex.Val = arg.Val.Val
switch arg.Val.Type {
case NodeStr:
ex.Type = ValStr
case NodeInt:
ex.Type = ValInt
case NodeFloat:
ex.Type = ValFloat
case NodeVar:
ex.Type = ValVar
default:
return fmt.Errorf("expecting a string, int, float or variable"), false
}
sel.Where = ex
return nil, false
}
func (com *Compiler) compileArgSearch(sel *Select, arg *Arg) (error, bool) {
if arg.Val.Type != NodeVar {
return argErr("search", "variable"), false
}
ex := expPool.Get().(*Exp)
ex.Reset()
ex.Op = OpTsQuery
ex.Type = ValVar
ex.Val = arg.Val.Val
if arg.Val.Type == NodeVar {
ex.Type = ValVar
} else {
ex.Type = ValStr
}
if sel.Args == nil {
sel.Args = make(map[string]*Node)
}
sel.Args[arg.Name] = arg.Val
AddFilter(sel, ex)
if sel.Where != nil {
ow := sel.Where
sel.Where = expPool.Get().(*Exp)
sel.Where.Reset()
sel.Where.Op = OpAnd
sel.Where.Children = sel.Where.childrenA[:2]
sel.Where.Children[0] = ex
sel.Where.Children[1] = ow
} else {
sel.Where = ex
}
return nil, true
}
@ -672,21 +677,9 @@ func (com *Compiler) compileArgWhere(sel *Select, arg *Arg, role string) (error,
if nu && role == "anon" {
sel.SkipRender = true
}
AddFilter(sel, ex)
if sel.Where != nil {
ow := sel.Where
sel.Where = expPool.Get().(*Exp)
sel.Where.Reset()
sel.Where.Op = OpAnd
sel.Where.Children = sel.Where.childrenA[:2]
sel.Where.Children[0] = ex
sel.Where.Children[1] = ow
} else {
sel.Where = ex
}
return nil, false
return nil, true
}
func (com *Compiler) compileArgOrderBy(sel *Select, arg *Arg) (error, bool) {
@ -713,16 +706,12 @@ func (com *Compiler) compileArgOrderBy(sel *Select, arg *Arg) (error, bool) {
}
if _, ok := com.bl[node.Name]; ok {
nodePool.Put(node)
FreeNode(node, 2)
continue
}
if node.Type == NodeObj {
for i := range node.Children {
st.Push(node.Children[i])
}
nodePool.Put(node)
continue
if node.Type != NodeStr && node.Type != NodeVar {
return fmt.Errorf("expecting a string or variable"), false
}
ob := &OrderBy{}
@ -746,7 +735,7 @@ func (com *Compiler) compileArgOrderBy(sel *Select, arg *Arg) (error, bool) {
setOrderByColName(ob, node)
sel.OrderBy = append(sel.OrderBy, ob)
nodePool.Put(node)
FreeNode(node, 3)
}
return nil, false
}
@ -768,7 +757,7 @@ func (com *Compiler) compileArgDistinctOn(sel *Select, arg *Arg) (error, bool) {
for i := range node.Children {
sel.DistinctOn = append(sel.DistinctOn, node.Children[i].Val)
nodePool.Put(node.Children[i])
FreeNode(node.Children[i], 5)
}
return nil, false
@ -778,7 +767,7 @@ func (com *Compiler) compileArgLimit(sel *Select, arg *Arg) (error, bool) {
node := arg.Val
if node.Type != NodeInt {
return fmt.Errorf("expecting an integer"), false
return argErr("limit", "number"), false
}
sel.Paging.Limit = node.Val
@ -789,14 +778,39 @@ func (com *Compiler) compileArgLimit(sel *Select, arg *Arg) (error, bool) {
func (com *Compiler) compileArgOffset(sel *Select, arg *Arg) (error, bool) {
node := arg.Val
if node.Type != NodeInt {
return fmt.Errorf("expecting an integer"), false
if node.Type != NodeVar {
return argErr("offset", "variable"), false
}
sel.Paging.Offset = node.Val
return nil, false
}
func (com *Compiler) compileArgFirstLast(sel *Select, arg *Arg, pt PagingType) (error, bool) {
node := arg.Val
if node.Type != NodeInt {
return argErr(arg.Name, "number"), false
}
sel.Paging.Type = pt
sel.Paging.Limit = node.Val
return nil, false
}
func (com *Compiler) compileArgAfterBefore(sel *Select, arg *Arg, pt PagingType) (error, bool) {
node := arg.Val
if node.Type != NodeVar || node.Val != "cursor" {
return fmt.Errorf("value for argument '%s' must be a variable named $cursor", arg.Name), false
}
sel.Paging.Type = pt
sel.Paging.Cursor = true
return nil, false
}
var zeroTrv = &trval{}
func (com *Compiler) getRole(role, field string) *trval {
@ -807,6 +821,27 @@ func (com *Compiler) getRole(role, field string) *trval {
}
}
func AddFilter(sel *Select, fil *Exp) {
if sel.Where != nil {
ow := sel.Where
if sel.Where.Op != OpAnd || !sel.Where.doFree {
sel.Where = expPool.Get().(*Exp)
sel.Where.Reset()
sel.Where.Op = OpAnd
sel.Where.Children = sel.Where.childrenA[:2]
sel.Where.Children[0] = fil
sel.Where.Children[1] = ow
} else {
sel.Where.Children = append(sel.Where.Children, fil)
}
} else {
sel.Where = fil
}
}
func newExp(st *util.Stack, node *Node, usePool bool) (*Exp, error) {
name := node.Name
if name[0] == '_' {
@ -821,6 +856,7 @@ func newExp(st *util.Stack, node *Node, usePool bool) (*Exp, error) {
} else {
ex = &Exp{doFree: false}
}
ex.Children = ex.childrenA[:0]
switch name {
@ -902,6 +938,12 @@ func newExp(st *util.Stack, node *Node, usePool bool) (*Exp, error) {
case "is_null":
ex.Op = OpIsNull
ex.Val = node.Val
case "null_eq", "ndis", "not_distinct":
ex.Op = OpNotDistinct
ex.Val = node.Val
case "null_neq", "dis", "distinct":
ex.Op = OpDistinct
ex.Val = node.Val
default:
pushChildren(st, node.exp, node)
return nil, nil // skip node
@ -997,7 +1039,6 @@ func pushChildren(st *util.Stack, exp *Exp, node *Node) {
func pushChild(st *util.Stack, exp *Exp, node *Node) {
node.Children[0].exp = exp
st.Push(node.Children[0])
}
func compileFilter(filter []string) (*Exp, bool, error) {
@ -1130,3 +1171,7 @@ func FreeExp(ex *Exp) {
expPool.Put(ex)
}
}
func argErr(name, ty string) error {
return fmt.Errorf("value for argument '%s' must be a %s", name, ty)
}

44
serv/args.go
View File

@ -4,7 +4,6 @@ import (
"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"io"
@ -18,31 +17,41 @@ func argMap(ctx context.Context, vars []byte) func(w io.Writer, tag string) (int
if v := ctx.Value(userIDProviderKey); v != nil {
return io.WriteString(w, v.(string))
}
return 0, errors.New("query requires variable $user_id_provider")
return 0, argErr("user_id_provider")
case "user_id":
if v := ctx.Value(userIDKey); v != nil {
return io.WriteString(w, v.(string))
}
return 0, errors.New("query requires variable $user_id")
return 0, argErr("user_id")
case "user_role":
if v := ctx.Value(userRoleKey); v != nil {
return io.WriteString(w, v.(string))
}
return 0, errors.New("query requires variable $user_role")
return 0, argErr("user_role")
}
fields := jsn.Get(vars, [][]byte{[]byte(tag)})
if len(fields) == 0 {
return 0, nil
return 0, argErr(tag)
}
v := fields[0].Value
if len(v) >= 2 && v[0] == '"' && v[len(v)-1] == '"' {
fields[0].Value = v[1 : len(v)-1]
}
if tag == "cursor" {
v1, err := decrypt(string(fields[0].Value))
if err != nil {
return 0, err
}
return w.Write(v1)
}
return w.Write(escQuote(fields[0].Value))
}
}
@ -63,27 +72,37 @@ func argList(ctx *coreContext, args [][]byte) ([]interface{}, error) {
for i := range args {
av := args[i]
switch {
case bytes.Equal(av, []byte("user_id")):
if v := ctx.Value(userIDKey); v != nil {
vars[i] = v.(string)
} else {
return nil, errors.New("query requires variable $user_id")
return nil, argErr("user_id")
}
case bytes.Equal(av, []byte("user_id_provider")):
if v := ctx.Value(userIDProviderKey); v != nil {
vars[i] = v.(string)
} else {
return nil, errors.New("query requires variable $user_id_provider")
return nil, argErr("user_id_provider")
}
case bytes.Equal(av, []byte("user_role")):
if v := ctx.Value(userRoleKey); v != nil {
vars[i] = v.(string)
} else {
return nil, errors.New("query requires variable $user_role")
return nil, argErr("user_role")
}
case bytes.Equal(av, []byte("cursor")):
if v, ok := fields["cursor"]; ok && v[0] == '"' {
v1, err := decrypt(string(v[1 : len(v)-1]))
if err != nil {
return nil, err
}
vars[i] = v1
} else {
return nil, argErr("cursor")
}
default:
@ -96,11 +115,12 @@ func argList(ctx *coreContext, args [][]byte) ([]interface{}, error) {
if err := json.Unmarshal(v, &val); err != nil {
return nil, err
}
vars[i] = val
}
} else {
return nil, fmt.Errorf("query requires variable $%s", string(av))
return nil, argErr(string(av))
}
}
}
@ -135,3 +155,7 @@ func escQuote(b []byte) []byte {
}
return buf.Bytes()
}
func argErr(name string) error {
return fmt.Errorf("query requires variable '%s' to be set", name)
}

20
serv/cmd.go
View File

@ -29,15 +29,17 @@ var (
)
var (
logger zerolog.Logger // logger for everything but errors
errlog zerolog.Logger // logger for errors includes line numbers
conf *config // parsed config
confPath string // path to the config file
db *pgxpool.Pool // database connection pool
schema *psql.DBSchema // database tables, columns and relationships
allowList *allow.List // allow.list is contains queries allowed in production
qcompile *qcode.Compiler // qcode compiler
pcompile *psql.Compiler // postgres sql compiler
logger zerolog.Logger // logger for everything but errors
errlog zerolog.Logger // logger for errors includes line numbers
conf *config // parsed config
confPath string // path to the config file
db *pgxpool.Pool // database connection pool
schema *psql.DBSchema // database tables, columns and relationships
allowList *allow.List // allow.list is contains queries allowed in production
qcompile *qcode.Compiler // qcode compiler
pcompile *psql.Compiler // postgres sql compiler
secretKey [32]byte // encryption key
internalKey [32]byte // encryption key used for internal needs
)
func Cmd() {

15
serv/cmd_seed.go
View File

@ -7,6 +7,7 @@ import (
"fmt"
"io"
"io/ioutil"
"math/rand"
"os"
"path"
@ -145,6 +146,17 @@ func logFunc(args ...interface{}) {
}
}
func avatarURL(size int) string {
if size == 0 {
size = 200
}
return fmt.Sprintf("https://i.pravatar.cc/%d?%d", size, rand.Intn(5000))
}
func imageURL(width int, height int) string {
return fmt.Sprintf("https://picsum.photos/%d/%d?%d", width, height, rand.Intn(5000))
}
//nolint: errcheck
func setFakeFuncs(f *goja.Object) {
gofakeit.Seed(0)
@ -222,7 +234,8 @@ func setFakeFuncs(f *goja.Object) {
// Internet
f.Set("url", gofakeit.URL)
f.Set("image_url", gofakeit.ImageURL)
f.Set("image_url", imageURL)
f.Set("avatar_url", avatarURL)
f.Set("domain_name", gofakeit.DomainName)
f.Set("domain_suffix", gofakeit.DomainSuffix)
f.Set("ipv4_address", gofakeit.IPv4Address)

11
serv/cmd_serv.go
View File

@ -19,10 +19,13 @@ func cmdServ(cmd *cobra.Command, args []string) {
fatalInProd(err, "failed to connect to database")
}
initCompiler()
initResolvers()
initAllowList(confPath)
initPreparedList(confPath)
if conf != nil && db != nil {
initCrypto()
initCompiler()
initResolvers()
initAllowList(confPath)
initPreparedList(confPath)
}
startHTTP()
}

1
serv/config.go
View File

@ -30,6 +30,7 @@ type config struct {
AuthFailBlock bool `mapstructure:"auth_fail_block"`
SeedFile string `mapstructure:"seed_file"`
MigrationsPath string `mapstructure:"migrations_path"`
SecretKey string `mapstructure:"secret_key"`
Inflections map[string]string

9
serv/core.go
View File

@ -13,6 +13,7 @@ import (
"github.com/cespare/xxhash/v2"
"github.com/dosco/super-graph/allow"
"github.com/dosco/super-graph/qcode"
"github.com/jackc/pgx/v4"
"github.com/valyala/fasttemplate"
)
@ -192,6 +193,8 @@ func (c *coreContext) resolveSQL() ([]byte, *stmt, error) {
}
st := &stmts[0]
//fmt.Println(">", string(st.sql))
t := fasttemplate.New(st.sql, openVar, closeVar)
buf := &bytes.Buffer{}
@ -241,8 +244,12 @@ func (c *coreContext) resolveSQL() ([]byte, *stmt, error) {
}
}
if root, err = encryptCursor(st.qc, root); err != nil {
return nil, nil, err
}
if allowList.IsPersist() {
if err := allowList.Add(c.req.Vars, c.req.Query, c.req.ref); err != nil {
if err := allowList.Set(c.req.Vars, c.req.Query, c.req.ref); err != nil {
return nil, nil, err
}
}

72
serv/cursor.go Normal file
View File

@ -0,0 +1,72 @@
package serv
import (
"bytes"
"encoding/base64"
"github.com/dosco/super-graph/crypto"
"github.com/dosco/super-graph/jsn"
"github.com/dosco/super-graph/qcode"
)
func encryptCursor(qc *qcode.QCode, data []byte) ([]byte, error) {
var keys [][]byte
for _, s := range qc.Selects {
if s.Paging.Type != qcode.PtOffset {
var buf bytes.Buffer
buf.WriteString(s.FieldName)
buf.WriteString("_cursor")
keys = append(keys, buf.Bytes())
}
}
if len(keys) == 0 {
return data, nil
}
from := jsn.Get(data, keys)
to := make([]jsn.Field, len(from))
for i, f := range from {
to[i].Key = f.Key
if f.Value[0] != '"' || f.Value[len(f.Value)-1] != '"' {
continue
}
var buf bytes.Buffer
if len(f.Value) > 2 {
v, err := crypto.Encrypt(f.Value[1:len(f.Value)-1], &internalKey)
if err != nil {
return nil, err
}
buf.WriteByte('"')
buf.WriteString(base64.StdEncoding.EncodeToString(v))
buf.WriteByte('"')
} else {
buf.WriteString(`null`)
}
to[i].Value = buf.Bytes()
}
var buf bytes.Buffer
if err := jsn.Replace(&buf, data, from, to); err != nil {
return nil, err
}
return buf.Bytes(), nil
}
func decrypt(data string) ([]byte, error) {
v, err := base64.StdEncoding.DecodeString(data)
if err != nil {
return nil, err
}
return crypto.Decrypt(v, &internalKey)
}

13
serv/init.go
View File

@ -2,10 +2,12 @@ package serv
import (
"context"
"crypto/sha256"
"fmt"
"os"
"github.com/dosco/super-graph/allow"
"github.com/dosco/super-graph/crypto"
"github.com/jackc/pgx/v4"
"github.com/jackc/pgx/v4/pgxpool"
"github.com/rs/zerolog"
@ -163,3 +165,14 @@ func initAllowList(cpath string) {
errlog.Fatal().Err(err).Msg("failed to initialize allow list")
}
}
func initCrypto() {
if len(conf.SecretKey) != 0 {
secretKey = sha256.Sum256([]byte(conf.SecretKey))
conf.SecretKey = ""
internalKey = secretKey
} else {
internalKey = crypto.NewEncryptionKey()
}
}

4
tmpl/dev.yml
View File

@ -32,6 +32,10 @@ reload_on_config_change: true
# Path pointing to where the migrations can be found
migrations_path: ./config/migrations
# Secret key for general encryption operations like
# encrypting the cursor data
secret_key: supercalifajalistics
# Postgres related environment Variables
# SG_DATABASE_HOST
# SG_DATABASE_PORT

41
tmpl/docker-compose.yml
View File

@ -1,14 +1,53 @@
version: '3.4'
services:
# Postgres DB
db:
image: postgres
image: postgres:latest
ports:
- "5432:5432"
# Yugabyte DB
# yb-master:
# image: yugabytedb/yugabyte:latest
# container_name: yb-master-n1
# command: [ "/home/yugabyte/bin/yb-master",
# "--fs_data_dirs=/mnt/disk0,/mnt/disk1",
# "--master_addresses=yb-master-n1:7100",
# "--replication_factor=1",
# "--enable_ysql=true"]
# ports:
# - "7000:7000"
# environment:
# SERVICE_7000_NAME: yb-master
# db:
# image: yugabytedb/yugabyte:latest
# container_name: yb-tserver-n1
# command: [ "/home/yugabyte/bin/yb-tserver",
# "--fs_data_dirs=/mnt/disk0,/mnt/disk1",
# "--start_pgsql_proxy",
# "--tserver_master_addrs=yb-master-n1:7100"]
# ports:
# - "9042:9042"
# - "6379:6379"
# - "5433:5433"
# - "9000:9000"
# environment:
# SERVICE_5433_NAME: ysql
# SERVICE_9042_NAME: ycql
# SERVICE_6379_NAME: yedis
# SERVICE_9000_NAME: yb-tserver
# depends_on:
# - yb-master
{% app_name_slug %}_api:
image: dosco/super-graph:latest
environment:
GO_ENV: "development"
# Uncomment below for Yugabyte DB
# SG_DATABASE_PORT: 5433
# SG_DATABASE_USER: yugabyte
# SG_DATABASE_PASSWORD: yugabyte
volumes:
- ./config:/config
ports:

4
tmpl/prod.yml
View File

@ -32,6 +32,10 @@ enable_tracing: true
# Path pointing to where the migrations can be found
# migrations_path: migrations
# Secret key for general encryption operations like
# encrypting the cursor data
# secret_key: supercalifajalistics
# Postgres related environment Variables
# SG_DATABASE_HOST
# SG_DATABASE_PORT