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minio/pkg/s3select/sql/parser.go

343 lines
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/*
* Minio Cloud Storage, (C) 2019 Minio, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package sql
import (
"strings"
"github.com/alecthomas/participle"
"github.com/alecthomas/participle/lexer"
)
// Types with custom Capture interface for parsing
// Boolean is a type for a parsed Boolean literal
type Boolean bool
// Capture interface used by participle
func (b *Boolean) Capture(values []string) error {
*b = strings.ToLower(values[0]) == "true"
return nil
}
// LiteralString is a type for parsed SQL string literals
type LiteralString string
// Capture interface used by participle
func (ls *LiteralString) Capture(values []string) error {
// Remove enclosing single quote
n := len(values[0])
r := values[0][1 : n-1]
// Translate doubled quotes
*ls = LiteralString(strings.Replace(r, "''", "'", -1))
return nil
}
// ObjectKey is a type for parsed strings occurring in key paths
type ObjectKey struct {
Lit *LiteralString `parser:" \"[\" @LitString \"]\""`
ID *Identifier `parser:"| \".\" @@"`
}
// QuotedIdentifier is a type for parsed strings that are double
// quoted.
type QuotedIdentifier string
// Capture interface used by participle
func (qi *QuotedIdentifier) Capture(values []string) error {
// Remove enclosing quotes
n := len(values[0])
r := values[0][1 : n-1]
// Translate doubled quotes
*qi = QuotedIdentifier(strings.Replace(r, `""`, `"`, -1))
return nil
}
// Types representing AST of SQL statement. Only SELECT is supported.
// Select is the top level AST node type
type Select struct {
Expression *SelectExpression `parser:"\"SELECT\" @@"`
From *TableExpression `parser:"\"FROM\" @@"`
Where *Expression `parser:"( \"WHERE\" @@ )?"`
Limit *LitValue `parser:"( \"LIMIT\" @@ )?"`
}
// SelectExpression represents the items requested in the select
// statement
type SelectExpression struct {
All bool `parser:" @\"*\""`
Expressions []*AliasedExpression `parser:"| @@ { \",\" @@ }"`
}
// TableExpression represents the FROM clause
type TableExpression struct {
Table *JSONPath `parser:"@@"`
As string `parser:"( \"AS\"? @Ident )?"`
}
// JSONPathElement represents a keypath component
type JSONPathElement struct {
Key *ObjectKey `parser:" @@"` // ['name'] and .name forms
Index *int `parser:"| \"[\" @Number \"]\""` // [3] form
ObjectWildcard bool `parser:"| @\".*\""` // .* form
ArrayWildcard bool `parser:"| @\"[*]\""` // [*] form
}
// JSONPath represents a keypath
type JSONPath struct {
BaseKey *Identifier `parser:" @@"`
PathExpr []*JSONPathElement `parser:"(@@)*"`
}
// AliasedExpression is an expression that can be optionally named
type AliasedExpression struct {
Expression *Expression `parser:"@@"`
As string `parser:"[ \"AS\" @Ident ]"`
}
// Grammar for Expression
//
// Expression → AndCondition ("OR" AndCondition)*
// AndCondition → Condition ("AND" Condition)*
// Condition → "NOT" Condition | ConditionExpression
// ConditionExpression → ValueExpression ("=" | "<>" | "<=" | ">=" | "<" | ">") ValueExpression
// | ValueExpression "LIKE" ValueExpression ("ESCAPE" LitString)?
// | ValueExpression ("NOT"? "BETWEEN" ValueExpression "AND" ValueExpression)
// | ValueExpression "IN" "(" Expression ("," Expression)* ")"
// | ValueExpression
// ValueExpression → Operand
//
// Operand grammar follows below
// Expression represents a logical disjunction of clauses
type Expression struct {
And []*AndCondition `parser:"@@ ( \"OR\" @@ )*"`
}
// AndCondition represents logical conjunction of clauses
type AndCondition struct {
Condition []*Condition `parser:"@@ ( \"AND\" @@ )*"`
}
// Condition represents a negation or a condition operand
type Condition struct {
Operand *ConditionOperand `parser:" @@"`
Not *Condition `parser:"| \"NOT\" @@"`
}
// ConditionOperand is a operand followed by an an optional operation
// expression
type ConditionOperand struct {
Operand *Operand `parser:"@@"`
ConditionRHS *ConditionRHS `parser:"@@?"`
}
// ConditionRHS represents the right-hand-side of Compare, Between, In
// or Like expressions.
type ConditionRHS struct {
Compare *Compare `parser:" @@"`
Between *Between `parser:"| @@"`
In *In `parser:"| \"IN\" \"(\" @@ \")\""`
Like *Like `parser:"| @@"`
}
// Compare represents the RHS of a comparison expression
type Compare struct {
Operator string `parser:"@( \"<>\" | \"<=\" | \">=\" | \"=\" | \"<\" | \">\" | \"!=\" )"`
Operand *Operand `parser:" @@"`
}
// Like represents the RHS of a LIKE expression
type Like struct {
Not bool `parser:" @\"NOT\"? "`
Pattern *Operand `parser:" \"LIKE\" @@ "`
EscapeChar *Operand `parser:" (\"ESCAPE\" @@)? "`
}
// Between represents the RHS of a BETWEEN expression
type Between struct {
Not bool `parser:" @\"NOT\"? "`
Start *Operand `parser:" \"BETWEEN\" @@ "`
End *Operand `parser:" \"AND\" @@ "`
}
// In represents the RHS of an IN expression
type In struct {
Expressions []*Expression `parser:"@@ ( \",\" @@ )*"`
}
// Grammar for Operand:
//
// operand → multOp ( ("-" | "+") multOp )*
// multOp → unary ( ("/" | "*" | "%") unary )*
// unary → "-" unary | primary
// primary → Value | Variable | "(" expression ")"
//
// An Operand is a single term followed by an optional sequence of
// terms separated by +/-
type Operand struct {
Left *MultOp `parser:"@@"`
Right []*OpFactor `parser:"(@@)*"`
}
// OpFactor represents the right-side of a +/- operation.
type OpFactor struct {
Op string `parser:"@(\"+\" | \"-\")"`
Right *MultOp `parser:"@@"`
}
// MultOp represents a single term followed by an optional sequence of
// terms separated by *, / or % operators.
type MultOp struct {
Left *UnaryTerm `parser:"@@"`
Right []*OpUnaryTerm `parser:"(@@)*"`
}
// OpUnaryTerm represents the right side of *, / or % binary operations.
type OpUnaryTerm struct {
Op string `parser:"@(\"*\" | \"/\" | \"%\")"`
Right *UnaryTerm `parser:"@@"`
}
// UnaryTerm represents a single negated term or a primary term
type UnaryTerm struct {
Negated *NegatedTerm `parser:" @@"`
Primary *PrimaryTerm `parser:"| @@"`
}
// NegatedTerm has a leading minus sign.
type NegatedTerm struct {
Term *PrimaryTerm `parser:"\"-\" @@"`
}
// PrimaryTerm represents a Value, Path expression, a Sub-expression
// or a function call.
type PrimaryTerm struct {
Value *LitValue `parser:" @@"`
JPathExpr *JSONPath `parser:"| @@"`
SubExpression *Expression `parser:"| \"(\" @@ \")\""`
// Include function expressions here.
FuncCall *FuncExpr `parser:"| @@"`
}
// FuncExpr represents a function call
type FuncExpr struct {
SFunc *SimpleArgFunc `parser:" @@"`
Count *CountFunc `parser:"| @@"`
Cast *CastFunc `parser:"| @@"`
Substring *SubstringFunc `parser:"| @@"`
Extract *ExtractFunc `parser:"| @@"`
Trim *TrimFunc `parser:"| @@"`
DateAdd *DateAddFunc `parser:"| @@"`
DateDiff *DateDiffFunc `parser:"| @@"`
// Used during evaluation for aggregation funcs
aggregate *aggVal
}
// SimpleArgFunc represents functions with simple expression
// arguments.
type SimpleArgFunc struct {
FunctionName string `parser:" @(\"AVG\" | \"MAX\" | \"MIN\" | \"SUM\" | \"COALESCE\" | \"NULLIF\" | \"TO_STRING\" | \"TO_TIMESTAMP\" | \"UTCNOW\" | \"CHAR_LENGTH\" | \"CHARACTER_LENGTH\" | \"LOWER\" | \"UPPER\") "`
ArgsList []*Expression `parser:"\"(\" (@@ (\",\" @@)*)?\")\""`
}
// CountFunc represents the COUNT sql function
type CountFunc struct {
StarArg bool `parser:" \"COUNT\" \"(\" ( @\"*\"?"`
ExprArg *Expression `parser:" @@? )! \")\""`
}
// CastFunc represents CAST sql function
type CastFunc struct {
Expr *Expression `parser:" \"CAST\" \"(\" @@ "`
CastType string `parser:" \"AS\" @(\"BOOL\" | \"INT\" | \"INTEGER\" | \"STRING\" | \"FLOAT\" | \"DECIMAL\" | \"NUMERIC\" | \"TIMESTAMP\") \")\" "`
}
// SubstringFunc represents SUBSTRING sql function
type SubstringFunc struct {
Expr *PrimaryTerm `parser:" \"SUBSTRING\" \"(\" @@ "`
From *Operand `parser:" ( \"FROM\" @@ "`
For *Operand `parser:" (\"FOR\" @@)? \")\" "`
Arg2 *Operand `parser:" | \",\" @@ "`
Arg3 *Operand `parser:" (\",\" @@)? \")\" )"`
}
// ExtractFunc represents EXTRACT sql function
type ExtractFunc struct {
Timeword string `parser:" \"EXTRACT\" \"(\" @( \"YEAR\":Timeword | \"MONTH\":Timeword | \"DAY\":Timeword | \"HOUR\":Timeword | \"MINUTE\":Timeword | \"SECOND\":Timeword | \"TIMEZONE_HOUR\":Timeword | \"TIMEZONE_MINUTE\":Timeword ) "`
From *PrimaryTerm `parser:" \"FROM\" @@ \")\" "`
}
// TrimFunc represents TRIM sql function
type TrimFunc struct {
TrimWhere *string `parser:" \"TRIM\" \"(\" ( @( \"LEADING\" | \"TRAILING\" | \"BOTH\" ) "`
TrimChars *PrimaryTerm `parser:" @@? "`
TrimFrom *PrimaryTerm `parser:" \"FROM\" )? @@ \")\" "`
}
// DateAddFunc represents the DATE_ADD function
type DateAddFunc struct {
DatePart string `parser:" \"DATE_ADD\" \"(\" @( \"YEAR\":Timeword | \"MONTH\":Timeword | \"DAY\":Timeword | \"HOUR\":Timeword | \"MINUTE\":Timeword | \"SECOND\":Timeword ) \",\""`
Quantity *Operand `parser:" @@ \",\""`
Timestamp *PrimaryTerm `parser:" @@ \")\""`
}
// DateDiffFunc represents the DATE_DIFF function
type DateDiffFunc struct {
DatePart string `parser:" \"DATE_DIFF\" \"(\" @( \"YEAR\":Timeword | \"MONTH\":Timeword | \"DAY\":Timeword | \"HOUR\":Timeword | \"MINUTE\":Timeword | \"SECOND\":Timeword ) \",\" "`
Timestamp1 *PrimaryTerm `parser:" @@ \",\" "`
Timestamp2 *PrimaryTerm `parser:" @@ \")\" "`
}
// LitValue represents a literal value parsed from the sql
type LitValue struct {
Number *float64 `parser:"( @Number"`
String *LiteralString `parser:" | @LitString"`
Boolean *Boolean `parser:" | @(\"TRUE\" | \"FALSE\")"`
Null bool `parser:" | @\"NULL\")"`
}
// Identifier represents a parsed identifier
type Identifier struct {
Unquoted *string `parser:" @Ident"`
Quoted *QuotedIdentifier `parser:"| @QuotIdent"`
}
var (
sqlLexer = lexer.Must(lexer.Regexp(`(\s+)` +
`|(?P<Timeword>(?i)\b(?:YEAR|MONTH|DAY|HOUR|MINUTE|SECOND|TIMEZONE_HOUR|TIMEZONE_MINUTE)\b)` +
`|(?P<Keyword>(?i)\b(?:SELECT|FROM|TOP|DISTINCT|ALL|WHERE|GROUP|BY|HAVING|UNION|MINUS|EXCEPT|INTERSECT|ORDER|LIMIT|OFFSET|TRUE|FALSE|NULL|IS|NOT|ANY|SOME|BETWEEN|AND|OR|LIKE|ESCAPE|AS|IN|BOOL|INT|INTEGER|STRING|FLOAT|DECIMAL|NUMERIC|TIMESTAMP|AVG|COUNT|MAX|MIN|SUM|COALESCE|NULLIF|CAST|DATE_ADD|DATE_DIFF|EXTRACT|TO_STRING|TO_TIMESTAMP|UTCNOW|CHAR_LENGTH|CHARACTER_LENGTH|LOWER|SUBSTRING|TRIM|UPPER|LEADING|TRAILING|BOTH|FOR)\b)` +
`|(?P<Ident>[a-zA-Z_][a-zA-Z0-9_]*)` +
`|(?P<QuotIdent>"([^"]*("")?)*")` +
`|(?P<Number>\d*\.?\d+([eE][-+]?\d+)?)` +
`|(?P<LitString>'([^']*('')?)*')` +
`|(?P<Operators><>|!=|<=|>=|\.\*|\[\*\]|[-+*/%,.()=<>\[\]])`,
))
// SQLParser is used to parse SQL statements
SQLParser = participle.MustBuild(
&Select{},
participle.Lexer(sqlLexer),
participle.CaseInsensitive("Keyword"),
participle.CaseInsensitive("Timeword"),
)
)