OpenResty XRay™ YSQL User Manual
This manual documents the YSQL language from the user’s perspective.
Table of Contents
Convention
We use the word ysql
for the Ops language throughout this document
for convenience.
Example code with problems will get a question mark, ?
, at the beginning
of each of its lines. For example:
? select *;
Description
The YSQL language is inspired by the SQL language but is never meant to be 100% compatible with the SQL standard nor some SQL dialect. Nevertheless, YSQL code may look very similar to SQL code.
The YSQL language is provided as part of the OpenResty XRay platform. It is a means to quickly create new dynamic tracing analyzers against any running processes without log data analysis or special data API collaborations from the target applications.
Program Layout
A YSQL program consists of multiple statements separated by semicolons. Currently
only a single select
query statement is allowed, but it may change in the future.
Below is an example:
select uri, host
from ngx.reqs;
The last statement’s trailing semicolon may be omitted.
Lexical Constructs
Integers
Integers can be expressed as decimal or hexadecimal literals, as in
-3
519
0xdeadbeef
Floating-Point Numbers
Floating point numbers can be expressed like below:
3.1415926
2e8
4.2E2
String Literals
Character string literals are quoted by single-quotes, just like the standard SQL language, as in
'hello, world!'
Additionally we support the following special escape sequences to specify special characters:
\a bell, ascii code 0x07
\b backspace, ascii code 0x08
\f form feed, ascii code 0x0c
\n new line
\r carriage return
\t tab
\v vertical tab
\\ backslash (\)
\' single-quote character (')
\" double-quote character (")
\<newline> new line character, just like \n
Below is an example using escape sequences:
'hello\nworld\t!'
Regex Literals
Regex literals are a way to represent regular expressions for pattern matching
(as with the like
binary operator). A regex literal, say, /[0-9]+/
, can be
quoted by different delimiters, as in
/[0-9]+/
rx/[0-9]+/
rx{[0-9]+}
rx([0-9]+)
rx[[0-9]+]
rx'[0-9]+'
rx"[0-9]+"
rx![0-9]+!
rx#[0-9]+#
You can choose the best delimiters to minimize the necessary escapes inside the regex pattern itself.
Currently only the common subset of the Perl compatible regex and POSIX regex
syntax is allowed with the exception of the back-reference syntax (like \1
,
\2
, and etc). We may lift this restriction in the future.
Submatch captures using parentheses are supported.
Boolean Literals
The boolean literals in YSQL are just true
and false
, just like in SQL.
Null
The special null
keyword indicates a null value (similar to the null
value
in SQL).
YSQL does not usually involve null values and thus this literal is rarely used. It is included just for the sake of completeness.
Tables
Table names must always be specified in their fully qualified form unless
an alias is given by the user (like with the as ALIAS
syntax in a from
clause).
YSQL currently supports many built-in tables like ngx.reqs
and cpu.profile
.
See “Builtin Tables” section for details.
Columns
Column names can be indicated by their bare names like uri
and host
when
there is no ambiguity, or by their fully qualified form with the table name,
as in
select ngx.reqs.uri
from ngx.reqs
Where the uri
column is specified using the fully qualified form, ngx.reqs.uri
.
Columns can also be referenced indirectly via a user alias (as with the as ALIAS
syntax in the select
list).
Operators and Expressions
YSQL supports a lot of SQL-like operators and expression types with some of its own additions.
The precedence table for all the operators is as follows:
3 unary !
4 - (unary minus), + (unary plus)
5 || (string concatenation)
7 *, /, %
8 binary -, +
12 = (comparison), >=, >, <=, <, <>, !=, is, like, in, prefix, suffix, contains
13 between
14 not
15 and
17 or
19 left join, inner join
20 , (cross join)
Usually parentheses (...)
can be used to group operators with lower
precedence.
The not ...
variants like not between
and is not
are not listed in the
operator precedence table.
Arithmetic Expressions
YSQL supports the following binary arithmetic operators: add (+
), subtract (’-’),
multiple (*
), division (/
), and modulo (%
).
It also supports the unary arithmetic operators -
and +
.
String Concatenation
The SQL-style string concatenation operator, ||
, is supported.
Relational Expressions
YSQL supports most of the common SQL-style relational operators:
=
(equal)!=
or<>
(not equal)<=
<
>
>=
between ... and
in (value...)
like
andnot like
is
oris not
The like
operator does support two forms of patterns:
- SQL-style patterns with meta-characters like
%
(matching zero or more arbitrary characters) and_
(matching one arbitrary character). The meta-characters can be escaped by a backslash (/
) to mean the%
and_
characters themselves. - A regex literal like
/.../
andrx{...}
.
Additionally YSQL supports the following string matching operators to test if the RHS string is a prefix, substring, or suffix in the LHS string, respectively:
prefix
contains
suffix
Logical Expressions
The following SQL-style logical operators are supported:
- binary
and
- binary
or
- unary
not
Subqueries
Subqueries are currently not supported by YSQL though the YSQL compiler can parse them just fine.
Select Query Statement
This statement contains a single select
query with one or more of the following
clauses. Note that the select
clause is always required.
Select Clause
The SQL-style select clause is supported. Below are some examples:
select 3 + 2;
select 3 > 2;
select 'hello' || 'world';
Relational expressions, arithmetic expressions, and string concatenation expressions
can all appear in the select
list. Logical expressions are not allowed here,
however.
Each selected value can take an optional alias right after the value expression, just as in standard SQL, as in
select 3 > 2 res;
select 3 > 2 as res;
The user can also use asterisk (*
) to mean all the columns in the table or
tables appeared in the from
clause, as in
select *
from ngx.reqs;
Aggregate functions like sum()
, avg()
, min()
, max()
, and count()
can
also be used in the selected value expressions, as in
select count(*), sum(latency_s)
from ngx.reqs;
From Clause
The from
clause is also similar to the standard SQL language. One can
specify a single table, as in
select uri
from ngx.reqs;
or multiple tables joined together, as in
select user_bt, count(user_bt) cnt
from cpu.profile inner join proc
group by user_bt
order by count(user_bt) desc
limit 1000
Currently YSQL only supports left join
and inner join
. Other join types
are not supported (though they may be parsed fine).
Where Clause
The where
clause is the same as in the standard SQL language. One can specify
a logical expression as a search condition here. Below is an example:
select count(*)
from ngx.reqs
where uri prefix '/css/';
Group By Clause
The group by
clause is similar to the standard SQL language, as in
select count(*) as cnt, host
from ngx.reqs
group by host
order by cnt desc
limit 10;
Having Clause
The having
clause is similar to the standard SQL language. Unlike the
where
clause, the search condition in the having
clause can use
aggregate functions like count()
and sum()
. Below is an example:
select max(latency_s), host
from ngx.reqs
group by host
having max(latency_s) > 0.5
It is also possible to reference an alias in the select list, as in
select max(latency_s) max, host
from ngx.reqs
group by host
having max > 0.5;
Order By Clause
The order by
clause is similar to the standard SQL language. YSQL currently
has some limitations though:
- Only one column is allowed in the
order by
clause. - The
order by
column can only be a column name or acount()
aggregate function.
Below is an example:
select count(*), host
from ngx.reqs
group by host
order by count(*) desc;
It is also possible to reference the selected value expression’s alias (if any)
in the order by
clause, as in
select count(*) cnt, host
from ngx.reqs
group by host
order by cnt desc;
Limit Clause
The limit
clause is similar to the standard SQL language. Below is an example:
select *
from ngx.reqs
limit 10;
Offset Clause
The offset
clause syntax is similar to the PL/SQL language provided by
PostgreSQL. Below is an example:
select *
from ngx.reqs
offset 1
limit 10;
This will skip the first row and only output the 2nd through the 10th rows.
Builtin Tables
Below is a detailed list of the built-in tables currently supported by the YSQL compiler. We are adding new tables and new columns quickly.
cpu.profile
This table represent CPU profiling. It can only used as the first table in the
from
clause. It does not have any columns. It is usually joined with other
tables like ngx.reqs
and etc.
ngx.reqs
This table is used to inspect nginx (main) requests. Nginx sub-requests are excluded here.
It has the following columns:
args
The URI query-string of the HTTP request.
host
The host name of the HTTP request.
latency_ms
An integer number indicating the request latency in milliseconds, like
120
.latency_s
A floating-point number indicating the request latency in seconds, like
0.32
.rewrite_phase_latency_s
A floating-point number indicating the rewrite phase latency in seconds, like
0.32
.rewrite_phase_latency_ms
A floating-point number indicating the rewrite phase latency in milliseconds, like
0.32
.access_phase_latency_s
A floating-point number indicating the access phase latency in seconds, like
0.32
.access_phase_latency_ms
A floating-point number indicating the access phase latency in milliseconds, like
0.32
.content_phase_latency_s
A floating-point number indicating the content phase latency in seconds, like
0.32
.content_phase_latency_ms
A floating-point number indicating the content phase latency in milliseconds, like
0.32
.req_header_latency_s
A floating-point number indicating the latency in receiving the HTTP request headers in seconds, like
0.32
.req_header_latency_ms
A floating-point number indicating the latency in receiving the HTTP request headers in milliseconds, like
0.32
.req_body_latency_s
(todo)A floating-point number indicating the latency in receiving the HTTP request body in seconds, like
0.32
.req_body_latency_ms
(todo)A floating-point number indicating the latency in receiving the HTTP request body in milliseconds, like
0.32
.keepalive
A boolean value indicating whether the current request enables HTTP keep-alive for the current TCP connection.
method
The method string of the HTTP request.
scheme
The scheme string like
http
andhttps
of the current HTTP request.uri
HTTP request URI (excluding any query-string).
raw_uri
HTTP raw request URI (include query-string).
client_ip
String. IP address (IPv4 or IPv6 or unix socket file path).
req_body_size
Integer. The request body size in bytes.
req_size
Integer. The whole request size (including header and body) in bytes.
resp_size
Integer. The whole response size (including header and body) in bytes (if compression is involved, it is the compressed size).
resp_body_size
Integer. The response body size in bytes.
server_port
Integer. The server port the current request is accessing.
status
Integer. The HTTP response status code (like 502 and 200) or the internal nginx error code if no meaningful HTTP status code is available.
is_ssl
Boolean. Whether the current request uses SSL or TLS.
tls_ver
Number. The TLS protocol version number like 1.2 and 1.3.
ssl_ver
Number. The SSL protocol version number like 2 and 3.
resp_is_chunked
Boolean. Whether the response body uses the chunked encoding.
req_is_chunked
Boolean. Whether the request body uses the chunked encoding.
http_ver
Number. The HTTP protocol version (0.9, 1.0, 1.1, 2.0).
is_websocket
Boolean. Whether the current request has upgraded to the WebSocket protocol.
resp_is_compressed
Boolean. Whether the current request’s response body is compressed (by gzip or other encodings).
resp_gzip_level
Integer. The gzip compression level actually used by the response body` (only meaningful when the current response is actually compressed).
mime_type
String. Should be values like application/javascript. Any trailing parameters like ; charset=utf-8 should be excluded.
uses_lua
Boolean. Whether the current request uses any Lua code handlers in any of the request processing phases (like log_by_lua, rewrite_by_lua, and etc).
for_static_file
Boolean. Whether the current request uses the static file module to serve static files on the current machine’s file system.
has_upstream
Boolean. Whether the current request uses a proxy (i.e., using the nginx upstream module).
access_log_buf_size
Integer. The access log buffer size in bytes for the current request.
uses_error_page
Boolean. Whether the current request serves an error page.
uri_changes
Integer. The number of URI changes done in the request processing phases (corresponding to r->uri_changes).
uri_changed
Boolean. Whether the current request’s URI has ever changed by the request processing phases (corresponding to r->uri_changed).
is_pipelined
Boolean. Whether the current request is a pipelined request (i.e., r->pipeline on the C land).
resp_header_only
Boolean. Whether the current response has a header only (r->header_only).
location
String. The nginx location name last serving the current request.
user_agent
String. The User-Agent string.
conn_is_reused
Boolean. Whether the current request reuses a connection created by an earlier request.
req_pool_size
Integer. The current request’s nginx memory pool size in bytes.
conn_pool_size
Integer. The current connection’s nginx memory pool size in bytes.
proc
This table is used to inspect a running operating system process.
It has the following columns:
user_bt
Userland backtrace, usually for C/C++/Rust programs.
kern_bt
Kernel-space backtrace.
res_mem
Integer. Resident memory size in bytes.
virt_mem
Integer. Virtual memory size in bytes.
shr_mem
Integer. Shared memory size in bytes.
txt_mem
Integer. Text memory size in bytes.
page_size
Integer. Page size in bytes.
data_size
Integer. Program data size in bytes (data + stack)
pid
Integer. Process ID.
pgid
Integer. Process group ID.
ppid
Integer. Parent process ID.
exec_name
String. Executable name of the target process (mapped to execname() in stap).
pexec_name
String. Executable name of the parent process of the target process (mapped to pexecname() in stap).
cpu_id
Integer. The CPU ID for the CPU where the target process is current running on.
luajit.vm
This table is used to inspect luajit vm.
It has the following columns:
lua_bt
The Lua function-level backtrace
lua_line_bt
The Lua line-level backtrace
vm_state
Should return integer values for the LuaJIT VM state constants.
gc_count
The size output of lj-gc.y tool, in bytes.
is_gc64
Boolean type, for GC64 mode.
jit_maxtrace
The value for the LuaJIT JIT option maxtrace
jit_hotloop
The value of the LuaJIT JIT option hotloop
jit_maxmcode
The value of the LuaJIT JIT option maxmcode
jit_sizemcode
The value of the LuaJIT JIT option sizemcode
jit_maxside
The value of the LuaJIT JIT option maxsize.
jit_maxsnap
The value of the LuaJIT JIT option maxsnap.
jit_minstitch
The value of the LuaJIT JIT option minstitch
vfs.reads
This table is used to inspect vfs read activity.
It has the following columns:
data_size
Integer. The data size read from the VFS in bytes.
file_path
String. The file path from which we are reading data.
latency_s
Number. Latency of the current VFS read operation in seconds. Nanosecond precision. Decimal part allowed.
latency_ms
Number. Latency of the current VFS read operation in seconds. Nanosecond precision. Decimal part allowed.
vfs.writes
This table is used to inspect vfs write activity.
It has the following columns:
data_size
Integer. The data size written to the VFS in bytes.
file_path
String. The file path to which we are writing data.
latency_s
Number. Latency of the current VFS write operation in seconds. Nanosecond precision. Decimal part allowed.
latency_ms
Number. Latency of the current VFS write operation in seconds. Nanosecond precision. Decimal part allowed.
Author
Yichun Zhang <yichun@openresty.com>, OpenResty Inc.
Copyright & License
Copyright (C) 2020-2021 by OpenResty Inc. All rights reserved.
This document is proprietary and contains confidential information. Redistribution of this document without written permission from the copyright holders is prohibited at all times.