SQL Server MCP: The Bridge Between Your Database and AI

AI is inside your SQL Server now. I don't mean that it's knocking or that it's on the horizon. It is already there. Microsoft calls it SQL MCP Server — their open-source solution for bringing AI agents directly into your data workflows. If you haven't heard of MCP yet, keep reading. If you've got developers in-house, there's a reasonable chance that it's already running in your environment and you should know about it.

What Is MCP

MCP stands for Model Context Protocol. Anthropic introduced it in late 2024 as an open standard for connecting AI agents to external tools and data sources. Think of it as an open-source USBC port for AI where the goal is standardization. Meant to solve the problem where every AI model needs its own connector by creating a standard interface for AI data integration.

Microsoft shipped SQL MCP Server as part of Data API Builder (DAB) version 1.7. When configured, the agent calls a defined, typed tool and the server executes a controlled operation against the entities you've explicitly configured, such as read_records, create_record, update_record and delete_record. No raw query generation. No credentials handed to a chatbot.

By plugging your SQL Server into an MCP port, the AI stops guessing what your data looks like and starts interacting with it in real-time. Yes. I said real-time. The MCP turns your AI from a chatbot that's just talking into a virtual DBA that actually works across your live data. It’s like giving AI its own connection string and a read-only — or write-ready — seat at the table.

That Agent configuration is key. You define what is exposed and you set the permissions. This gives AI a controlled surface rather than just a wide open door.

A Good Example

Your client's helpdesk team spends twenty minutes every day copying order status details from SSMS into emails. You set up the SQL MCP Server, expose the Orders and Customers views with read-only permissions for the helpdesk role, and connect it to GitHub Copilot. Now the helpdesk user types: 'Show me all open orders for Acme Corp placed in the last 30 days' — and receives a formatted result in seconds, without touching SSMS or knowing a line of T-SQL, and without having access to anything outside those two views. You've built a controlled and very manageable bridge between AI and your data layer that can be used with natural language to query data and output the desired resultset.

A Dangerous Example

A developer on your team is testing an AI coding agent. They want to be able to query the database while developing, so they point it at SQL Server using their account which is an administrator, and they expose all tables 'just to keep it simple'. This MCP setup using an over-privileged account inherits classic SQL-injection risks, which can escalate into full data destruction or exfiltration.

This isn't a hypothetical pattern. In July 2025, researchers at General Analysis documented a real attack scenario involving Supabase's MCP implementation. A developer was using Cursor — an AI coding agent — connected to their Supabase database via MCP with a privileged service_role key, which bypassed all row-level security by design. An attacker filed a support ticket containing hidden instructions embedded in the ticket text. When the developer asked the agent to review the latest open tickets, the agent read the attacker's message and interpreted the embedded instructions as commands — querying the private integration_tokens table and writing the contents back into the support ticket thread. The attacker refreshed the ticket and read their targets' credentials in plain text. The database executed every query correctly. It had no way to know the request came from a compromised agent rather than an authorized service. Too much access + Untrusted input = Accident waiting to happen.

What's Already Out There

Erik Darling's free SQL Server Performance Monitor shipped in February 2026 with a built-in MCP server. Enable it in settings, connect any MCP-compatible AI client, and ask natural language questions about CPU, waits, blocking, and query performance against your own collected monitoring data. Erik uses Claude, but the MCP server works with any LLM that supports the protocol. This is the lowest-risk, highest-value starting point for any DBA curious about what MCP actually feels like in practice.

Google launched managed MCP servers for Cloud SQL — including SQL Server — in early 2026. Microsoft has its own path through DAB. Both major cloud vendors are shipping this in production. It is not a preview feature anymore.

What You Need to Think About

Scope the permissions like your job depends on it.

Because it might. Microsoft's own security guidance on MCP flags over-permissioned servers as a primary risk. An MCP server should have access scoped exactly to what the agent needs. Nothing more. Specific entities, read-only wherever possible, a dedicated low-privilege login. Not a sysadmin. Not a service account recycled from something else. A purpose-built login with the minimum access to do the job.

Untrusted data in, bad instructions out.

If your AI agent reads from a table that users can write to, an attacker writing to that table could potentially influence what the agent does next. This is called Prompt Injection, and is ranked as the number one security risk for LLM applications by OWASP. This is an architectural vulnerability which allows attackers to bypass AI safety guardrails. Keep AI agents away from data sources that mix trusted operations with untrusted user input.

Find out what's already running.

MCP is easy to set up. That's a feature and a risk. Before implementing, you should audit what your developers are already running. A developer who found a GitHub repo with an MSSQL MCP server config and a five-minute setup guide may already have something pointed at a dev database — which have production data in them more often than people admit.

Know where the data goes.

When your AI tool processes a query result, that result travels to wherever the model is running. If you're using a cloud-hosted LLM like Anthropic, OpenAI or Google, your query results are leaving your network. For monitoring or diagnostics data, this is probably acceptable. For customer data, financial records, or anything regulated, your legal team will have opinions about this.

So, Should You Set It Up?

For monitoring and diagnostics, yes. Erik Darling's Performance Monitor is the right first step — self-contained, read-only against monitoring data, nothing leaves your network. Low risk. Immediately useful. A good way to see what AI + SQL Server MCP actually feels like before committing to anything bigger.

For exposing production application data to AI agents, we must treat it like any other integration project: defined scope, purpose-built service account, explicit entity configuration, and a conversation with whoever manages your security. The technology is ready. The governance discussion in most shops hasn't been held yet.

More to Read:

SQL MCP Server Overview — Microsoft Learn
Free SQL Server Performance Monitoring — Erik Darling
Understanding and Mitigating Security Risks in MCP Implementations — Microsoft Community Hub
Managed MCP Servers for Google Cloud Databases — Google Cloud Blog

SSIS Is Not Dead. Yet.

SSRS is gone. SQL Server 2025 shipped without it — the first version to drop SSRS entirely, with Power BI Report Server (PBIRS) as the named replacement. But what about SSIS?

There is no EOL yet, but the signals are clear. SSIS is being phased out in favor of Microsoft Fabric, which is positioned as the next-generation unified analytics platform. Look at that. They don't even call it 'ETL' anymore. Again, it's not gone yet, but Microsoft is encouraging the modernization of ETL workloads to Fabric to address the limitations of on-premise SSIS infrastructure, such as limited scalability and high maintenance overhead.

We've been here before. DTS became SSIS with SQL Server 2005 — Yukon, for those of us who were there. I was. [Thank you, Donald Farmer!] The transition wasn't a cliff either. It was deprecation notices, a long runway, and then one day DTS was just gone. The difference this time is that the runway leads to the cloud.

SSIS 2025 Shipped. Read the Fine Print.

SSIS 2025 is generally available, bundled with SQL Server 2025. Microsoft announced it at Ignite in November 2025 within the Microsoft Fabric Blog, not the SQL Server blog. That's not an accident.

Here's what shipped with SSIS 2025 — the full picture, not just the press release version.

The one new feature:

The ADO.NET connection manager now supports the Microsoft SqlClient Data Provider, with Microsoft Entra ID authentication and TLS 1.3 support. That's it. One new feature in the entire release.

What's deprecated:

Legacy Integration Services Service — the service that lets SSMS monitor packages stored in the SSIS Package Store or msdb. Not a big deal if you've migrated to the SSIS Catalog (SSISDB), but if you're still on the package deployment model, this will matter.

32-bit execution mode. SSMS 21 and SSIS Projects 2022 are 64-bit only going forward. If you have custom or third-party components that are 32-bit only, they break.

SqlClient Data Provider (SDS) connection type. The recommendation is to migrate to the ADO.NET connection type.

What's been removed entirely:

CDC components by Attunity and CDC service for Oracle by Attunity — gone. If you're using these for change data capture from Oracle, you need a replacement. Now.

Microsoft Connector for Oracle — also gone. Support ended July 2025. Not available in SQL Server 2025 onward.

Hadoop components — Hadoop Hive Task, Hadoop Pig Task, Hadoop File System Task — removed.

The breaking change nobody talks about:

The Microsoft.SqlServer.Management.IntegrationServices assembly now depends on Microsoft.Data.SqlClient instead of System.Data.SqlClient. If you have PowerShell scripts, C# automation, or deployment tooling that instantiates the IntegrationServices object, those scripts will break without updates. This one is quiet, easy to miss, and will bite you during your first post-upgrade deployment.

Where Microsoft Is Pointing

The official migration path is Microsoft Fabric Data Factory. SSIS lift-and-shift in Fabric is currently in private preview. That is the ability to run existing SSIS packages inside a Fabric workspace without rewriting them. Microsoft's framing is 'bridge, not cliff,' and that's fair. But a bridge going one direction is still a one-way bridge.

For what it's worth, SQL Server 2022 extended support runs to January 11, 2033, and SSIS goes with it. But that's seven years, not forever, and migrations of complex SSIS estates take longer than people expect.

What You Should Actually Do Right Now

Nobody is forcing you off SSIS today, but here's what's worth doing now, before anything becomes urgent:

Know what you have.

Inventory your SSIS packages. How many are there? Where are they deployed — SSIS Catalog, msdb, file system? Which ones use Oracle connectors, CDC components, or 32-bit custom components? If you can't answer those questions, you can't plan.

Check your automation scripts.

If anything in your environment uses Microsoft.SqlServer.Management.IntegrationServices — PowerShell deployment scripts, CI/CD pipelines, custom monitoring — verify it's referencing Microsoft.Data.SqlClient before you upgrade to SQL Server 2025. This is the most likely silent failure on upgrade day.

Identify your Oracle-dependent packages.

The Microsoft Connector for Oracle is gone in SSIS 2025. If you're upgrading SQL Server and you have packages using that connector, they will not work. Third-party alternatives exist — ADO.NET components, KingswaySoft, and others — but you need to know which packages are affected before upgrade day, not after.

Don't migrate to Fabric yet just because Microsoft says to.

Fabric Data Factory is a genuinely different product. It's cloud-native, SaaS, and not a drop-in replacement for on-premises SSIS. The lift-and-shift option in private preview is promising, but it's still preview. For production ETL workloads, 'let's move to Fabric' is a project, not a setting. Treat it that way.

So, Is SSIS Next?

Brent Ozar asked this question in June 2025. The community answered the SSRS half loudly. The SSIS half got quiet. Here's my answer.

No EOL date has been announced. SSIS 2025 shipped, which means Microsoft is still investing in it — just barely, and clearly with both eyes on Fabric. The trajectory is obvious even if the timeline isn't. SSRS got a clean announcement and a named replacement. SSIS is getting a slower walk toward the exit, with a Fabric-shaped door at the end of the hallway.

I think Brent put it well in his comments: without a fully on-premises replacement for SSIS, Microsoft can't make a clean announcement the way they did with SSRS. The closest thing on-premise shops have is a self-hosted integration runtime — but the control still depends on the cloud.

For now: don't panic, do inventory, review your automation scripts, and watch what happens with SSIS lift-and-shift in Fabric once it goes GA. That's when the real Fabric migration conversation starts. Let me know how I can help.

More to Read:

What's New in Integration Services in SQL Server 2025 — Microsoft Learn
The Evolution of SSIS: SSIS 2025 Generally Available — Microsoft Fabric Blog
SSIS Microsoft Connector for Oracle Deprecation — Microsoft SQL Server Blog
SQL Server 2022 Lifecycle — Microsoft Learn

SQL Server 2025 Slowed Down Your Logins. Intentionally.

You upgraded to SQL Server 2025. Your SQL auth logins are slower. This is not a bug. Microsoft did this on purpose — which is actually good news, but if you're not using connection pooling, it's not going to feel very good.

What Changed

Prior to SQL Server 2025, SQL login passwords were hashed using SHA-512 with a random salt — one pass. Fast to verify, which is exactly what attackers love.

SQL Server 2025 switches to PBKDF2 (RFC 2898) as the default hashing algorithm. Same SHA-512 underneath, but now the password is hashed 100,000 times in a loop. This is the standard recommended by NIST SP 800-63B for password-based authentication, and Microsoft confirms it in their SQL Server 2025 security overview.

You can see the difference in the hash itself. Run this on both versions:

SELECT PWDENCRYPT('MyPassword123');

Pre-2025 hashes start with 0x0200. SQL Server 2025 hashes start with 0x0300. That version byte tells you what you've got. Same function. Completely different work going on behind the scenes.

How to Measure the Impact

The key here is to pre-generate the hash first, then time only the verification step to mimic what's actually happening at login.

-- Step 1: pre-generate the hash (not timed)
DECLARE @hash VARBINARY(256) = PWDENCRYPT('MyPassword123');

-- Step 2: time only the verification
DECLARE @start DATETIME2 = SYSDATETIME();

SELECT PWDCOMPARE('MyPassword123', @hash) AS PasswordMatch;

SELECT DATEDIFF(MILLISECOND, @start, SYSDATETIME()) AS ElapsedMs;

No special permissions required — any login that can connect and run a basic SELECT can run this. And the password you pass in is just a string; it has nothing to do with your own login or any existing account on the instance.

Run it on SQL Server 2022 first, then 2025. The difference is immediate. On 2022, you'll see 0ms — single-pass SHA-512 is too fast for millisecond precision to capture. On 2025, the result is hardware-dependent. PBKDF2 is intentionally single-threaded and CPU-bound, so your number will reflect your server's single-core performance. VladDBA measured approximately 150ms on his test environment. On my 2025 instance, I got 229ms. Your number will be your number — run it and find out.

Version	Algorithm	Iterations	ElapsedMs (sample)
SQL Server 2012–2022	SHA-512 + salt	1	0ms
SQL Server 2025 (VladDBA)	PBKDF2 / SHA-512	100,000	~150ms
SQL Server 2025 (sqlfingers)	PBKDF2 / SHA-512	100,000	~229ms

But Here's the Other Side

That overhead isn't Microsoft being careless. It's intentional friction — and it hits attackers far harder than it hits your app.

VladDBA ran the numbers on password brute-forcing. On SQL Server 2022, a password audit script cracked a set of hashes in about 45 seconds. On SQL Server 2025 with PBKDF2, the same workload is estimated at 154,008 seconds — roughly 42 hours. Same hardware, same wordlist. The only difference is the hash algorithm. That is not a small point.

Microsoft acknowledges the login latency tradeoff directly on the SQL Server 2025 Known Issues page. They call it out, they're not hiding it.

What You Should Do

Check whether your applications are using connection pooling. If they are, the per-login overhead happens once per pool connection establishment, not on every request — and you're probably going to be fine. If they're not pooling, or if you're running scripts, jobs, or monitoring tools that open a fresh SQL auth connection on every execution, this IS going to surface. Without question.

Existing logins migrate automatically on first successful authentication.

SQL logins created before the upgrade retain their 0x0200 hash until they authenticate for the first time against the upgraded instance. At that point, SQL Server silently rehashes the password under PBKDF2 and stores the new 0x0300 hash going forward. This works because authentication is the only moment SQL Server has access to the plaintext password. Any login that never authenticates post-upgrade will retain its old hash indefinitely. If you want to confirm which logins are still on the old algorithm, check the hash header in sys.sql_logins:

SELECT name,
       CONVERT(VARBINARY(2), password_hash) AS HashVersion
FROM   sys.sql_logins
WHERE  type = 'S'
AND    password_hash IS NOT NULL;

0x0200 = old. 0x0300 = PBKDF2. Simple as that.

Kerberos and Windows auth are unaffected.

This only applies to SQL authentication. If your environment uses Windows auth or Kerberos throughout, none of this touches you.

There's an undocumented trace flag.

Community discussion on Microsoft Learn surfaced startup parameter -T4671 as a way to revert to pre-2025 hashing behavior. Note that TF 4671 reversed meaning between versions — in SQL Server 2022 it enabled iterative hashing; in 2025 it appears to disable it. This is undocumented and unsupported. I'm mentioning it because you'll see it discussed, not because I'm recommending it.

More to Read:

SQL Server 2025 Known Issues — Microsoft Learn
Secure by Default: What's New in SQL Server 2025 Security — Microsoft Community Hub
Looking into SQL Server 2025's new PBKDF2 hashing algorithm — VladDBA
NIST SP 800-63B Digital Identity Guidelines

Patch Tuesday: Your sysadmin Role Was Up for Grabs

Yesterday was Patch Tuesday, and this month we've got a good one. CVE-2026-21262 was already publicly disclosed before Microsoft shipped the fix - and it lets an authenticated SQL Server user escalate straight to sysadmin. SQL Server 2016 through 2025, Windows and Linux. No physical access required. No user interaction required. Just a valid login and a network path to your instance. Go patch!

If you're a SQL Server DBA or consultant and you're reading this before patching, stop reading and go patch.

What's the Vulnerability?

CVE-2026-21262 is an elevation of privilege flaw rooted in improper access control (CWE-284) within SQL Server. CVSS score: 8.8 (High). The attack vector is network-based, complexity is low, and it requires only low-level privileges to initiate. No user interaction needed.

Translation: someone with a regular SQL login can walk out as sysadmin. Sysadmin owns the instance. That's your data, your jobs, your linked servers, your service accounts, your everything.

The vulnerability was publicly disclosed before patches shipped. That means the clock started ticking before Microsoft's fix was even available. Exploitation hasn't been confirmed in the wild as of this writing, but 'publicly disclosed' is not a reason to relax — it's a reason to focus.

Two additional elevation of privilege CVEs rode in on the same Patch Tuesday: CVE-2026-26115 and CVE-2026-26116. All three are addressed by the same security updates.

Who's Affected?

Every currently supported SQL Server version — Windows and Linux both. Here's your patch reference:

Version	Track	KB	Build
SQL Server 2016 SP3	GDR	KB5077474	13.0.6480.4
SQL Server 2017	GDR	KB5077472	14.0.2100.4
SQL Server 2017	CU31	KB5077471	14.0.3520.4
SQL Server 2019	GDR	KB5077470	15.0.2160.4
SQL Server 2022	GDR	KB5077465	16.0.1170.5
SQL Server 2025	GDR	KB5077468	17.0.1105.2
SQL Server 2025	CU2	KB5077466	17.0.4020.2

Not sure which track you're on? Run this:

SELECT
    SERVERPROPERTY('ProductVersion')  AS ProductVersion,
    SERVERPROPERTY('ProductLevel')    AS ProductLevel,
    SERVERPROPERTY('ProductUpdateLevel') AS CULevel,
    SERVERPROPERTY('Edition')         AS Edition;

If your build number is below the target for your version, you need the patch. Match your current build to the table above to confirm which KB applies. GDR track gets the GDR KB; CU track gets the CU KB.

What Else Is in These Updates?

Beyond the CVE fix, the March security updates include a couple of hardening changes worth knowing about. One blocks the ALTER USER operation when the target login is the system Administrator account. Another fixes an elevation of privilege issue in the version upgrade process for merge replication. SQL Server 2025 also gets removal of an internal system stored procedure that carried a potential SQL injection risk — separate from CVE-2026-21262, but cleaned up in the same package.

While You're At It

Patching fixes the vulnerability. It doesn't fix whatever may have already happened. After you apply the update, it's worth a quick sanity check on your SQL logins and role memberships:

-- Who's sysadmin right now?
SELECT
    l.name,
    l.type_desc,
    l.is_disabled,
    l.create_date,
    l.modify_date
FROM sys.server_principals l INNER JOIN sys.server_role_members rm 
  ON l.principal_id = rm.member_principal_id INNER JOIN sys.server_principals r 
    ON rm.role_principal_id = r.principal_id
WHERE r.name = 'sysadmin'
ORDER BY l.name;

If anything in that list surprises you, you should investigate before you assume it's fine.

References

CVE-2026-21262 - Microsoft Security Response Center
KB5077474 - SQL Server 2016 SP3 GDR
KB5077472 - SQL Server 2017 GDR
KB5077471 - SQL Server 2017 CU31
KB5077470 - SQL Server 2019 GDR
KB5077465 - SQL Server 2022 GDR
KB5077468 - SQL Server 2025 GDR
KB5077466 - SQL Server 2025 CU2

Before You Paste That Execution Plan Into ChatGPT…

AI in Your Browser, Data on Your Server: What Could Go Wrong? A lot, it turns out. And some of it already has.

I received a newsletter today about a Chrome vulnerability involving Gemini. I clicked it, read it, and read again — because the Gemini story was just the headline. Underneath was a pattern every SQL Server shop should understand now, before it becomes a post-incident RCA.

The Gemini Story (Start Here)

In January 2026, Google quietly patched a high-severity Chrome vulnerability — CVE-2026-0628 — affecting Chrome's 'Live in Chrome' panel, which runs Gemini as a privileged browser component, not a regular tab. That distinction matters. The panel has elevated access to local files, screenshots, camera, and microphone. Those are features Gemini needs to do its job. They're also exactly what a hacker is looking for.

Researchers at Palo Alto Networks Unit 42 found that a Chrome extension with only basic permissions could inject JavaScript into that panel and inherit all of those elevated privileges. Camera on. Mic on. Local files open. The trigger wasn't a suspicious download or a phishing form — just opening the Gemini panel was enough.

The technical root cause: when gemini.google.com/app loads in a regular tab, extensions can interact with it but gain nothing special. When the same URL loads inside the Gemini browser panel, Chrome hooks it with browser-level capabilities. This was the exploit, and it's been named GlicJack (short for Gemini Live in Chrome hijack).

Google patched it in Chrome 143.0.7499.192/193. If you're on a current version, you're fine. If your org is on a managed Chrome deployment with slow update cycles, check now.

That's Gemini. Now Let's Talk Copilot.

If your shop runs Microsoft 365 — and many do — you have more to read.

Reprompt (CVE-2025-64671): Discovered in January 2026, this one let an attacker hijack a Microsoft Copilot Personal session with a single phishing link. The malicious prompt was embedded in a URL parameter. Nothing else needed. Copilot's automatic execution did the rest. The attacker's session persisted, forming a covert channel for data exfiltration.

Covert exfiltration. The name is Bond, ma'am. 😆

Patched on January 2026 Patch Tuesday. Source: Ars Technica — A single click mounted a covert, multistage attack against Copilot

EchoLeak (CVE-2025-32711): This one's ugly. A zero-click vulnerability in Microsoft 365 Copilot. An attacker sent a crafted email. Copilot read it, got injected, accessed internal files, and exfiltrated data — all from the user just having Copilot open. It bypassed Microsoft's own prompt injection classifiers and link redaction, and they issued emergency patches. The First Real-World Zero-Click Prompt Injection Exploit in a Production LLM System

Copilot Studio prompt injection: Tenable AI Research demonstrated that an agent built in Microsoft's no-code Copilot Studio can be manipulated with a plain-text prompt into returning multiple customer records or executing unauthorized transactions. No exploit kit. No elevated permissions. Just a carefully worded request. Details: tenable.com — Copilot Studio Security: 3 Risks CISOs Must Address Now

So What Does This Have to Do With SQL Server?

An awful lot.

Think about what's on your clipboard when you're working a problem and decide to ask ChatGPT or Copilot for help: execution plans, stored procedure logic, object names, row counts, even connection strings. According to the LayerX Enterprise AI & SaaS Data Security Report 2025, 77% of employees paste data into GenAI prompts — and 40% of file uploads include sensitive personal or financial data.

That's not a theoretical risk. That's just a Tuesday.

Now layer on the vulnerabilities above. If a malicious extension is running in Chrome while the Gemini panel is open — or if Copilot has been fed a crafted prompt through an email — the AI assistant that's 'helping' you tune a query may also be reading local files or operating inside a hijacked session. Even the data you didn't paste can still be exposed through what the AI can see.

The Structural Problem

GlicJack, Reprompt, and EchoLeak aren't random bugs. They're symptoms of the same design tension: AI assistants need broad access to be useful, and broad access is exactly what attackers are looking for.

OWASP ranked indirect prompt injection — the technique behind EchoLeak and Reprompt — as the #1 threat to LLM applications in 2025. The attack surface keeps growing from there.

Copilot in SSMS. Copilot in Azure Data Studio. AI-assisted query generation in SQL Server 2025. These tools are legitimately useful. They're also new vectors.

What To Do Right Now

1. Update Chrome. CVE-2026-0628 is patched in current versions. If your org manages Chrome centrally, verify the rollout.

2. Audit your Chrome extensions. The Gemini exploit required only basic extension permissions. Remove anything you can't identify and actively justify.

3. Know what Copilot can reach. Microsoft 365 Copilot inherits the permissions of the user running it. Over-permissioned accounts mean over-permissioned AI. Know what it can reach before it gets there.

4. Treat AI input like a query parameter. Anything you paste into an AI tool is potentially logged, stored, or exposed. Scrub identifiable schema details and connection information before handing a problem to an AI assistant — the same instinct you'd apply before posting to a public forum.

5. Watch the Copilot Studio sprawl. If business teams are building agents on top of your SQL Server data, find out. Agents built without IT oversight inherit whatever permissions their creator has and are prompt-injectable by default. Very. Big. Exposure.

Bottom Line

The Gemini CVE is already patched. The habits that expose your SQL Server data may not be.

AI tools that touch your query environment are useful enough that people will use them regardless of policy. The job isn't to ban them. It's to understand the attack surface and manage it deliberately. These vulnerabilities aren't edge cases cooked up in a lab. They shipped in production, in tools your team is probably using right now.

Patch Chrome. Audit extensions. Know what Copilot can see. And maybe think twice before pasting that execution plan.

---

More to Read:

Unit 42 — GlicJack technical writeup
Malwarebytes — Chrome flaw, Gemini hijack
The Hacker News — Chrome vulnerability, Gemini panel
The Register — Chrome AI panel, privilege escalation
Bleeping Computer — Copilot prompt injection flaws

SQL Server 2025 CU2: What's Fixed, What Isn't.

SQL Server 2025 CU2 released on February 12, 2026. Build 17.0.4015.4, six fixes. I've been running 2025 since RTM, and have been watching things pretty closely — looking for fixes, what to flag for clients, and what's still sitting in the 'known issues' category, pending correction.

Here's the short version.

What's in it

Area	What was fixed
Backup / Restore	StripedVdi tests failing when Sqlvdi.dll wasn't registered on running instances
High Availability	AG properties for cluster_type = NONE or EXTERNAL weren't being written to all replicas — only the local one
Resource Governor	Potential inaccuracy in tempdb space accounting when Accelerated Database Recovery is enabled
Storage Management	Assertion and dump file generated around midnight on New Year's Day during Azure Blob Storage operations
Log Management	Nonyielding scheduler dumps in PmmLogAcceptBlock on the AG secondary replica when the persistent log buffer is enabled and the log cache contains primarily tiny log records
Replication	Distribution agent using the AG primary replica name instead of the AG listener name when the distributor is in an AG with case-sensitive collation

The AG properties fix is one I'd have clients look at first — silent misconfiguration on non-primary replicas could cause problems post failover. The tempdb accounting fix matters, too; if you have Accelerated Database Recovery enabled, your tempdb space numbers may have been lying to you.

What isn't in it

Last week I posted about a SESSION_CONTEXT parallel execution bug that's been a 'known issue' since January 2022 — from SQL Server 2019 to 2022, and now 2025. Wrong results. AV dumps. No error message to warn you. CU2 doesn't fix it. There is a workaround, but not without a performance hit.

Getting CU2

Available now from the Microsoft Download Center — no registration required. Be sure to test before you deploy.

More to Read:

KB5075211 — Cumulative Update 2 for SQL Server 2025
Download CU2 — Microsoft Download Center
SESSION_CONTEXT: Three Years, Two Bugs, One Workaround — sqlfingers.com

sp_BlitzCache + ChatGPT: I'm Convinced.

I've blogged five posts on sp_BlitzCache / AI integration. First, just introducing the functionality and then testing it out with various prompts. AI disagreed with the Optimizer on index key order and was right. AI diagnosed a deadlock from a single execution plan, it rewrote a cursored stored procedure that ran 36x faster — and it fabricated a remediation plan built entirely on lies. I believe each post has emphasized the same point: the quality of what AI produces is completely dependent on the data it receives. Today's post is less about testing than it is the real thing -- performance tuning.

One procedure. Two very real issues baked in together, the way they'd exist in the real world. No hints, no diagnosis handed to AI in advance. One sp_BlitzCache call, one focused prompt, and let's see what AI finds for us.

The Procedure

I built a test Orders database with two tables. dbo.SalesOrder holds 1,000,000 rows with a heavily skewed CustomerType distribution: 999,000 RETAIL and 1,000 VIP. dbo.Customer holds 500,000 rows. The two tables join on CustomerCode — but dbo.SalesOrder.CustomerCode is VARCHAR(20) and dbo.Customer.CustomerCode is NVARCHAR(20). Otherwise, just a normal procedure:

CREATE PROCEDURE dbo.usp_GetCustomerOrders
    @CustomerType VARCHAR(20)
AS
SET NOCOUNT ON;
SELECT
    o.SalesOrderID,
    o.CustomerType,
    o.OrderDate,
    o.OrderTotal,
    o.Status,
    c.FirstName,
    c.LastName,
    c.City
FROM dbo.SalesOrder o INNER JOIN dbo.Customer c
  ON o.CustomerCode = c.CustomerCode
WHERE o.CustomerType = @CustomerType
ORDER BY o.OrderDate DESC;

Two problems are hiding in there, and neither one announces itself.

Problem 1 — Parameter Sniffing. dbo.SalesOrder has 1,000,000 rows but the CustomerType distribution is wildly skewed: 999,000 rows are RETAIL and only 1,000 are VIP. When VIP runs first, SQL Server compiles and caches a plan optimized for 1,000 rows. When RETAIL runs next, it reuses that same cached plan — and pushes 999,000 rows through a plan that was never built to handle them.

Problem 2 — Implicit Conversion. The JOIN condition looks clean: ON o.CustomerCode = c.CustomerCode. But dbo.SalesOrder.CustomerCode is VARCHAR(20) and dbo.Customer.CustomerCode is NVARCHAR(20). SQL Server cannot evaluate that join without a conversion. Because NVARCHAR has higher data type precedence, it converts the SalesOrder column — on all 1,000,000 rows — before it can match a single one. The index on dbo.Customer.CustomerCode is there. SQL Server just cannot use it around the implicit conversion.

Neither problem is visible in the code. A developer reviewing this proc would see a standard join and a straightforward WHERE clause.

Setup Blitz_AI Config

I added a new personality to the Blitz_AI config table. No diagnosis or hint about what the problems were. I described symptoms, told AI to base every finding on evidence from the plan XML and metrics, and told it not to guess:

INSERT INTO DBA.dbo.Blitz_AI (
    Nickname, AI_Model, AI_URL, AI_Database_Scoped_Credential_Name, AI_System_Prompt_Override, Timeout_Seconds, DefaultModel)
VALUES (
    'performance review',
    'gpt-5-mini',
    'https://api.openai.com/v1/chat/completions',
    'https://api.openai.com/',
    'You are a senior SQL Server performance tuning specialist. A stored
     procedure has been reported as slow under certain conditions. No
     specific diagnosis has been provided. Analyze the execution plan XML
     and sp_BlitzCache performance metrics to identify all performance
     problems present. For each problem found: name it, cite the specific
     evidence from the execution plan or metrics that confirms it, explain
     why it causes poor performance, and provide the exact corrected code.
     Pay particular attention to: performance tuning, parameter sniffing, 
     implicit data type conversions, index usage, and memory grant accuracy. 
     Do not guess. Base every finding on evidence present in the plan XML 
     or the metrics provided. Show the complete corrected procedure code 
     with all fixes applied. Render your output in Markdown.',
    230,
    0);

Cache the Plan & Call sp_BlitzCache

Here I primed the cache using @CustomerType = 'VIP' first to lock in the bad plan, and let sp_BlitzCache and ChatGPT take it from there.

EXEC dbo.usp_GetCustomerOrders @CustomerType = 'VIP';

EXEC dbo.sp_BlitzCache
    @StoredProcName = 'usp_GetCustomerOrders',
    @AI = 1,
    @AIConfig = 'DBA.dbo.Blitz_AI',
    @AIModel = 'performance review';

SSMS Output

It ran for 00:01:52. The AI Advice column came back with four findings, and every one was tied to evidence from the plan XML.

What ChatGPT Found

The full AI Advice output is here, but this is a bullet list of its 4 findings:

• Finding 1: Parameter Sniffing

  ChatGPT went straight to the plan XML and read ParameterCompiledValue='VIP'. It cross-referenced that against the sp_BlitzCache metrics — estimated rows 867, actual rows ranging from 1,000 to 500,000 across four executions — and named the exact consequence: the optimizer chose a nested loop join sized for a small input, and 999,000 RETAIL rows ran through it. It recommended OPTION(RECOMPILE) at the statement level, explained why OPTIMIZE FOR and split procedures were less appropriate for this specific distribution, and showed the corrected procedure code.

• Finding 2: Implicit Conversion

  ChatGPT cited the exact expression from the plan XML:

  CONVERT_IMPLICIT(nvarchar(20),[Orders].[dbo].[SalesOrder].[CustomerCode],0)

  It identified dbo.SalesOrder.CustomerCode as VARCHAR(20) and dbo.Customer.CustomerCode as NVARCHAR(20), explained that NVARCHAR's higher data type precedence forces SQL Server to convert the SalesOrder column on every row, and called out that the conversion was happening on the larger table — 1,000,000 rows. The recommended fix was an ALTER TABLE to align the column types. It also offered a temporary workaround: cast the smaller table's column in the JOIN condition to reduce the per-row conversion cost while the schema change is scheduled. That's a very clever suggestion that can bandaid things until prod can be changed.

• Finding 3: Nested Loops — 999,000 Inner Executions

  This one ChatGPT derived as a consequence of the first two findings, and it was right to call it out separately. The plan XML showed the inner index seek on dbo.Customer executing 999,000 times — once per outer row from dbo.SalesOrder. That is the direct result of the optimizer choosing nested loops for what it thought was a small input. With accurate cardinality and matching types, the optimizer can evaluate a hash or merge join instead. AI connected all three findings explicitly in its reasoning — much faster than a junior DBA would have needed to do the same.

• Finding 4: Memory Grant Inaccuracy and 20,506 Spills

  The plan showed SerialDesiredMemory = 125,608 KB against GrantedMemory = 1,840 KB. The optimizer asked for 125MB, was handed less than 2MB, and sorted 500,000 rows with what it had. sp_BlitzCache reported 20,506 total spills across the execution. ChatGPT connected this directly to the cardinality misestimate from Finding 1 — the memory grant was sized for 867 rows, not half a million. Fix the sniffing, fix the grant. It also recommended a covering index on (CustomerType, OrderDate DESC) to eliminate the sort operator entirely. Nice.

The Fixed Procedure

ChatGPT delivered the corrected code in full — the procedure, the suggested data type change and the missing index:

CREATE OR ALTER PROCEDURE dbo.usp_GetCustomerOrders
    @CustomerType VARCHAR(20)
AS
BEGIN
    SET NOCOUNT ON;
    SELECT
        o.SalesOrderID,
        o.CustomerType,
        o.OrderDate,
        o.OrderTotal,
        o.Status,
        c.FirstName,
        c.LastName,
        c.City
    FROM dbo.SalesOrder AS o
    INNER JOIN dbo.Customer AS c
        ON o.CustomerCode = c.CustomerCode
    WHERE o.CustomerType = @CustomerType
    ORDER BY o.OrderDate DESC
    OPTION (RECOMPILE);   -- Prevents parameter sniffing; produces an execution-plan tailored for the actual @CustomerType
END

The schema-level fix aligns the column types to eliminate CONVERT_IMPLICIT entirely:

ALTER TABLE dbo.Customer
ALTER COLUMN CustomerCode VARCHAR(20);
GO

CREATE NONCLUSTERED INDEX IX_SalesOrder_CustomerType_OrderDate
    ON dbo.SalesOrder (CustomerType, OrderDate DESC)
    INCLUDE (SalesOrderID, CustomerCode, OrderTotal, Status);
GO

The end result: no sniffing, no implicit conversion, no nested loop explosion, no spills. The estimate now matches the actual. Very smooth.

The Point of This Entire Series

Six posts. One theme: sp_BlitzCache & ChatGPT.   I have shown you AI that outperformed the Optimizer, AI that diagnosed a deadlock from a plan it never read, AI that rewrote a cursored procedure into something 36x faster, and AI that built a completely fabricated remediation plan because I lied and it believed me. This post shows all of it working the way it should — no tricks, no traps, one real procedure with two very real problems — and genuinely useful results.

Ok, ok. Fine. I'll admit. I am not the same skeptic I was when I began this series. sp_BlitzCache calling ChatGPT found four distinct performance problems from a single execution plan, cited evidence from the plan XML by name, and delivered actionable fixes including exact DDL. Correctly. This is real value.

I want to be clear about what changed my mind, and what did not. AI did not replace anything here. It did not replace sp_BlitzCache, which independently flagged five findings before AI was ever called. It did not replace the DBA who built the focused prompt, understood the data distribution, and knew enough to recognize a correct recommendation from a wrong one. It also did not replace the judgment required to schedule the necessary change, test it, and deploy it safely. What it did was minimize the time needed to diagnose and performance tune the procedure. Substantially.

Brent built something seriously useful. As I've used it, I've learned again and again that you've got to write that prompt intelligently. Be precise. Use key points without rambling. Give it accurate context and verify everything it returns to you. The AI output will only ever be as good as the data prompt it receives.

Two very real problems identified with corrections in 00:01:52. Let me know if I can help you pull this together in your environment.

The Series:

sp_BlitzCache Can Talk to ChatGPT Now. Here's How.
sp_BlitzCache Can Talk to ChatGPT Now. Here's What It Said.
sp_BlitzCache Got ChatGPT's Advice On My Deadlock
sp_BlitzCache Changed My Proc to Set-Based with ChatGPT
I Lied to sp_BlitzCache. ChatGPT Believed Me.

More to Read:

Brent Ozar: Get ChatGPT's Advice On Your Queries with sp_BlitzCache

SQL Server 2025 Vector Indexes: Opt-In Preview Feature

Microsoft's entire marketing pitch for SQL Server 2025 is 'the AI-ready database.' It went GA on November 18, 2025. We are now four months in. Here is what is actually GA, what is still behind a preview flag, and what that means if you are evaluating this for production.

What Shipped as GA

Feature	What It Does
VECTOR data type	Stores embeddings as float32 arrays
VECTOR_DISTANCE	Calculates distance between two vectors (cosine, euclidean, dot product)
VECTOR_NORM	Returns the norm (magnitude) of a vector
VECTOR_NORMALIZE	Normalizes a vector to unit length
CREATE EXTERNAL MODEL	Registers an external AI model endpoint for use in T-SQL

This is real. You can store vectors, measure distance between them, and register AI model endpoints. These are fully supported in production.

But storing vectors and measuring distance is not AI-powered search. It is the plumbing for it. To actually search vectors at scale, you need what is still in preview.

What Is Still in Preview

All of the following require PREVIEW_FEATURES = ON at the database level:

ALTER DATABASE SCOPED CONFIGURATION SET PREVIEW_FEATURES = ON;

Feature	What It Does	Why It Matters
VECTOR_SEARCH	Approximate nearest neighbor search	The function that actually finds similar vectors fast
CREATE VECTOR INDEX	DiskANN-powered vector index	Without this, vector search does a full table scan
AI_GENERATE_EMBEDDINGS	Generates embeddings from text inside T-SQL	Eliminates external embedding pipelines
AI_GENERATE_CHUNKS	Splits text into chunks for embedding	Required for RAG patterns
Half-precision vectors	16-bit vector storage	Cuts storage in half for large embedding sets

These are the features that make 'AI-ready' actually ready. And they are all behind a preview flag with no announced GA date - that I am aware of.

The Vector Index Problem

The vector index limitations are where this gets particularly rough for anyone thinking about production use. From Microsoft's own documentation:

Limitation	Impact
Table becomes read-only	No INSERT, UPDATE, DELETE, or MERGE while the index exists
Single-column integer PK required	Clustered index must be a single integer column
No partitioning	Cannot partition the vector index
No replication	Vector indexes are not replicated to subscribers

Read that first row again. A table with a vector index becomes read-only. If you need to add, update, or delete data — ie., if you have an application — you have to drop the index, make your changes, and rebuild it. Azure SQL DB has a workaround for this (ALLOW_STALE_VECTOR_INDEX), but that option is not available in SQL Server 2025.

Erik Darling published a walkthrough today showing these limitations in practice and concluded that vector indexes are 'just not there yet.'   I would have to agree.

What You Can Actually Do Today

The GA features are not useless. Here is what works right now without preview flags:

Exact search on small datasets. If you have fewer than ~50,000 vectors (Microsoft's own recommendation), VECTOR_DISTANCE with a TOP(n) ... ORDER BY distance works fine as a brute-force scan. No index needed.

Store embeddings alongside relational data. The VECTOR data type is GA and production-supported. You can generate embeddings externally (Python, Azure OpenAI, whatever), store them in SQL Server, and query them with VECTOR_DISTANCE. That is a real capability.

sp_BlitzCache @AI integration. This uses sp_invoke_external_rest_endpoint to call AI models for query tuning advice — completely separate from the vector features, fully functional, and genuinely useful. I have written extensively about this.

Bottom Line

SQL Server 2025 is 'AI-ready' in the same way a house with plumbing but no fixtures is 'move-in ready.' The foundation is there. The VECTOR data type is real. The distance functions work. But the features that turn it into an actual AI search platform — vector indexes, VECTOR_SEARCH, in-engine embeddings — are all preview, with significant limitations, and no timeline for GA.

That does not mean you should ignore it. It just means that we need to understand exactly where the line is between what is supported in production and what is not. If you are building something today, build on the GA features and keep an eye on the preview features. Do not build production systems on PREVIEW_FEATURES = ON.

Microsoft is shipping the right pieces. They are just not done yet. Or as Erik says, there is still work to be done before they "can be considered mature features in SQL Server".

More to Read

Microsoft: SQL Server 2025 Vector and AI Features Released in RTM
Microsoft: CREATE VECTOR INDEX — Limitations
Microsoft: Vector Search and Vector Indexes in SQL Server
Erik Darling: Vector Indexes Just Not There Yet

SESSION_CONTEXT: Three Years, Two Bugs, One Workaround

If you use SESSION_CONTEXT() in any query that can run with parallelism, you may be getting wrong results right now and not know it. This is not new. It has been a documented known issue since January 2022. It shipped unfixed in SQL Server 2019, 2022, and 2025 — and as of 2025 CU2 (February 12, 2026), it is still not resolved.

This is easy to miss. It's buried in the Known Issues section of CU release notes, and the symptoms — wrong results or dump files — do not obviously point back to SESSION_CONTEXT.

What the Bug Does

Queries that call the built-in SESSION_CONTEXT function can return incorrect results when they execute with parallel plans. The issue is how SESSION_CONTEXT interacts with parallel execution threads — specifically when the session is reset for connection pool reuse. Parallel threads read the session context, but under certain conditions the value is not properly propagated across all threads. Some threads see it, others don't. The query completes without error. The results are just wrong.

Microsoft's own SESSION_CONTEXT documentation describes it this way:

Known Issues:

An Access Violation (AV) exception might occur with the SESSION_CONTEXT function 
under certain conditions. You might encounter AV exceptions or wrong results when 
the SESSION_CONTEXT function runs within a parallel execution plan when the session 
is reset for reuse.

Date discovered: January 2022
Status:          Has workaround
Date resolved:   (blank)

There are two failure modes:

Failure	Cause
Wrong results	Original bug. Parallel threads do not all receive the session context value.
Access violation dumps	The fix for wrong results (introduced in 2019 CU14) causes AV dump files when the session is reset for reuse.

You either get wrong data or crash dumps. Pick your poison.

Why This Is Dangerous

SESSION_CONTEXT is not obscure. It is Microsoft's recommended mechanism for passing application context into SQL Server. If your application calls sp_set_session_context to set a TenantID or any other value — and your queries filter on that value — you are potentially at risk.

Common patterns that use SESSION_CONTEXT:

Row-Level Security (RLS) — security predicates that filter rows by SESSION_CONTEXT(N'TenantID')

Multi-tenant data isolation — WHERE clauses filtering on session-injected tenant or org identifiers

Audit context — triggers or views that stamp SESSION_CONTEXT(N'UserID') into audit columns

The danger is that this failure is silent. No error message. No warning. The query completes successfully. It just returns rows that belong to another user — or excludes rows that should have been included. You would only catch it if you validated the result set, and most applications do not validate what the database returns from a SELECT.

Where It Lives

This is listed as a known issue on every cumulative update from SQL Server 2019 CU14 (November 2021) through SQL Server 2025 CU2 (February 2026). Three major versions. Over three years.

Version	CU Range	Status
SQL Server 2019	CU14 – CU31	Known issue with workaround
SQL Server 2022	CU1 – CU23	Known issue with workaround
SQL Server 2025	RTM – CU2	Known issue with workaround

Sources: SQL Server 2025 CU2 (KB5075211), SQL Server 2022 CU23 (KB5078297), SQL Server 2019 CU14.

The Workaround

Microsoft provides two trace flags:

Trace Flag	What It Does
11042	Forces queries using SESSION_CONTEXT to run serially — no parallelism
9432	Disables the CU14 fix that causes access violation dump files

TF 11042 is the one you want for most environments. It forces serial execution for any query that references SESSION_CONTEXT, which eliminates the parallel thread propagation problem entirely. The trade-off is performance — those queries lose parallelism. For many RLS and tenant-filter patterns, the queries are lightweight enough that serial execution will not matter.

TF 9432 disables the original fix, meaning you go back to pre-CU14 behavior: no access violations, but the wrong-results bug returns. Only use this if you are experiencing dump files and need to stop them immediately.

To enable globally:

-- Enable at runtime (survives until restart)
DBCC TRACEON(11042, -1);
GO

-- Verify
DBCC TRACESTATUS(11042, 9432);
GO

For persistence across restarts, add -T11042 to your SQL Server startup parameters.

Are You Exposed?

This query checks whether SESSION_CONTEXT appears in any cached plan that has executed with parallelism:

SELECT 
    qs.plan_handle,
    qs.sql_handle,
    qs.execution_count,
    qs.max_dop,
    SUBSTRING(st.text, 
        (qs.statement_start_offset / 2) + 1,
        ((CASE qs.statement_end_offset 
            WHEN -1 THEN DATALENGTH(st.text) 
            ELSE qs.statement_end_offset 
         END - qs.statement_start_offset) / 2) + 1) AS query_text
FROM sys.dm_exec_query_stats qs
CROSS APPLY sys.dm_exec_sql_text(qs.sql_handle) st
WHERE st.text LIKE '%SESSION_CONTEXT%'
  AND qs.max_dop > 1
ORDER BY qs.execution_count DESC;

If that returns rows, you have queries using SESSION_CONTEXT that have executed with parallel plans. You have a problem.

Also check whether the trace flags are already enabled — if someone on your team found this before you did, you will want to know:

DBCC TRACESTATUS(11042, 9432);
GO

Bottom Line

SESSION_CONTEXT is Microsoft's recommended mechanism for passing application context into SQL Server. That recommendation has had a known parallel execution bug since January 2022. The original bug returns wrong results silently. A fix shipped in November 2021 (SQL Server 2019 CU14) stopped the wrong results but introduced access violation dump files. Neither problem has been fully resolved. The workaround is TF 11042, which forces affected queries to run serially.

Run the diagnostic query. If you get rows back, enable TF 11042. The performance cost of serial execution is almost always cheaper than the cost of returning inaccurate data.

More to Read:

Microsoft: SESSION_CONTEXT Known Issues
Microsoft: SQL Server 2025 CU2 (KB5075211)
Microsoft: KB5008114 — SESSION_CONTEXT Returns Wrong Results in Parallel Plans
Niko Neugebauer: SQL Server 2019 — Session Context & Parallel Plans

SSMS 22: Now Serving 13 Flavors

SSMS 22 shipped in November 2025. It brought ARM64 support, GitHub Copilot, zoomable result grids, and... a new visual themes menu that reads like a smoothie bar.

The classic Blue theme that we've stared at since ET phoned home? Gone. In its place: thirteen color themes with names that sound like you're at the ice cream parlor!

The Menu

Go to Tools > Theme in SSMS 22 and you will find these:

Color	Theme	Vibe
	Light	Plain white. The 'just water, thanks.'
	Dark	Standard dark mode. Classic.
	Bubblegum	Pink. In a database tool. Bold.
	Cool Breeze	Soft blue-gray. The default.   ...enh
	Cool Slate	Darker blue-gray. Dark mode for adults.
	Icy Mint	Mint green. Refreshing, allegedly.
	Juicy Plum	Purple dark. Moody.
	Mango Paradise	Palm trees. Margaritas.
	Moonlight Glow	Blue-dark. Closest to the old Blue. RIP.
	Mystical Forest	Green dark. For the Tolkien DBA.
	Silky Pink	Pink. Bubblegum.
	Spicy Red	Red accent. Production energy.
	Sunny Day	Yellow-warm. Aggressively cheerful.

That is 8 light themes and 5 dark themes, inherited from Visual Studio's Fluent UI refresh — which borrowed its palette from Microsoft Edge browser themes. Your query editor now has the same aesthetic options as your browser's new tab page.

RIP Blue (2005 – 2025)

The Blue theme was retired because "it was a source of accessibility issues". Rather than retrofit a 20-year-old theme, MSFT replaced the entire lineup. Fair play.

If you are mourning, Cool Breeze and Moonlight Glow are your closest replacements.

How to Change Themes

Super Easy

Tools > Theme — pick from the dropdown. No restart required.

While You Are in There

Since you have SSMS 22 open anyway, a few quick wins:

Zoom the Results Grid

Ctrl+Shift+> / Ctrl+Shift+< zooms the grid independently of the editor. Also Ctrl+Scroll. New in SSMS 22. No more squinting during screen shares. My eyes like this one.

Rename Tabs

Right-click any query tab > 'Rename Tab.' Six tabs all named SQLQuery1.sql through SQLQuery6.sql? Not anymore.

Clean Up Tab Names

Text Editor > More Settings > Editor Tab and Status Bar — set everything to False except 'Include file name.' Strips the server/login/database clutter. Requires a restart.

Query Shortcuts

Environment > Keyboard > Query Shortcuts — map your most-used scripts (ie., sp_who2, sp_BlitzFirst). Highlight a parameter, hit the shortcut, done.

Query Window at Startup

Environment > Startup — change to 'Open Object Explorer and query window.' You were going to open one anyway.

Kill the Splash Screen

Search 'splash' in settings. Disable it. You know you opened SSMS.

So What Are You Running?

Thirteen themes, zero excuses. Which one did you pick?

Me? Mango Paradise. Palm trees out the window, salt air on the keyboard, and now my query editor matches the view. Tropical deadlocks. Sunshine blocking. Paradise tempdb spills. It was never really a choice. 😆

More to Read:

SSMS 22 GA Announcement — Microsoft Tech Community
My SSMS 22 Configuration — VladDBA
A Kind of Blue — Mark Downie (PoppaString)
What is New in SSMS 22 — MSSQLTips