Miasma. The Worm That Fires When You Open the Folder.

Last Friday, June 5th, GitHub yanked 73 Microsoft repositories offline in about 105 seconds. Not fringe stuff, either. They were repos across the Azure, Azure-Samples, Microsoft and MicrosoftDocs organizations, including Azure/durabletask and Azure/functions-action. The culprit is a self-replicating supply chain worm the researchers are calling Miasma, and this is the part that gets my attention: The payload fires when you open the repository in an AI coding tool or IDE. You don't have to run anything. You don't have to install anything. You just open the folder.

Maybe you're thinking 'I'm a DBA, not a developer, this isn't my problem', but stay with me. I'll explain why your scripts folder is exactly the kind of target this thing was built for.

What happened

An attacker used a previously compromised contributor account to push a malicious commit to the Azure/durabletask repository. The same account had already been used in May to publish three poisoned versions of the durabletask Python SDK to PyPI, so this was strike two from the same stolen identity. The commit didn't poison a package this time. Instead, it planted configuration files inside the repo itself -- the kind of files that AI coding assistants and modern IDEs execute automatically when a project is opened.

Open an infected repo in Claude Code, Gemini CLI, Cursor or VS Code, and a credential-harvesting payload runs immediately. It grabs tokens for GitHub, cloud platforms and developer tooling, then uses those stolen credentials to commit itself into every other repository the victim can write to. That's the worm part -- it spreads on its own, no human required.

GitHub's automated abuse detection caught it and disabled all 73 repositories in two sweeps over roughly 105 seconds. Microsoft has since reviewed and restored them. But the takedown itself caused collateral damage -- Azure/functions-action went dark, and every CI/CD workflow referencing it broke on the spot.

The three waves

Miasma has been active since June 1st, and it's evolving fast. It's a variant of the 'Mini Shai-Hulud' worm that was publicly released in mid-May, and it has already used three distinct attack vectors:

Wave	Date	Vector
1	June 1	Malicious npm packages with preinstall hooks
2	June 3	Malicious binding.gyp files that execute during npm install ('Phantom Gyp')
3	June 3-5	Malicious commits to GitHub repos; payload fires when repo is opened in an AI tool or IDE

Read that closely. Waves 1 and 2 still required an install step, but wave 3 only requires curiosity. Can you even measure the extent of that exposure?

Why DBAs should care

Think about what's sitting in your scripts folder right now. If you're like most working DBAs, you've got clones of community tooling -- dbatools, the First Responder Kit, Ola Hallengren's maintenance solution, plus a pile of your own repos. And increasingly, you're opening those folders in VS Code, or pointing an AI assistant like Claude Code or Copilot at them to refactor a script or troubleshoot a job.

Now think about what's next to those scripts. Connection strings. Saved credentials for dbatools sessions. SQL logins in config files. Azure service principal secrets. A harvested credential from a developer workstation is bad; a harvested credential from a DBA workstation is the keys to the data layer. A worm won't know the difference between a developer's GitHub token and your sysadmin-equivalent service account -- and it doesn't care. It takes everything it can reach.

I should say, this isn't a 'dbatools is compromised' post. None of the SQL Server community projects were among the 73 disabled repos. But the attack pattern is now public, and the worm's ancestor was published openly for anyone to adapt. For years the trust model has been simple -- clone it from GitHub, it's from a reputable org, it's fine. That model just took a direct hit. If Microsoft's own Azure org can host a poisoned commit for two weeks, any repo can.

The mechanics, briefly

Modern IDEs and AI coding tools support automation hooks, driven by configuration files inside the project. They run when a project opens -- VS Code tasks with folder-open triggers, Claude Code hooks, and similar mechanisms in other tools. These features exist for legitimate reasons (auto-build, environment setup), but they mean a repository is no longer just passive text. It can carry instructions that your tooling obeys the moment you open it.

In this campaign, the malicious commit added exactly those kinds of configuration files. Researchers also observed the payload establishing persistence through VS Code tasks and Claude Code hooks, and exfiltrating stolen data through channels like GitHub 'dead drop' repos.

What to do about it

1. Turn off automatic task execution in VS Code

This single setting closes the folder-open execution vector in VS Code. It's prompt-based by default in recent versions, but verify it -- and set it explicitly via settings.json:

"task.allowAutomaticTasks": "off"

2. Inspect before you open

Before opening any freshly cloned repo in an IDE or AI tool, look at it with something dumb first -- plain file explorer, notepad, a directory listing. The files that matter are the automation hooks. A quick PowerShell sweep of your scripts directory:

Get-ChildItem -Path 'C:\Scripts' -Recurse -Force |
    Where-Object { $_.Name -in ('tasks.json','settings.json','binding.gyp') `
        -or $_.FullName -like '*\.claude\*' `
        -or $_.FullName -like '*\.vscode\*' } |
    Select-Object FullName, LastWriteTime |
    Sort-Object LastWriteTime -Descending

You're not looking for these files to never exist. The .vscode folders are everywhere and almost always benign. You're looking for the files you didn't put there, or those with a LastWriteTime that doesn't match when you last touched the project.

3. Get the secrets out of the scripts folder

Maybe this incident is the push you needed. No connection strings, passwords or service principal secrets in repos or alongside them. Use Windows Credential Manager, Azure Key Vault, dbatools' Export-DbaCredential patterns -- or one of the gazillion different password managers out there to keep your passwords secure. Or at least out of the path that a folder-scanning payload could walk.

4. If you opened a Microsoft repo recently, assume exposure

The window of concern runs roughly May 20 through June 5. If you -- or any scheduled job or build server you own -- pulled or even just opened anything from the affected orgs in that window, you should consider rotating the credentials that machine could reach. GitHub tokens, cloud secrets, and yes, any SQL logins whose passwords were stored locally. Check your cloud environments for service principals you didn't create and outbound traffic you can't explain. The fact that this check has become a standard step in Cloud/AI security really should not be missed.

5. Pin your community tooling

Remember that scripts folder full of dbatools, the First Responder Kit and Ola's maintenance solution? This is where the trust-model problem becomes a daily-habit problem. Clone a specific release tag, not main. Review the diff when you update. The convenience of 'git pull and go' is exactly the behavior this worm is engineered to exploit.

The bigger picture

I wrote before about least privilege for AI agents -- the idea that an AI assistant should only be able to touch what it genuinely needs. Miasma is the other side of that same coin. The AI tooling isn't the villain here. The worm exploited automation features, and AI assistants happen to be the newest and most eagerly adopted automation there is. New actors, but the lesson is the same. Every tool that can act on your behalf is a tool an attacker can act through. Scope it down, watch what it opens, and trust none of them by default -- not even the ones from a trusted org.

GitHub caught this one in 105 seconds. The next one might not trip the alarms as fast. Spend the ten minutes on the settings and the secrets cleanup now, while it's a news story and not an incident report with your name on it.

More to Read

StepSecurity: Miasma Worm Hits Microsoft Again
The Register: GitHub nukes 70+ Microsoft repos amid suspected worm attack
The Hacker News: Miasma Worm Hits 73 Microsoft GitHub Repositories
Redmondmag: Supply Chain Attack Hits Microsoft GitHub Repos, AI Coding Tools

Fabric Is the Destination. Who's Ready?

A reader says to me yesterday very directly during a linkedin exchange: "All of the data leadership is focused on Fabric." Nine words. He is right and I will not argue the point. The evidence is everywhere. But 'where leadership is focused' and 'what works for the small shops' are two different things, and only one of them gets answered in the keynote. Fabric is the destination. The question nobody on stage is asking is who is actually ready to go there -- and what the costs may be for those who are not.

The Tell Isn't a Keynote. It's a Feature.

You do not have to read Microsoft's strategy in a press release. You can read it in what they built into the flagship database release. SQL Server 2025's headline analytics capability is not a faster engine or a smarter optimizer. It is Mirroring to Microsoft Fabric, and it went generally available alongside the release.

Here is what it does. You point Fabric at your SQL Server, pick the tables you want, and it continuously replicates them into OneLake -- Fabric's storage layer -- with no ETL, no pipeline, no orchestration. On SQL Server 2025, the engine itself scans the transaction log at high frequency and publishes the changes; Fabric merges them in near-real-time, as fast as every 15 seconds. On 2016 through 2022, it rides on Change Data Capture instead. Either way the data lands in OneLake as read-only Parquet, ready for analytics, BI -- and AI.

Read that again, because the direction is the whole story. The marquee analytics feature of the newest SQL Server is a one-click, zero-ETL pipe whose entire job is to copy your data out of SQL Server and into Fabric. When the headline of your flagship database is 'we made it trivial to send your data somewhere else', that somewhere else is where the value is being built.

One SQL, One Direction

The positioning also backs the plumbing. March 2026 brought the first-ever SQLCon -- run not on its own, but inside FabCon, framed as unifying databases and Fabric on a single platform. The database and the platform now share one stage and one story. And the momentum behind that story is not subtle. By Microsoft's own numbers, Fabric has passed a 2 billion dollar annual revenue run rate, serves more than 31,000 customers, and is growing about 60% year over year -- the fastest-growing analytics product they currently have.

Set that next to the other half of the picture. Fabric is now the named successor to Azure Synapse. Synapse is still supported, but Microsoft has been clear that all new analytics innovation is going into Fabric, and specific Synapse pieces are already being retired in its favor. Line the signals up, and they all point the same way.

The signal	What it tells you
Mirroring SQL Server to Fabric went GA, on-prem included	Microsoft built the on-ramp from your estate into theirs, zero-ETL.
SQL Server 2025 added a native log-scan publisher for Fabric	The flagship engine release's analytics headline is, in effect, 'feed Fabric.'
The first SQLCon ran inside FabCon	The database and the platform now share one stage and one roadmap.
Fabric named Synapse's successor; new analytics work goes there	The investment is pointed at the SaaS platform, not the box engine.

The data flows one way. Operational SQL Server feeds analytical Fabric. Your engine is being recast as the trusted source of record -- the place where your data is born and kept honest -- but it is also no longer the place where the analysis happens.

What This Is Not

Now the part the panic merchants will skip. Fabric is not replacing your transactional SQL Server, and nobody is migrating your order-entry system to a lakehouse. Mirroring is read-only and analytical by design. The copy to OneLake is for reporting and AI, not for inserts or writing. The OLTP engine that runs your business is going nowhere.

So this is not a funeral, and it is not a reason to let a vendor sell you a frightened migration. The engine is healthy. What has changed is not whether SQL Server survives. It is where the new value gets built on top of it.

Who's Ready? The Part Nobody's Costing

Here is where the keynote goes quiet. Fabric is the destination, fine. But the people who own a SQL Server, a rack of SSIS packages, and a budget they have to defend are not asking 'is Fabric the future.' They are asking 'does this work for my shop', and 'can I afford it'. Those answers are a lot less tidy than the slide deck.

Start with the money, because the shape of it is the opposite of what you own today. A SQL Server license is a capital cost on hardware you control. You buy it, you run it, it is yours. Fabric is a meter. You rent capacity by the hour, and the meter runs every hour the capacity is on. Here is the pay-as-you-go list, US region, per month.

Fabric capacity	Pay-as-you-go (list, per month)
F2 (entry)	~$263
F8	~$1,051
F32	~$4,205
F64	~$8,410

F2 at about $263 a month looks approachable, and that is the number that gets quoted. Two things it does not tell you. First, the way you make pay-as-you-go cheap is to pause the capacity nights and weekends. But, the near-real-time mirroring needs the capacity running to stay near-real-time, so the live feed and the pause-to-save trick will counter each other. Second, and this is the one that makes people blink, below F64 every single report viewer still needs a Power BI Pro license, roughly $10 per user per month. The capacity that lets viewers in for free is F64, at about $8,410 a month -- roughly thirty times the F2. So the small shop that picks F2 to be frugal pays the entry rate plus a per-seat tax on everyone who opens a report, and the next rung up that removes the tax is a canyon away. Reserved pricing trims the capacity bill by 30 to 40 percent, but it commits you to paying around the clock, idle hours included. You have traded a server you owned for a subscription you cannot turn off.

None of that makes Fabric a bad platform. It makes it a different cost model, billed monthly, forever, and pointed at organizations big enough to keep a capacity busy. For the small and mid-size shop, 'free of a license' is not the same as 'cheap,' and nobody selling the destination is doing this arithmetic out loud.

And SSIS.

This is the part that costs me something to write. SSIS has been a workhorse in my career and a lot of yours, and it still ships with SQL Server 2025 and is fully supported. But Fabric has no SSIS runtime. The data-movement story over there is Data Factory pipelines and Dataflows Gen2 -- which means an SSIS-heavy shop does not migrate to Fabric, it rewrites. Every package is a re-implementation in a different tool, and the investment, the tooling, and the momentum are all on the new side. You can keep running SSIS for years. You just cannot bring it with you. Pretending otherwise does not change the rewrite waiting at the other end, and that rewrite is exactly the kind of cost that turns 'we are moving to Fabric' into a multi-year line item nobody scoped.

What It Means for the On-Prem DBA

If the gravity has moved, the practical question is what that does to your job. A few things, and none of them are panic.

The investment is moving up the stack.

This is the same pattern I wrote about in the Postgres piece. Microsoft feeds the layer where its customers are spending, and right now that layer is the SaaS analytics platform, not the box engine. The engine gets hardening and careful maintenance. Fabric gets the new features and the 60% growth. Plan your attention accordingly.

Mirroring makes your data Fabric's concern, which makes the plumbing yours.

A mirror is not free of consequences for the DBA. It means a dedicated Fabric login reading your transaction log, an on-premises data gateway sitting inside your network, and a real decision about which tables leave the building. That is a new security surface, and it lands on your desk. Scope the login down, watch the gateway, and treat 'what gets mirrored' as a data-governance question, not a checkbox. Least privilege, again, same as it ever was.

The skills hedge is cheap.

You do not have to become a Fabric engineer. But knowing how your data gets mirrored, and who can reach the copy in OneLake, is now part of the job description whether you asked for it or not. Learning the mirroring path on a test database is a few hours. Call it insurance.

The Bottom Line

So yes -- follow the headcount and you find the roadmap, and it all says Fabric. I am not arguing with that. My reader was right. The data leadership is focused on Fabric and the feature list proves they mean it. But focus does not also mean fit. The destination is set for the large, capacity-filling, analytics-hungry shop. For the small one, the SSIS-heavy one, the one still scrambling to clear the 2016 finish line, the honest answer to 'who is ready' is 'not yet', and the road may be longer and more expensive than anyone on stage is admitting. That is not a reason to refuse the trip. It is a reason to cost it out properly, before someone who has never met your SSIS estate puts a date on the calendar for you.

More to Read

Microsoft Fabric Blog: Mirroring for SQL Server in Microsoft Fabric (Generally Available)
Microsoft Learn: Mirroring in Microsoft Fabric (overview)
Microsoft Azure: Microsoft Fabric pricing (capacity F-SKUs)
Microsoft Fabric Blog: From Azure Synapse and Azure Data Factory to Microsoft Fabric
sqlfingers inc: Why Are We Still Paying for SQL Server?

Patch Tuesday June 2026: Skipped SQL Server and Landed on Your Firmware

It is Patch Tuesday again. Microsoft shipped around 200 fixes today and three publicly disclosed zero-days, and not one of them is in SQL Server. Just like May, the database engine sits this one out entirely with zero SQL Server CVEs. But that does not mean close up shop and go home early. We'll run the June numbers first, then get to the date that actually matters this month -- and it's not June 9th. It is late June, when a set of Secure Boot certificates that have been sitting in your firmware since 2011 start to expire.

The June Numbers

Counts vary a little by who is tallying... BleepingComputer puts it at 200 and some trackers land near 198, but the shape is clear either way. Roughly 200 fixes, 33 rated critical, and 28 of those critical bugs are remote code execution. Elevation of privilege dominated the overall list. Three zero-days, all publicly disclosed ahead of the patch, none flagged as exploited in the wild at release.

Zero-day	Component	Type
CVE-2026-45586	Windows Collaborative Translation Framework (CTFMON)	EoP to SYSTEM
CVE-2026-49160	HTTP.sys ('HTTP/2 Bomb')	Denial of service
CVE-2026-50507	Windows BitLocker	Security feature bypass

That elevation-of-privilege tilt across the full list is worth a beat. An EoP bug is rarely how an attacker gets in. It is how they take over once they are already in. The move that turns one compromised account or service into SYSTEM, with full control of the machine. The CTFMON zero-day above is exactly that pattern: not a front door, but a fast way to own the machine once someone is already inside. On a SQL Server host, 'already inside' plus SYSTEM is the whole ballgame, with full control of the instance and every database on it.

Interesting side note: Windows Secure Boot also took eight security-feature-bypass fixes this month. Attackers keep poking at the boot path -- which is exactly where this month's real story is headed.

What SQL Shops Should Actually Patch

Zero SQL Server CVEs does not mean zero work. Your SQL Server boxes are Windows boxes, and a few items in this release land squarely on the hosts behind your SQL Servers.

Hyper-V guest escape, if you virtualize.

Three critical Hyper-V RCE bugs (CVE-2026-47652, CVE-2026-45641, CVE-2026-45607) can let code escape a guest VM onto the host. If your SQL instances run on Hyper-V, the host patch is the one to move on first.

Cryptographic Services and RDP.

A critical elevation-of-privilege bug in Microsoft Cryptographic Services (CVE-2026-44810) hits a foundational subsystem, and the Remote Desktop client picked up a cluster of RCE fixes. Both are normal-priority for a managed estate, but they are on your servers whether or not SQL is named.

Nothing here says break your change window, but nothing here is optional either. Run them through your usual patch process.

The Date That Actually Matters: Secure Boot

Here are the dates to put on your calendar. Secure Boot verifies your bootloader and early-boot components before Windows starts, and that trust chain leans on Microsoft certificates issued back in 2011. Those certificates were minted with a fifteen-year life, and the clock runs out this year, in stages.

Certificate	Role	Expires
Microsoft Corporation KEK CA 2011	Key Exchange Key -- authorizes updates to the DB/DBX databases	June 24, 2026
Microsoft UEFI CA 2011	Signs third-party bootloaders and option ROMs	June 27, 2026
Microsoft Windows Production PCA 2011	Signs the Windows boot manager	October 19, 2026

So June is when the floor starts shifting, and October is the date to circle in red, because the Windows boot manager signing certificate is the consequential one. The replacements already exist in the 2023 certificate family, and Microsoft has been pushing them out through Windows Update for a while now. PCs shipped since early 2024 already have them.

No, Your Server Will Not Stop Booting

You will see vendor posts this month with words like 'absolute deadline' and 'no recovery' and 'devices may fail to boot'. Ignore the drama. Microsoft's own guidance is plain about this. The machine does not suddenly refuse to boot when a 2011 certificate expires. Red Hat says the same for Linux, that systems with the 2011 certificate already enrolled keep booting fine past the expiry dates.

The real consequence is quieter, but still matters. After expiration, a device that never received the 2023 certificates can no longer take new Secure Boot database updates, which means it stops getting future boot-layer security fixes. It keeps running. It just stops getting protected against the next BlackLotus-style bootkit. That is the risk you are managing here, not a Monday morning where half the estate is dark.

How to Check Where You Stand

Most machines get the 2023 certificates automatically through Windows Updates, and Microsoft is managing that rollout for a large share of devices. The ones that might get you are older servers whose firmware needs an OEM update first, and anything your team is patching by hand. So the first question for any box is whether the update mechanism is even running -- because if the Secure-Boot-Update task is disabled or missing, the certificates never arrive. Microsoft's own troubleshooting guide has the check:

# Confirms the Secure-Boot-Update task exists and is enabled -- this is the
# mechanism that applies the 2023 certificates. From Microsoft's Secure Boot
# troubleshooting guide. Run in an elevated PowerShell session.
schtasks.exe /Query /TN "\Microsoft\Windows\PI\Secure-Boot-Update" /FO LIST /V

# Status meanings:
#   Ready              task exists and is enabled
#   Disabled           task exists but must be enabled
#   Error / Not Found  task is missing and must be recreated

Two gotchas before you push anything broadly. First, BitLocker. Applying the Secure Boot updates can throw a device into BitLocker recovery -- usually a one-time prompt on the first boot while the firmware catches up, but a repeating one on machines set to PXE-boot first. Either way, have your recovery keys in hand before you start, not after. Second, old firmware. Some hardware will not take the update without an OEM firmware refresh, and a few boxes may never get there at all. Stand up a firmware-update ring for those now, while the pressure is low. You do not want to be chasing OEM BIOS updates in October, when the boot manager certificate is the one on the clock.

The Bottom Line

Patch Tuesday skipped SQL Server entirely this month, again. Patch your Windows hosts on your normal cadence, give the Hyper-V host fixes a nudge to the front if you virtualize your instances, and otherwise breathe easy on the database tier this month.

But still do the Secure Boot inventory now. Confirm the Secure-Boot-Update task is running across the estate, flag the machines where it's Disabled or missing, and sort the OEM-firmware stragglers while you have time. The June dates are the warning shot. The October boot-manager date is the one that will actually hurt if you're unprepared. This is a calendar problem, not a fire, and calendar problems are the cheap ones to solve early.

More to Read

Microsoft Support: Windows Secure Boot certificate expiration and CA updates
Microsoft Tech Community: Act now -- Secure Boot certificates expire in June 2026
BleepingComputer: Microsoft June 2026 Patch Tuesday fixes 3 zero-days, 200 flaws
sqlfingers inc: Patch Tuesday May 2026 -- SQL Got Off Easy. Your Domain Didn't.

Why Are We Still Paying for SQL Server?

A client asked me last week, plainly: 'Why are we still paying for SQL Server when Postgres is free?' It is a fair question, and it is being asked more and more every day. This post is the honest answer from a SQL Server professional who has also spent real time with PostgreSQL and MySQL. Just my thoughts on where SQL Server and Postgres stand in June 2026, what each one really wins for us, and the bill nobody's talking about when they say 'free'.

Where They Actually Stand

Popularity is not really a benchmark, but it is a signal, and the trend line is worth reading. The independent DB-Engines ranking scores engines on search interest, job listings, technical mentions, and social signals. Here is the top of the table for June 2026, with the change on the month.

Rank	Engine	Score (Jun 2026)	Change (month)	Change (year)
1	Oracle	1140.04	-3.24	-90.35
2	MySQL	856.29	-0.21	-97.29
3	Microsoft SQL Server	698.04	-2.95	-78.71
4	PostgreSQL	688.23	+5.55	+7.58
5	MongoDB	387.97	+3.33	-14.87

SQL Server still holds third, but barely. Less than ten points now separate it from PostgreSQL, on a scale where it led by a comfortable margin a year ago. The direction of travel is the real story, though, like what's in that last column. Over the past year SQL Server shed almost 79 points while PostgreSQL gained about 8. It is the only engine in the top four that rose at all. Oracle and MySQL fell harder than SQL Server did. The whole top of the table is compressing, and Postgres is the one climbing into it.

But popularity rankings lean toward enterprise signals like job postings, and that tells a different story than what developers reach for on their own. In the 2024 Stack Overflow developer survey, PostgreSQL was the most-used database at about 49% of respondents, against around 25% for SQL Server. Read together, the two measures explain each other: SQL Server still wins on enterprise-weighted popularity, while Postgres owns developer mindshare and new projects. I'm pretty sure that split is exactly why my client is asking.

What Postgres Genuinely Does Better

If you want to be trusted on this, you have to concede the real ground first. Postgres earns its reputation in a few places.

The license line is zero.

Not discounted, but zero. There is no per-core tax, no edition ceiling pushing you to a more expensive SKU, and no Software Assurance clock. We will put real numbers on what that saves in a minute.

Extensibility is a first-class idea.

PostGIS for spatial, pgvector for embeddings, foreign data wrappers, and a deep catalog of extensions you can bolt on without waiting for the vendor to ship a feature. When a new workload shows up, Postgres usually already has an extension for it.

It runs anywhere.

Every major cloud has a managed Postgres, and the engine itself is portable across all of them. No platform gravity and no licensing-mobility headaches when you move it.

What SQL Server Still Wins

And then the other side of the ledger, which is still just as real.

The tooling and the operational story.

SSMS, Query Store, the Intelligent Query Processing family, a mature Always On availability-group stack, and first-party enterprise support. If you live in the Microsoft estate, that integration is not just a nice-to-have. It is the reason the lights stay on in many shops.

It is still shipping real innovation.

This is not a legacy engine coasting. SQL Server 2025 put a native JSON type, fuzzy string matching, and vector support in the box. I wrote up the native JSON data type recently, and there is more in that release than most shops have looked at yet.

The Microsoft-stack gravity is a feature, not just lock-in.

Entra ID, Power BI, SSIS, Fabric, the whole pipeline assumes SQL Server is in the middle. Ripping it out means rebuilding far more than just your database.

The Migration Bill Nobody Quotes

Here is where the 'just move to Postgres' conversation usually goes quiet. Moving the table data is the easy part, and it is almost never where the cost lives. The bill is in the procedural code.

Every stored procedure, trigger, and function written in T-SQL has to be converted to PL/pgSQL. Your SSIS packages do not come along. Your SQL Agent jobs do not come along. Your application's data-access layer has to be retested against different behavior in everything from identity columns to isolation levels to date handling. This is very important and can become very complicated. There are many tools to help with the mechanics. Like Babelfish, which eases database migrations by enabling PostgreSQL to understand and execute Microsoft SQL Server commands. There's also pgloader, the AWS Schema Conversion Tool, and AWS DMS -- but these automate the translation, not the validation. Budget most of a migration for converting procedural code and testing it, not for moving rows. This is the line item that turns a 'free' database into a six-figure project.

The Cost Math, Honestly

So put the license numbers on the table. These are SQL Server 2025 list prices, before any volume or Software Assurance discounting, and 2025 holds the same rate as 2022.

Scenario	SQL Server Enterprise	SQL Server Standard	PostgreSQL
Per 2-core pack	$15,123	$3,945	$0
Minimum (4 cores)	$30,246	$7,890	$0
Typical 16-core box	$120,984	$31,560	$0

That Enterprise column is the number your client saw on a renewal quote, and is why the question keeps getting asked. But we have to be honest about the other side, too. 'Free' is the license, not the total. Postgres still costs you in operational expertise, in support contracts (if you want one), and in the migration project like I mentioned above. The license line really is zero, but the total cost of ownership most definitely is not. Anyone telling you that it is, is selling you something else entirely.

The Honest Verdict

So how did I actually answer my client's question? In short, the license is almost never the real reason you're 'still paying.' The real cost of leaving is your T-SQL, your SSIS, and your Agent jobs, and that bill dwarfs the renewal. So before you look at Postgres at all, check whether you're paying Enterprise prices for a workload that would run perfectly fine on Standard Edition. That is the question worth answering first. Then it depends on three things: the workload, the team, and how deep you already sit in the Microsoft stack.

For a brand-new, cost-sensitive, developer-led project with nothing built in T-SQL yet, Postgres is a viable default now, not a compromise. The license savings are real and the engine is genuinely quite capable. For a Microsoft-ecosystem enterprise with years of T-SQL, SSIS, and Always On built in, SQL Server still earns its keep, and the migration math usually says stay put, at least for the core. Where it gets interesting is the shops paying Enterprise prices for Standard-shaped workloads. That is where a hard look pays off, and it is not always a Postgres answer. Sometimes it is just right-sizing to SQL Server Standard, which just became a lot more capable in the 2025 release.

The thing I will not tell a client anymore is that the choice is obvious. The era where nobody got fired for buying SQL Server is over. A ten-point gap on DB-Engines, with Postgres the only one of the top four still climbing, is a strong signal to run the numbers for your workload instead of just renewing on autopilot. Ask the question my client asked. Just make sure you cost out the whole answer, not the zero-price sticker.

More to Read

Microsoft: SQL Server 2025 Pricing (official PDF)
Microsoft Learn: What's new in SQL Server 2025
Microsoft Learn: Editions and supported features of SQL Server 2025
DB-Engines: Complete database popularity ranking
sqlfingers inc: Your JSON Column Was Never a JSON Column

Least Privilege for AI Accounts in SQL Server

Over the past few months, attackers have been talking Meta's new AI support bot into handing over Instagram accounts they didn't own. The attack was almost too simple. Start a normal password reset, open the support chat, tell the bot you're locked out, and ask it to change the recovery email on the account. The bot did exactly that, then sent the one-time code straight to the attacker's inbox.

Two weekends ago Meta pushed an emergency patch after accounts belonging to the Obama White House (now dormant), Sephora, and a senior US Space Force official were taken over. Meta has not said how many accounts were hit.

Confused deputy

The bot appears to have been wired into Meta's account management systems with permission to make changes like email swaps and password resets, but it was not taught to confirm it was talking to the real account owner. Security people have a name for this going back to the 80s -- the 'confused deputy'. A trusted process with real privileges gets tricked into misusing them on someone else's behalf.

Very simply, the bot was argued into doing something its permissions allowed and its judgment should have stopped. Per Brian Krebs, cybersecurity investigative journalist, the attack failed against accounts with multi-factor authentication enabled, including SMS codes. Translation: Go turn on Two-factor Authentication. Now.

What this means if you're putting AI near SQL Server

This is a consumer story, but the lesson lands squarely in our world. As people start wiring AI agents and MCP servers into SQL Server, the account that the AI runs under is the real safety boundary -- not the model's good sense or anyone's assumptions about how it is supposed to work. It MUST be controlled by the account privileges. If you grant an AI principal more than it strictly needs, you're trusting the model to never be argued out of restraint, and Meta just showed us how that goes.

So the takeaway is an old one, only pointed at a new kind of caller. Grant the AI account the minimum it needs, audit what it can touch, and assume it can be talked into anything its permissions allow. And don't ever treat this as a one-time setup. Monitor what your AI and service accounts are doing regularly, the same way you would any other privileged login.

More to Read

Meta's AI support bot happily handed Instagram accounts to hackers (Malwarebytes)

Globex, Globx, and GLOBEX: Fuzzy String Matching in SQL Server 2025

You have a customer list. Somewhere in it, 'Globex Corporation' got entered four different ways by four different people at four different times. One typed 'Globx Corporation'. One typed 'Globex Corporaton'. One held the shift key down and gave you 'GLOBEX CORPORATION'. They are all the same company, but your reports are counting them as four different entities.

SQL Server never had a good built-in answer for this. SOUNDEX has been in the box forever, but it was built to match names that sound alike, not to measure how close two typed strings actually are -- a different job entirely. So, we either hand-wrote the matching logic ourselves or pushed the whole problem out to SSIS Fuzzy Lookup or CLR. SQL Server 2025 finally ships the math itself. Four functions, no UDF, no external code. This post is the demo: the old pain, the four new functions, a real dedup query, and the one gotcha that may bite you on day one.

The Old Way: Roll Your Own

The closest thing we had built in was SOUNDEX, and it was never up to this job. It is phonetic, it is English-centric, and it crushes every word down to a four-character code, so collisions are constant. It can tell you two words sound alike. It cannot tell you that 'Globex Corporaton' is one keystroke from 'Globex Corporation'.

-- The tool we used to reach for. It answers a different question than the one you have.
SELECT SOUNDEX('Globex'), SOUNDEX('Globx');

So most shops did one of two things. They hand-wrote a function to count the differences between two strings and ran it across a million rows -- the per-row, parallelism-killing scalar UDF curse I wrote about earlier this month. Or they gave up on T-SQL entirely and moved the work to SSIS or a CLR assembly. Both work, but neither is something you want to manage as an 'extra' in your data layer.

Turn It On First

Two things have to be true before the four new functions can be used. The database has to be at the SQL Server 2025 compatibility level (170), and the preview-features database scoped configuration has to be on.

-- Check where you are
SELECT name, compatibility_level
FROM sys.databases
WHERE name = DB_NAME();

-- Set the 2025 compatibility level if you are not there yet
ALTER DATABASE [YourDbName] SET COMPATIBILITY_LEVEL = 170;

-- Turn on the preview features for this database
ALTER DATABASE SCOPED CONFIGURATION SET PREVIEW_FEATURES = ON;

Skip that last step and SQL Server does not tell you what you missed. It just acts like the function does not exist, because as far as it is concerned, it doesn't:

Msg 195, Level 15, State 10, Line 1
'EDIT_DISTANCE' is not a recognized built-in function name.

If you see that on SQL Server 2025, your first check is whether the preview-features setting is ON.

USE DBA; -- Change to the db where you've enabled it.
SELECT 
    CASE value 
        WHEN 1 THEN 'TRUE (Enabled)' 
        ELSE 'FALSE (Disabled)' 
    END AS Is_Preview_Features_Enabled
FROM sys.database_scoped_configurations
WHERE name = 'PREVIEW_FEATURES';

Use the ALTER statement above to set it up if it's not enabled. Otherwise, keep moving.

The Four Functions

There are four functions, built on two different algorithms that answer the same question -- how far apart are two strings? There's two because they just measure it differently.

The first algo is Levenshtein, which measures what's called the edit distance, which is the number of single-character changes -- add a letter, remove one, swap one -- it takes to turn one string into the other. 'Globx' into 'Globex' is one edit, just add the missing e. 'Cat' to 'Dog' is three. The smaller that number, the closer the two strings are to matching.

The second algo is Jaro-Winkler. It scores similarity on a different formula, and the part that matters is that it gives extra credit when two strings start the same way. We will see exactly where that pays off in a minute.

Each algorithm comes as a pair. One function hands you the raw distance, the other turns it into a 0-to-100 similarity score.

Function	Returns	Range
EDIT_DISTANCE	Edits to turn one string into the other (insert, delete, substitute)	0 = identical, higher = farther apart
EDIT_DISTANCE_SIMILARITY	Similarity score from the edit distance	0 = no match, 100 = full match
JARO_WINKLER_DISTANCE	Distance, weighted toward strings that agree on their opening characters	0 = identical, 1 = no match
JARO_WINKLER_SIMILARITY	Similarity, same prefix weighting	0 = no match, 100 = full match

One footnote before we move on. Microsoft's docs call this Damerau-Levenshtein and list transposition as a fourth operation -- until they admit a few lines down that transpositions are not supported yet. So today it is plain Levenshtein: three operations, not four. Test a straight swap like 'AB' against 'BA' and you get 2, not the 1 a real Damerau-Levenshtein would give you.

One other thing to keep straight is that distance and similarity run in opposite directions. A distance of 0 is a perfect match and climbs as the strings differ. A similarity of 100 is a perfect match and falls toward 0. So a good match means a low distance but a high similarity. Get that backwards in a WHERE clause and you will filter out exactly the rows you meant to keep.

A Quick Look at All Four

Here are five pairs run through all four functions at once, so you can see how they disagree.

SELECT T.source_string,
       T.target_string,
       EDIT_DISTANCE(T.source_string, T.target_string)            AS ED_Distance,
       JARO_WINKLER_DISTANCE(T.source_string, T.target_string)    AS JW_Distance,
       EDIT_DISTANCE_SIMILARITY(T.source_string, T.target_string) AS ED_Similarity,
       JARO_WINKLER_SIMILARITY(T.source_string, T.target_string)  AS JW_Similarity
FROM (VALUES ('Black', 'Red'),
             ('Colour', 'Yellow'),
             ('Colour', 'Color'),
             ('Microsoft', 'Msft'),
             ('Regex', 'Regex')
     ) AS T(source_string, target_string);

Look at the 'Microsoft' / 'Msft' row. Edit distance sees five changes and scores it a weak 44 because half the letters are gone. Jaro-Winkler is kinder at 51, because the two share an opening 'M' and the same letters in order. That difference is the whole personality split between the two algorithms, and it is why abbreviations are where they part ways.

The Real Job: Catching Duplicate Customers

The warm-up used literals. Here is the actual problem -- a staging table full of names a human typed, and a known-good master value you want to match them against.

CREATE TABLE dbo.CustomerImport
(
    RowID       INT IDENTITY(1,1) PRIMARY KEY,
    EnteredName NVARCHAR(100) NOT NULL
);

INSERT dbo.CustomerImport (EnteredName)
VALUES (N'Globex Corporation'),   -- clean
       (N'Globexx Corporation'),  -- doubled letter
       (N'Globex Corporaton'),    -- dropped an i
       (N'Globx Corporation'),    -- dropped an e
       (N'Globex Corp'),          -- abbreviation
       (N'GLOBEX CORPORATION');   -- shift key never came up

Now score every entered name against the master string and attach a verdict. The similarity score does the work; the CASE expression just turns a number into a decision a human can act on.

SELECT EnteredName,
       EDIT_DISTANCE(EnteredName, N'Globex Corporation')            AS Edits,
       EDIT_DISTANCE_SIMILARITY(EnteredName, N'Globex Corporation') AS Similarity,
       CASE
           WHEN EDIT_DISTANCE_SIMILARITY(EnteredName, N'Globex Corporation') >= 95
               THEN 'Almost certainly the same'
           WHEN EDIT_DISTANCE_SIMILARITY(EnteredName, N'Globex Corporation') >= 85
               THEN 'Likely the same - review'
           WHEN EDIT_DISTANCE_SIMILARITY(EnteredName, N'Globex Corporation') >= 70
               THEN 'Possible match'
           ELSE 'Probably different'
       END AS Verdict
FROM dbo.CustomerImport
ORDER BY Similarity DESC;

The three typos land at 94 and 95 and all get flagged for review or better -- that's the point, a single dropped or doubled letter barely moves the score on an eighteen-character string. But the bottom two rows are also the same company, and both fell through to 'Probably different'. Those two failures are what you need to understand before you trust this in production.

'Globex Corp' scored 61 -- abbreviations are hard for edit distance.

'Globex Corp' is just the company name shortened. But turning 'Globex Corp' into 'Globex Corporation' means adding seven letters, so the edit distance is seven and the score drops to 61. Edit distance only counts the changes; it has no idea the seven missing letters spell a harmless 'oration'. Any abbreviation looks far apart for the same reason. Jaro-Winkler does better here, because the two names start identically, and that is exactly what it rewards. So when your data is full of 'Corp', 'Inc', and 'Ltd', try both and compare the scores.

'GLOBEX CORPORATION' scored 17 -- and that is the gotcha that gets everyone.

The Gotcha: These Functions Are Case-Sensitive

This is the one to circle. The same company name, in capitals, scored 17 out of 100. Not because the algorithm is wrong, but because right now these functions ignore your collation entirely. Microsoft says so plainly in the docs: "the functions don't adhere to the comparison semantics defined by collation settings, such as case insensitivity and other collation-specific rules."

So even on a case-insensitive database, which most of them are, an uppercase letter and its lowercase version count as a change. 'GLOBEX CORPORATION' differs from 'Globex Corporation' in fifteen places, so the engine counts fifteen edits and scores it 17.

-- Same company. Case-sensitive comparison thinks they are barely related.
SELECT EDIT_DISTANCE_SIMILARITY(N'Globex Corporation', N'GLOBEX CORPORATION') AS RawScore;

-- Normalize the case on both sides first, and the truth comes back.
SELECT EDIT_DISTANCE_SIMILARITY(
           UPPER(N'Globex Corporation'),
           UPPER(N'GLOBEX CORPORATION')) AS NormalizedScore;

The fix is one fast function call away. Wrap both sides in UPPER or LOWER. You need to pick one and stay consistent so that case never enters into the comparison. Until Microsoft teaches these functions to honor collation, do this on every fuzzy comparison you write. Every time.

EDIT_DISTANCE or JARO_WINKLER?

You have two algorithms. They are good at different things.

Reach for	When
EDIT_DISTANCE	Typos, transpositions, dropped or doubled characters -- short, roughly equal-length strings
JARO_WINKLER	Names and strings that share a strong start but vary in length, including abbreviations

Edit distance is literal. It simply counts changes. Great for the 'Corporaton' kind of typo, lousy at the 'Corp' kind, because a long missing tail reads as a pile of edits. Jaro-Winkler forgives a different ending when the beginning matches, which is how human-typed names usually drift. When you are unsure, run both and compare the scores, the way my warm-up query above did. Where they disagree is where your judgment goes.

The One Thing to Read First

Here is the honest version. On SQL Server 2025, fuzzy string matching is still in preview. It ships in the box, it works the moment you flip the database scoped configuration, and you can build and test on it today. But preview is not GA. This is the same caveat I raised on the native JSON data type, since preview behavior can change between cumulative updates.

Where	Fuzzy matching status
SQL Server 2025 (box)	In preview -- requires PREVIEW_FEATURES = ON
Azure SQL Database	Generally available
Azure SQL Managed Instance	Available on the SQL Server 2025 / Always-up-to-date update policy
SQL database in Microsoft Fabric	Generally available

One more thing, beyond the case issue: these functions run per row. Comparing two literals is free. Comparing a column against a master across a few million rows has real compute costs on every row. Narrow the field first with something cheap, like a same-first-letter filter, a length window, or an existing index, and then let the fuzzy function do its work on what's left. Don't point it at the whole table and just hope it works out.

The Bottom Line

The hand-rolled Levenshtein UDF was never wrong. It was just the best we had, and it dragged a per-row scalar function through every query that used it. SQL Server 2025 puts the math in the engine where it belongs, and the whole pattern collapses to a function call.

Edit Distance and Jaro-Winkler are the two newly introduced built-in fuzzy string-matching functions designed to identify typos, duplicate entries, and approximate text matches. This is a nice uptick from the custom T-SQL scripts we had to write and/or the CLR assemblies we used to achieve the same before SQL Server 2025.

Two things to remember. The functions are case-sensitive today regardless of your collation, so fold the case on both sides before you compare. And edit distance and Jaro-Winkler are not interchangeable. One counts keystrokes, the other forgives a different ending. Get those two right and you can finally answer 'is this the same customer?' within T-SQL.

Oh yeah -- also keep an eye on that preview flag until Microsoft moves it to GA in the box.

More to Read

Microsoft Learn: What is fuzzy string matching?
Microsoft Learn: EDIT_DISTANCE (Transact-SQL)
Microsoft Learn: JARO_WINKLER_SIMILARITY (Transact-SQL)
Microsoft Learn: ALTER DATABASE SCOPED CONFIGURATION (preview features)
sqlfingers inc: Cursed SQL -- Six Queries That Run Fine Until They Don't
sqlfingers inc: Your JSON Column Was Never a JSON Column

The AI Didn't Hack Mexico. SQL Injection Did.

I live in Cozumel, MX part-time. So when one person walked off with about 150GB of Mexican government data this winter — tax records, voter rolls, civil registry files, government logins — it was not abstract news to me. It was my neighbors' data.

The headline everyone ran with was 'AI hacked the Mexican government.' That is the wrong lesson. The AI did not invent a new way in. It ran the oldest trick in the book at machine speed: SQL injection.

What Happened

On February 25, 2026, the Israeli firm Gambit Security disclosed the campaign, first reported by Bloomberg. One unidentified operator, working for about a month starting in December 2025, hit roughly ten government bodies; the federal tax authority (SAT), the electoral institute (INE), several state governments, Mexico City's civil registry, even Monterrey's water utility.

The toolkit was not a nation-state arsenal. It was a consumer AI subscription. The operator jailbroke Claude Code, which means they talked it past its safety guardrails, with Spanish-language prompts, framing every request as an authorized 'bug bounty' and role-playing the model as an 'elite hacker.' When Claude balked, they switched over to GPT-4.1 to keep moving. Total haul: about 150GB, and roughly 195 million identities exposed.

The Part Nobody Wants to Say Out Loud

Gambit found at least 20 vulnerabilities exploited across those systems. None were exotic. Just exposed admin panels. Default credentials. Unpatched web apps matching CVE-2023-era patterns. Login pages with no rate limiting. The kind of risks sitting in thousands of shops right now — maybe even one that you support.

Here is the line from the logs that should stop every DBA cold. The operator had a frontier AI model at the keyboard. What did they have it write? Python SQL injection payloads against login pages on .gov.mx, built around a string straight out of a 2006 tutorial:

' UNION SELECT username, password FROM users--

That is not a 2026 attack. That is a 2006 attack, run at machine speed by something that never gets tired of rephrasing the prompt. Gambit's CEO called it this way: "This reality is changing all the game rules we have ever known." Maybe so. But the door it walked through is one we have known how to lock for twenty years.

SQL Injection, Still Undefeated in 2026

If you concatenate user input into a query string, you are vulnerable. It does not matter how clever your firewall is. Here is the whole problem and the whole fix, end to end. Run it on any version, sp_executesql has been there since forever.

CREATE TABLE dbo.Users
(
    UserId       int IDENTITY(1,1) PRIMARY KEY,
    Username     nvarchar(128) NOT NULL,
    PasswordHash nvarchar(256) NOT NULL
);

INSERT dbo.Users (Username, PasswordHash)
VALUES (N'rlewis', N'hash_aaa'),
       (N'admin',  N'hash_zzz');

The vulnerable pattern

Build the query by gluing the input straight into the string, and you have handed over the keys to whoever is typing.

CREATE OR ALTER PROCEDURE dbo.GetUser
    @Username nvarchar(128)
AS
BEGIN
    DECLARE @sql nvarchar(max);

    SET @sql = N'SELECT Username, PasswordHash
                 FROM dbo.Users
                 WHERE Username = ''' + @Username + N'''';

    EXEC (@sql);
END;

Call it normally and it behaves:

EXEC dbo.GetUser @Username = N'rlewis';

Now feed it the kind of input the attacker used:

EXEC dbo.GetUser @Username = N''' OR 1=1 --';

The string your server builds and then runs becomes this:

SELECT Username, PasswordHash
FROM dbo.Users
WHERE Username = '' OR 1=1 --'

Every row in the table comes back. Username and password hash for every account, handed over by your own stored procedure. That is the breach, in miniature.

The fix: parameterize

The query text is fixed and the input rides in as a parameter, so the engine compiles the command before it ever sees the value. The input can only ever be a username to look up, never code to run. That is the whole difference: concatenation lets the attacker write SQL, parameters only let them supply a value.

CREATE OR ALTER PROCEDURE dbo.GetUser_Safe
    @Username nvarchar(128)
AS
BEGIN
    DECLARE @sql nvarchar(max);

    SET @sql = N'SELECT Username, PasswordHash
                 FROM dbo.Users
                 WHERE Username = @Username';

    EXEC sys.sp_executesql
        @sql,
        N'@Username nvarchar(128)',
        @Username = @Username;
END;

Same malicious input, run again:

EXEC dbo.GetUser_Safe @Username = N''' OR 1=1 --';

Zero rows. The input is read as a literal username that simply does not exist, not as a condition:

(0 rows affected)

What This Means for You

The uncomfortable part of this story is how little of it is about AI. Strip the model out and you still have unpatched servers, over-privileged accounts, and login pages that a 2006 worm could have walked through. AI did not lower your defenses. It lowered the skill and the patience required to find the gaps you already had.

So the homework has not changed. It has only become more pressing.

Control	Why it matters now
Parameterize everything	No concatenated user input, anywhere. sp_executesql or parameters, every time.
Patch on a real cadence	The 20 flaws were known and old. A model can find every one of them in minutes.
Least privilege	A compromised login should reach almost nothing. Scope every account down.
Rate limit and lock out	Machine-speed credential stuffing dies fast against throttling and lockouts.
Watch behavior, not signatures	No human types thousands of login attempts a minute. Alert on the pattern.

The AI is new. The way in was not. Lock the door we have known about since SQL Server 6.5.

More to Read

Security Affairs: Claude Code abused to steal 150GB in cyberattack on Mexican agencies
HawkEye: How hackers used Claude to breach the Mexican government (the full attack chain)

Cursed SQL: Six Queries That Run Fine Until They Don't

Sometimes SQL can be cursed. It runs fine in dev and makes it through testing without issue. Then it gets to production, the table grows, the load spikes, and things turn on you at 2 a.m.

The cursed SQL returns answers. The problem is that the answer is wrong, or slow, or both -- and SQL Server never says a word. That's the curse. Here are six good examples.

CREATE TABLE dbo.Orders (
    OrderID     INT IDENTITY(1,1) PRIMARY KEY,
    CustomerID  INT          NOT NULL,
    AccountNo   VARCHAR(20)  NOT NULL,
    OrderDate   DATETIME2    NOT NULL,
    Amount      DECIMAL(10,2) NOT NULL
);

-- A covering index for some of our victims below
CREATE INDEX idx_Orders_CustomerID ON dbo.Orders (CustomerID) INCLUDE (Amount);

-- And one on the columns we will abuse
CREATE INDEX idx_Orders_AccountNo ON dbo.Orders (AccountNo);
CREATE INDEX idx_Orders_OrderDate ON dbo.Orders (OrderDate);

INSERT dbo.Orders (CustomerID, AccountNo, OrderDate, Amount)
SELECT TOP (500000) -- 500K rows, enough to make the bad plans hurt (TOP caps the cross join)
    ABS(CHECKSUM(NEWID())) % 1000,
    CAST(ABS(CHECKSUM(NEWID())) % 100000 AS VARCHAR(20)),
    DATEADD(DAY, -(ABS(CHECKSUM(NEWID())) % 1000), SYSDATETIME()),
    (ABS(CHECKSUM(NEWID())) % 50000) / 100.0
FROM sys.all_objects a CROSS JOIN sys.all_objects b;

Curse 1: The Cursor That Should Have Been a Set-Based Manipulation

The classic. You need to update every row, so you reach for the tool that processes one row at a time. It feels procedural. It feels safe. It is neither.

DECLARE @id INT, @amt DECIMAL(10,2);
DECLARE c CURSOR FOR 
SELECT OrderID, Amount FROM dbo.Orders;
OPEN c;
FETCH NEXT FROM c INTO @id, @amt;

WHILE @@FETCH_STATUS = 0
BEGIN
    UPDATE dbo.Orders
    SET Amount = @amt * 1.05
    WHERE OrderID = @id;

    FETCH NEXT FROM c INTO @id, @amt;
END

CLOSE c;
DEALLOCATE c;

The cursor spells out a procedure: fetch a row, update that row, fetch the next, repeat half a million times. Each pass is its own latch, lock, and log record. But SQL Server is a set-based engine, and a safer approach is a working table you walk in batches with a WHILE loop, updating through a join instead of fetching one row at a time.

-- Stage the rows to process in a working table with an identity column
CREATE TABLE #Work (
    RowID    INT IDENTITY(1,1) PRIMARY KEY,
    OrderID  INT NOT NULL
);

INSERT #Work (OrderID)
SELECT OrderID FROM dbo.Orders;

DECLARE @BatchStart INT = 1,
        @BatchSize  INT = 10000,
        @MaxRow     INT;
SELECT @MaxRow = MAX(RowID) FROM #Work;

WHILE @BatchStart <= @MaxRow
BEGIN
    UPDATE o
    SET o.Amount = o.Amount * 1.05
    FROM dbo.Orders o INNER JOIN #Work w 
      ON o.OrderID = w.OrderID
    WHERE w.RowID >= @BatchStart
    AND w.RowID <  @BatchStart + @BatchSize;

    SET @BatchStart = @BatchStart + @BatchSize;
END

DROP TABLE #Work;

That is the set-based manipulation: stage the rows in a working table keyed by an identity column, then walk it with a WHILE loop, updating through the join one batch at a time. No CURSOR, no FETCH, no DEALLOCATE, and none of the per-row engine machinery a cursor hauls around behind it. It still walks the set, but on your terms, through a structure you own, and each pass updates ten thousand rows in a single set operation instead of one row in its own transaction. Batching is the whole point: you cap transaction size, lock footprint, and log growth instead of letting one statement hold the entire table hostage. And the 10K is a starting point. Test it out. You can probably go as high as 100K.

Curse 2: SELECT * Where Nobody Asked

SELECT * is convenient, but it's also a promise you can't keep. The moment someone adds, drops, or reorders a column, everything downstream gets a surprise. And what about the overhead? SELECT * kills index efficiency by forcing expensive Key Lookups or Clustered Index Scans instead of using fast, narrow indexes. It also wastes network bandwidth by pushing large amounts of unneeded data across the network - and more.

We have an index that covers CustomerID and Amount. Ask for precisely those two columns and the index answers the query by itself; SQL Server never touches the table:

SELECT CustomerID, Amount
FROM dbo.Orders
WHERE CustomerID = 42; -- Index Seek on idx_Orders_CustomerID.

Now ask for everything. The index doesn't carry the other columns, so SQL Server has to go fetch them -- a key lookup back to the clustered index for every matching row, or it abandons the index entirely and scans. Same WHERE clause, far more work:

SELECT *
FROM dbo.Orders
WHERE CustomerID = 42; -- Key Lookup or Clustered Index Scan. More reads, more pages, more time.

Name your columns. You get the index you paid for, and your query still means the same thing six months from now.

Curse 3: A Function on the Wrong Side of the WHERE

You want this year's orders, so you wrap the column in a function. Reads beautifully but performs like a swamp. When you apply a function to an indexed column in the WHERE clause, the predicate is no longer SARGable, the index goes unused, and SQL Server scans the whole thing.

SELECT OrderID, Amount
FROM dbo.Orders
WHERE YEAR(OrderDate) = 2026; -- Index Scan. SQL Server has to compute YEAR() for every single row.

Leave the column alone and express the same idea as a range. Now the index on OrderDate does its job.

SELECT OrderID, Amount
FROM dbo.Orders
WHERE OrderDate >= '2026-01-01'
AND OrderDate < '2027-01-01'; -- Index Seek. Touches only the rows in range.

Note the half-open range, '>=' to '<', rather than BETWEEN. That will sidestep the boundary fights you get with the time portion of a datetime2.

Curse 4: The Implicit Conversion You Never See

This one is the quietest of them all. AccountNo is a VARCHAR. You compare it to a number because, well, it looks like a number. SQL Server obliges, because it never says no when it can convert.

SELECT OrderID, AccountNo
FROM dbo.Orders
WHERE AccountNo = 12345;   -- integer literal vs VARCHAR column

Here's the trap. When two types meet, the one with lower precedence is converted up to the higher one, and INT outranks VARCHAR. So SQL Server doesn't convert your literal down to a string, it converts the entire column up to INT, row by row. CONVERT_IMPLICIT on every value means your index on AccountNo is useless and it's going to scan. The plan for this query even waves a little yellow warning triangle at you that nobody ever clicks.

Match the literal to the column's type and the conversion vanishes:

SELECT OrderID, AccountNo
FROM dbo.Orders
WHERE AccountNo = '12345';   -- string vs string, index seek

The fix is one pair of quotes. Nothing was broken -- SQL Server did exactly what the precedence rules say it should. It just did it silently, on every row, and handed back the right answer very slowly. That's the whole story of implicit conversion.

Curse 5: NOLOCK as a Performance Setting

Somewhere along the line, NOLOCK got a reputation as the 'go faster' hint. Slap it on, skip the locks, and get your data sooner. What it actually does is set that statement to READ UNCOMMITTED, and that means something very different than just 'faster.'

SELECT CustomerID, Amount
FROM dbo.Orders WITH (NOLOCK);

READ UNCOMMITTED reads rows other transactions have modified but not committed. Those are dirty reads. Values that may never have existed if the other transaction rolls back. But it gets worse than reading the wrong number. Straight from Microsoft: with NOLOCK, rows can appear or disappear in your result set before your statement finishes. During a page split it can skip rows entirely, or hand you the same row twice. You don't get an error. You get a report with bad data. Again, dirty reads. You don't want these.

NOLOCK is not a performance tuning option. If blocking is your real problem, the grown-up answer is to identify and resolve what is causing the blocking. Row versioning is an option, where readers do not request shared locks, and writers do not block readers:

USE master;
ALTER DATABASE YourDBName
SET READ_COMMITTED_SNAPSHOT ON
WITH ROLLBACK IMMEDIATE;

Reach for NOLOCK only when you've decided intentionally that speed beats accuracy. That's a real tradeoff sometimes, and it's almost never the one people think they're making.

Curse 6: The Scalar UDF Hiding in a SELECT

You wrap a little logic in a scalar function because it's tidy and reusable. Then you call it in a SELECT over a million rows, and that tidy little function runs a million times, serially, with the Optimizer mostly blind to what's inside it.

CREATE FUNCTION dbo.udfAmountWithTax (@amt DECIMAL(10,2))
RETURNS DECIMAL(10,2)
AS
BEGIN
    RETURN @amt * 1.08;
END
GO

SELECT OrderID, dbo.udfAmountWithTax(Amount) AS WithTax
FROM dbo.Orders;

Historically this was a guaranteed performance crime with per-row execution and a query that refuses to go parallel. But there is a plot twist. Starting in SQL Server 2019, scalar UDF inlining can fold qualifying functions right into the calling query, so it gets cost-based, set-oriented, and parallel-friendly, with no code change. It's on by default at database compatibility level 150 or higher.

This doesn't remove the curse. It just hides it better. Inlining doesn't catch everything. A function that references certain intrinsics, like GETDATE() or @@ROWCOUNT, can be disqualified and quietly fall back to the old per-row misery. And if you're on an older version, or running an older compatibility level in a newer version, you get none of the magic. The honest fix is to not hide set logic inside a scalar shell. Inline the expression, or use an inline table-valued function the Optimizer can actually see through.

SELECT OrderID, Amount * 1.08 AS WithTax
FROM dbo.Orders;

In Summary

None of the above throw errors. They pass review and run clean until scale, concurrency, or a schema change surfaces them. That's what makes it helpful to know them on sight. The fix is almost always trivial once you spot the shape, and invisible until you do. Now you have six shapes to spot.

More to Read

Data type precedence (Transact-SQL)
SET TRANSACTION ISOLATION LEVEL (Transact-SQL)
Scalar UDF Inlining
Intelligent Query Processing details

Error 7416: When a Security Patch Breaks Your Linked Servers

Microsoft's May 2026 cumulative update for SQL Server 2025 (CU4, KB5089899) did two things on the same day. It closed a remote code execution hole, CVE-2026-40370, and it quietly tightened how the engine validates linked server connections. The first one got the headline. The second one is the one that broke things.

If you run linked servers over the OLE DB Provider for ODBC, ie., MSDASQL, with a provider string, then any login that is not a member of sysadmin can suddenly get bounced. Nothing about your linked server changed. Nothing about your login mappings changed. The query just stops.

Msg 7416, Level 16, State 1, Line 1
Access to the remote server is denied because no login-mapping exists.

Ironically, the same security update that hardened the engine is the one rejecting your connection.

Three Things Have to Be True

The new validation check fires under a specific shape. All of these have to be true:

Condition	Detail
Provider	Linked server uses MSDASQL (OLE DB Provider for ODBC Drivers)
Provider string	The definition specifies '@provstr'
Login	The executing login is NOT in the 'sysadmin' fixed server role

What makes it crazy is that nothing is misconfigured. The linked server is right and the login mappings are right -- but the query still dies. A stricter connection validation check in the Database Engine now rejects connections that earlier builds allowed. Full stop. And since sysadmin logins are exempt from that check, the problem hides from you until a non-sysadmin application login runs a query.

Microsoft does not document the internals beyond calling it a stricter connection validation check, so the honest answer stops at what they assert: the issue hits logins that are not members of the sysadmin fixed server role, it occurs even when the linked server and login mappings are configured correctly, and it is tied to MSDASQL definitions that carry a provider string. The fix is the tell. Adding 'User ID' to '@provstr' clears it, so the check is satisfied once the provider string carries an explicit user credential.

This is not unique to SQL Server 2025. The validation change rolled out across the spring 2026 servicing stream.

Version	Update	KB
SQL Server 2025	CU4 / CU5	KB5089899 / KB5084896
SQL Server 2022	CU25	KB5081477
SQL Server 2019	CU32	KB5090407

SQL Server 2025 CU4 lands the engine at build 17.0.4040.1. If you are at or past these builds and a linked server job started failing in April or May, this is your first suspect.

The Setup That Breaks

Here is the shape that trips the check. An MSDASQL linked server defined with a provider string, queried by a non-sysadmin login.

EXEC master.dbo.sp_addlinkedserver
    @server     = N'ODBC_LINK',
    @srvproduct = N'',
    @provider   = N'MSDASQL',
    @provstr    = N'Driver={ODBC Driver 18 for SQL Server};Server=REMOTESRV;Database=AppDB;';
GO

Run a query against it under a non-sysadmin login and the engine says no right away.

SELECT TOP (10) *
FROM OPENQUERY(ODBC_LINK, 'SELECT * FROM dbo.Orders');
GO

Msg 7416, Level 16, State 1, Line 1
Access to the remote server is denied because no login-mapping exists.

The Fixes

You might be thinking about uninstalling the update, but that update closed an RCE. Rolling it back to fix a linked server is like trading a flat tire for a brake failure. Microsoft documents three workarounds:

1. Add User ID to the provider string

This is the cleanest fix. The login still has to supply 'UID' in the provider string, which is exactly what the stricter check now wants to see. Drop and recreate the linked server with 'User ID' included.

EXEC master.dbo.sp_addlinkedserver
    @server     = N'ODBC_LINK',
    @srvproduct = N'',
    @provider   = N'MSDASQL',
    @provstr    = N'Driver={ODBC Driver 18 for SQL Server};Server=REMOTESRV;Database=AppDB;User ID=AppReader;';
GO

2. Drop @provstr entirely

If the provider string is not pulling its weight, get rid of it. Push the connection target into '@datasrc' and let 'sp_addlinkedsrvlogin' carry the security, instead of stuffing everything into a string the engine now scrutinizes.

EXEC master.dbo.sp_addlinkedserver
    @server     = N'ODBC_LINK',
    @srvproduct = N'',
    @provider   = N'MSDASQL',
    @datasrc    = N'MyOdbcDsn';
GO

EXEC master.dbo.sp_addlinkedsrvlogin
    @rmtsrvname = N'ODBC_LINK',
    @useself    = N'False',
    @locallogin = NULL,
    @rmtuser    = N'AppReader',
    @rmtpassword = N'********';
GO

3. Grant the login sysadmin (not recommended)

It works because sysadmin skips the check. It is also a privilege escalation you are doing to yourself, on purpose, to undo a security patch. Microsoft lists it, then tells you not to do it. Listen to the second half of that sentence.

The Takeaway

Security hardening and 'no changes were made' failures arrive in the same box more often than vendors like to admit. When a linked server that ran for years dies right after a CU, the mappings are usually fine. Check the build, check the provider, and check whether the login carrying the query is a sysadmin or a mere mortal... The fix is very often just a User ID away.

More to Read

SQL Server 2025 Known Issues
SQL Server 2022 Release Notes (workarounds spelled out)
Cumulative Update 4 for SQL Server 2025 (KB5081495)
KB5089899 - Security update for SQL Server 2025 CU4 (CVE-2026-40370)