Part of the CustodyStress archive of observed Bitcoin custody incidents

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CS-00027

MyBitcoin.com Custody Collapse (July 2011): 78,747 BTC Lost, Partial Refund, Operator Never Identified

Blocked

Custodial platform became inaccessible — the holder had no independent key control.

Case description

MyBitcoin.com, launched in 2010, became one of the first popular custodial Bitcoin web wallet services at a time when hardware wallets did not exist and self-custody required significant technical skill. The platform attracted deposits during the April-to-July 2011 bull run, when Bitcoin prices surged and mainstream media attention drove new users toward perceived ease-of-use solutions. By late July 2011, MyBitcoin held approximately 154,406 BTC in aggregate user deposits.

On July 29, 2011, the platform went offline without warning or communication. Weeks of silence followed, fueling accusations that the operator had executed an exit scam. The anonymous operator, identified only as 'Tom Williams,' eventually returned with an 'incident report' claiming hackers had exploited a single-block confirmation vulnerability to drain funds. The report stated 51% of custodied Bitcoin — approximately 78,747 BTC — was missing.

Partial refunds of 49% were subsequently issued to affected users. The service then disappeared permanently, and the true identity of Tom Williams was never established. Bruce Wagner, a prominent Bitcoin advocate, publicly documented his loss of 25,000 BTC on The Bitcoin Show. Community investigators in the #bitcoin-police IRC channel linked the incident to individuals believed to be based in Canada, though no criminal charges were ever filed.

In 2025, blockchain analysts identified 80,000 BTC dormant since April 2011 in wallets previously hosted by MyBitcoin, which appeared to surface in a $1.6 billion Galaxy Digital transaction — suggesting the 'stolen' coins may have been recovered or liquidated 14 years later. The incident became canonical evidence of custodial platform risk and was cited by Stephen Gornick as one of the three largest Bitcoin losses of the early era.

Custody context

Stress condition	Vendor lockout
Custody system	Exchange custody
Outcome	Blocked
Documentation	Partial
Year observed	2011
Country	unknown

Structural dependencies observed

Single Person Knowledge Institutional cooperation required

What this illustrates

Only one person knew how the setup worked — and that person wasn't available. Exchange custody eliminates key management complexity but replaces it with platform dependency. The holder does not control private keys — access runs entirely through the platform. Custodial arrangements shift the locus of control from the holder to the institution. When the institution becomes unavailable — through insolvency, regulatory action, or policy change — so does access. There were some notes, but not enough to actually complete the recovery. Partial documentation creates a false sense of preparedness — enough detail to indicate a path exists, but not enough to follow it through. A blocked outcome in this archive means that no path to authorized access was found under the conditions documented.

Why this matters

Why custodial Bitcoin fails differently than self-custody

Vendor lockout cases follow a pattern that is structurally different from all other stress conditions in the archive. In self-custody failures, the problem is credentials — missing keys, forgotten passphrases, undiscovered backups. In vendor lockout, the credentials are often intact. The problem is that the institution that was supposed to honor them is no longer accessible.

Exchange custody transfers the custody problem from the holder to the institution. The holder no longer needs to manage seed phrases, maintain hardware, or understand cryptographic concepts. They need only to maintain their account. This simplicity has a cost: the holder no longer controls the private keys. Access depends entirely on the continued operational, financial, and regulatory health of the exchange.

Cases in this archive show that exchange failures cluster around specific event types: bankruptcy and insolvency, regulatory seizure, geographic sanctions, and account-level access failures (lost 2FA, forgotten email credentials). Each event type has a different recovery path and a different timeline. Bankruptcy proceedings typically take 6-24 months and produce partial recovery. Regulatory seizure timelines depend on legal process. Account access failures may be resolvable through platform support or may not.

The distinguishing feature of vendor lockout cases is that recovery — when it occurs — happens through processes the holder did not design and cannot control. They become claimants in a process rather than holders of an asset.

How this category of failure is typically preventable

The primary protection against vendor lockout is not using a vendor for custody beyond what is needed operationally. Holdings intended to be stored long-term are most exposed to institutional risk. Exchange custody is well-suited for active trading and conversion; it is poorly suited for long-term storage of significant value. Moving Bitcoin off exchange into self-custody eliminates platform dependency at the cost of taking on personal custody responsibility.

Frequently asked questions

What happens to Bitcoin if the exchange goes bankrupt?

Bankruptcy freezes customer assets during proceedings. Account holders typically cannot withdraw during this period. Depending on the jurisdiction, exchange custody, and bankruptcy structure, customers may recover some or all of their Bitcoin through the bankruptcy process — but this takes months to years, requires filing claims, and frequently results in partial recovery. Cases where the exchange operated with insufficient reserves produce the worst outcomes.

Is Bitcoin on an exchange safe?

Exchange-held Bitcoin carries platform dependency risk that self-custody does not. The exchange controls the private keys, not the holder. Platform insolvency, regulatory action, account freezes, or technical failures can all restrict access. The phrase "not your keys, not your coins" reflects this: without controlling the private keys, the holder depends entirely on the continued operation of the exchange.

Can an exchange freeze or block access to Bitcoin?

Yes. Exchanges can restrict access due to regulatory compliance requirements, suspicious activity flags, identity verification failures, sanctions compliance, court orders, or their own technical or financial problems. Self-custody Bitcoin cannot be frozen by a third party — it can only be moved by whoever holds the private keys. Exchange custody eliminates this property.

Source

Publicly Reported

Evidence link

https://siliconangle.com/2011/08/05/who-is-tom-williams-mybitcoin-com-reappears-with-statement-claiming-site-was-hacked/

Most structurally similar case

Intersango Exchange Collapse: 2000 BTC User Funds Retained by Operator — Norman v. Strateman

Vendor lockout · Exchange custody · 2012 Blocked

Related cases

Structural patterns in this case

Exchange bankruptcy

193 cases involve vendor lockout 265 cases involve exchange custody View archive statistics →

This archive documents observed custody survivability failures. It does not attempt to document all Bitcoin losses or security incidents. Submit a case

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Framework references

Where Bitcoin Custody Intersects Legal and Fiduciary Authority

Where custody creates gaps in estate planning, fiduciary duty, and professional responsibility.

Professional Scope Boundary Matrix

What each professional or product covers, what they do not, and where gaps form between them.

The Independent Assessment Layer in Bitcoin Custody

How independent diagnostic layers emerge when multiple parties depend on shared infrastructure.

This archive documents cases where a legitimate owner, heir, or authorized party encountered barriers accessing or recovering Bitcoin due to a failure in the custody arrangement. The central question for inclusion is: did the custody structure fail a legitimate access or recovery attempt?

A case must satisfy all three of the following to be included:

Legitimate access attempt. The person attempting to access or recover the Bitcoin was the owner, a designated heir, an executor, a legal authority, or another party with a legitimate claim — not a thief, attacker, or unauthorized third party.
Custody structure failure. The failure was caused by a property of the custody arrangement — missing credentials, structural dependencies, documentation gaps, knowledge concentration, legal barriers, or institutional constraints — not market conditions, individual-level fraud or theft, or protocol-level issues. Platform-level failures that block legitimate user access are in scope regardless of their cause.
Documentable outcome or access constraint. The case must have a stated or inferable outcome: access blocked, access constrained, access delayed, or access eventually achieved through a recovery path. Cases with entirely unknown outcomes are included only where the structural failure is documented and the constraint is unambiguous.

Owner death or incapacity — Bitcoin held in self-custody that becomes inaccessible to heirs or designated parties because credentials, documentation, or operational knowledge were not transferred
Passphrase loss — BIP39 passphrase forgotten or unavailable, blocking access to a funded wallet even where the seed phrase is present
Seed phrase or wallet backup unavailable — no independent recovery path existed or the backup was destroyed, lost, or never created
Device loss without independent backup — hardware wallet, phone, or computer lost or destroyed with no recovery path outside the device
Documentation absent or ambiguous — heirs or executors cannot determine that Bitcoin exists, which wallet holds it, or how to access it
Knowledge concentration — only one person knew the procedure, passphrase, or access method; that person is dead, incapacitated, or unreachable
Multisig quorum failure — a threshold signature arrangement cannot be completed because signers are unavailable, uncooperative, incapacitated, or have lost their keys
Legal authority / access mismatch — a court order, probate ruling, or power of attorney establishes legal entitlement but provides no technical path to access
Institutional custody barrier — exchange or platform hacks, insolvency, regulatory seizure, or operational failure that caused a access constraint or failure for legitimate users, whether temporary, prolonged, or permanent. The failure of the custodian to remain available or solvent is itself the in-scope event.
Forced relocation or geographic constraint — physical access to a device or location required for recovery is blocked by displacement, border restrictions, or political circumstances
Coercion — the holder was compelled under threat to transfer Bitcoin or disclose credentials during an access event
Hidden asset discovery — heirs or executors locate a wallet or account but cannot access it due to missing credentials or operational knowledge

Market losses, investment losses, yield scheme losses, or Ponzi scheme losses
Hacks or theft targeting an individual's personal security (phishing, SIM swap, social engineering, malware) where the custody architecture itself did not fail
Unauthorized transfers where the holder's custody system was not the cause of the failure
Ordinary transaction mistakes — wrong-address sends, fee errors, mistaken amounts
Protocol-level failures — cryptographic vulnerabilities, consensus bugs, firmware integrity failures
Deliberate burns or tribute burns
Cases where the stated loss is unverifiable and no structural custody failure is described

Cases are drawn from public sources including forum posts, news reporting, court documents, academic research, and direct submissions. Each case is reviewed against the inclusion criteria above before publication. Source material is retained and available on request for documented cases.

The archive is observational and descriptive. It does not attempt to document all Bitcoin custody failures — only those meeting the criteria above with sufficient documentation to describe the structural failure and its outcome.