chain_of_custody_integrity/lib.rs
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use hdi::prelude::*;
pub mod custody_transfer;
pub use custody_transfer::*;
#[derive(Serialize, Deserialize)]
#[serde(tag = "type")]
#[hdk_entry_types]
#[unit_enum(UnitEntryTypes)]
pub enum EntryTypes {
CustodyTransfer(CustodyTransfer),
}
#[derive(Serialize, Deserialize)]
#[hdk_link_types]
pub enum LinkTypes {
ResourceToCustodyTransfers,
CustodyTransferToCustodyTransfers,
}
// Validation you perform during the genesis process. Nobody else on the network performs it, only you.
// There *is no* access to network calls in this callback
#[hdk_extern]
pub fn genesis_self_check(_data: GenesisSelfCheckData) -> ExternResult<ValidateCallbackResult> {
Ok(ValidateCallbackResult::Valid)
}
// Validation the network performs when you try to join, you can't perform this validation yourself as you are not a member yet.
// There *is* access to network calls in this function
pub fn validate_agent_joining(
_agent_pub_key: AgentPubKey,
_membrane_proof: &Option<MembraneProof>,
) -> ExternResult<ValidateCallbackResult> {
Ok(ValidateCallbackResult::Valid)
}
// This is the unified validation callback for all entries and link types in this integrity zome
// Below is a match template for all of the variants of `DHT Ops` and entry and link types
// Holochain has already performed the following validation for you:
// - The action signature matches on the hash of its content and is signed by its author
// - The previous action exists, has a lower timestamp than the new action, and incremented sequence number
// - The previous action author is the same as the new action author
// - The timestamp of each action is after the DNA's origin time
// - AgentActivity authorities check that the agent hasn't forked their chain
// - The entry hash in the action matches the entry content
// - The entry type in the action matches the entry content
// - The entry size doesn't exceed the maximum entry size (currently 4MB)
// - Private entry types are not included in the Op content, and public entry types are
// - If the `Op` is an update or a delete, the original action exists and is a `Create` or `Update` action
// - If the `Op` is an update, the original entry exists and is of the same type as the new one
// - If the `Op` is a delete link, the original action exists and is a `CreateLink` action
// - Link tags don't exceed the maximum tag size (currently 1KB)
// - Countersigned entries include an action from each required signer
// You can read more about validation here: https://docs.rs/hdi/latest/hdi/index.html#data-validation
#[hdk_extern]
pub fn validate(op: Op) -> ExternResult<ValidateCallbackResult> {
match op.flattened::<EntryTypes, LinkTypes>()? {
FlatOp::StoreEntry(store_entry) => match store_entry {
OpEntry::CreateEntry { app_entry, action } => match app_entry {
EntryTypes::CustodyTransfer(custody_transfer) => validate_create_custody_transfer(
EntryCreationAction::Create(action),
custody_transfer,
),
},
OpEntry::UpdateEntry {
app_entry, action, ..
} => match app_entry {
EntryTypes::CustodyTransfer(custody_transfer) => validate_create_custody_transfer(
EntryCreationAction::Update(action),
custody_transfer,
),
},
_ => Ok(ValidateCallbackResult::Valid),
},
FlatOp::RegisterUpdate(update_entry) => match update_entry {
OpUpdate::Entry { app_entry, action } => {
let original_action = must_get_action(action.clone().original_action_address)?
.action()
.to_owned();
let original_create_action = match EntryCreationAction::try_from(original_action) {
Ok(action) => action,
Err(e) => {
return Ok(ValidateCallbackResult::Invalid(format!(
"Expected to get EntryCreationAction from Action: {e:?}"
)));
}
};
match app_entry {
EntryTypes::CustodyTransfer(custody_transfer) => {
let original_app_entry =
must_get_valid_record(action.clone().original_action_address)?;
let original_custody_transfer =
match CustodyTransfer::try_from(original_app_entry) {
Ok(entry) => entry,
Err(e) => {
return Ok(ValidateCallbackResult::Invalid(format!(
"Expected to get CustodyTransfer from Record: {e:?}"
)));
}
};
validate_update_custody_transfer(
action,
custody_transfer,
original_create_action,
original_custody_transfer,
)
}
}
}
_ => Ok(ValidateCallbackResult::Valid),
},
FlatOp::RegisterDelete(delete_entry) => {
let original_action_hash = delete_entry.clone().action.deletes_address;
let original_record = must_get_valid_record(original_action_hash)?;
let original_record_action = original_record.action().clone();
let original_action = match EntryCreationAction::try_from(original_record_action) {
Ok(action) => action,
Err(e) => {
return Ok(ValidateCallbackResult::Invalid(format!(
"Expected to get EntryCreationAction from Action: {e:?}"
)));
}
};
let app_entry_type = match original_action.entry_type() {
EntryType::App(app_entry_type) => app_entry_type,
_ => {
return Ok(ValidateCallbackResult::Valid);
}
};
let entry = match original_record.entry().as_option() {
Some(entry) => entry,
None => {
return Ok(ValidateCallbackResult::Invalid(
"Original record for a delete must contain an entry".to_string(),
));
}
};
let original_app_entry = match EntryTypes::deserialize_from_type(
app_entry_type.zome_index,
app_entry_type.entry_index,
entry,
)? {
Some(app_entry) => app_entry,
None => {
return Ok(ValidateCallbackResult::Invalid(
"Original app entry must be one of the defined entry types for this zome"
.to_string(),
));
}
};
match original_app_entry {
EntryTypes::CustodyTransfer(original_custody_transfer) => {
validate_delete_custody_transfer(
delete_entry.clone().action,
original_action,
original_custody_transfer,
)
}
}
}
FlatOp::RegisterCreateLink {
link_type,
base_address,
target_address,
tag,
action,
} => match link_type {
LinkTypes::ResourceToCustodyTransfers => {
validate_create_link_resource_to_custody_transfers(
action,
base_address,
target_address,
tag,
)
}
LinkTypes::CustodyTransferToCustodyTransfers => {
validate_create_link_custody_transfer_to_custody_transfers(
action,
base_address,
target_address,
tag,
)
}
},
FlatOp::RegisterDeleteLink {
link_type,
base_address,
target_address,
tag,
original_action,
action,
} => match link_type {
LinkTypes::ResourceToCustodyTransfers => {
validate_delete_link_resource_to_custody_transfers(
action,
original_action,
base_address,
target_address,
tag,
)
}
LinkTypes::CustodyTransferToCustodyTransfers => {
validate_delete_link_custody_transfer_to_custody_transfers(
action,
original_action,
base_address,
target_address,
tag,
)
}
},
FlatOp::StoreRecord(store_record) => {
match store_record {
// Complementary validation to the `StoreEntry` Op, in which the record itself is validated
// If you want to optimize performance, you can remove the validation for an entry type here and keep it in `StoreEntry`
// Notice that doing so will cause `must_get_valid_record` for this record to return a valid record even if the `StoreEntry` validation failed
OpRecord::CreateEntry { app_entry, action } => match app_entry {
EntryTypes::CustodyTransfer(custody_transfer) => {
validate_create_custody_transfer(
EntryCreationAction::Create(action),
custody_transfer,
)
}
},
// Complementary validation to the `RegisterUpdate` Op, in which the record itself is validated
// If you want to optimize performance, you can remove the validation for an entry type here and keep it in `StoreEntry` and in `RegisterUpdate`
// Notice that doing so will cause `must_get_valid_record` for this record to return a valid record even if the other validations failed
OpRecord::UpdateEntry {
original_action_hash,
app_entry,
action,
..
} => {
let original_record = must_get_valid_record(original_action_hash)?;
let original_action = original_record.action().clone();
let original_action = match original_action {
Action::Create(create) => EntryCreationAction::Create(create),
Action::Update(update) => EntryCreationAction::Update(update),
_ => {
return Ok(ValidateCallbackResult::Invalid(
"Original action for an update must be a Create or Update action"
.to_string(),
));
}
};
match app_entry {
EntryTypes::CustodyTransfer(custody_transfer) => {
let result = validate_create_custody_transfer(
EntryCreationAction::Update(action.clone()),
custody_transfer.clone(),
)?;
if let ValidateCallbackResult::Valid = result {
let original_custody_transfer: Option<CustodyTransfer> =
original_record
.entry()
.to_app_option()
.map_err(|e| wasm_error!(e))?;
let original_custody_transfer = match original_custody_transfer {
Some(custody_transfer) => custody_transfer,
None => {
return Ok(
ValidateCallbackResult::Invalid(
"The updated entry type must be the same as the original entry type"
.to_string(),
),
);
}
};
validate_update_custody_transfer(
action,
custody_transfer,
original_action,
original_custody_transfer,
)
} else {
Ok(result)
}
}
}
}
// Complementary validation to the `RegisterDelete` Op, in which the record itself is validated
// If you want to optimize performance, you can remove the validation for an entry type here and keep it in `RegisterDelete`
// Notice that doing so will cause `must_get_valid_record` for this record to return a valid record even if the `RegisterDelete` validation failed
OpRecord::DeleteEntry {
original_action_hash,
action,
..
} => {
let original_record = must_get_valid_record(original_action_hash)?;
let original_action = original_record.action().clone();
let original_action = match original_action {
Action::Create(create) => EntryCreationAction::Create(create),
Action::Update(update) => EntryCreationAction::Update(update),
_ => {
return Ok(ValidateCallbackResult::Invalid(
"Original action for a delete must be a Create or Update action"
.to_string(),
));
}
};
let app_entry_type = match original_action.entry_type() {
EntryType::App(app_entry_type) => app_entry_type,
_ => {
return Ok(ValidateCallbackResult::Valid);
}
};
let entry = match original_record.entry().as_option() {
Some(entry) => entry,
None => {
return Ok(ValidateCallbackResult::Invalid(
"Original record for a delete must contain an entry".to_string(),
));
}
};
let original_app_entry = match EntryTypes::deserialize_from_type(
app_entry_type.zome_index,
app_entry_type.entry_index,
entry,
)? {
Some(app_entry) => app_entry,
None => {
return Ok(
ValidateCallbackResult::Invalid(
"Original app entry must be one of the defined entry types for this zome"
.to_string(),
),
);
}
};
match original_app_entry {
EntryTypes::CustodyTransfer(original_custody_transfer) => {
validate_delete_custody_transfer(
action,
original_action,
original_custody_transfer,
)
}
}
}
// Complementary validation to the `RegisterCreateLink` Op, in which the record itself is validated
// If you want to optimize performance, you can remove the validation for an entry type here and keep it in `RegisterCreateLink`
// Notice that doing so will cause `must_get_valid_record` for this record to return a valid record even if the `RegisterCreateLink` validation failed
OpRecord::CreateLink {
base_address,
target_address,
tag,
link_type,
action,
} => match link_type {
LinkTypes::ResourceToCustodyTransfers => {
validate_create_link_resource_to_custody_transfers(
action,
base_address,
target_address,
tag,
)
}
LinkTypes::CustodyTransferToCustodyTransfers => {
validate_create_link_custody_transfer_to_custody_transfers(
action,
base_address,
target_address,
tag,
)
}
},
// Complementary validation to the `RegisterDeleteLink` Op, in which the record itself is validated
// If you want to optimize performance, you can remove the validation for an entry type here and keep it in `RegisterDeleteLink`
// Notice that doing so will cause `must_get_valid_record` for this record to return a valid record even if the `RegisterDeleteLink` validation failed
OpRecord::DeleteLink {
original_action_hash,
base_address,
action,
} => {
let record = must_get_valid_record(original_action_hash)?;
let create_link = match record.action() {
Action::CreateLink(create_link) => create_link.clone(),
_ => {
return Ok(ValidateCallbackResult::Invalid(
"The action that a DeleteLink deletes must be a CreateLink"
.to_string(),
));
}
};
let link_type = match LinkTypes::from_type(
create_link.zome_index,
create_link.link_type,
)? {
Some(lt) => lt,
None => {
return Ok(ValidateCallbackResult::Valid);
}
};
match link_type {
LinkTypes::ResourceToCustodyTransfers => {
validate_delete_link_resource_to_custody_transfers(
action,
create_link.clone(),
base_address,
create_link.target_address,
create_link.tag,
)
}
LinkTypes::CustodyTransferToCustodyTransfers => {
validate_delete_link_custody_transfer_to_custody_transfers(
action,
create_link.clone(),
base_address,
create_link.target_address,
create_link.tag,
)
}
}
}
OpRecord::CreatePrivateEntry { .. } => Ok(ValidateCallbackResult::Valid),
OpRecord::UpdatePrivateEntry { .. } => Ok(ValidateCallbackResult::Valid),
OpRecord::CreateCapClaim { .. } => Ok(ValidateCallbackResult::Valid),
OpRecord::CreateCapGrant { .. } => Ok(ValidateCallbackResult::Valid),
OpRecord::UpdateCapClaim { .. } => Ok(ValidateCallbackResult::Valid),
OpRecord::UpdateCapGrant { .. } => Ok(ValidateCallbackResult::Valid),
OpRecord::Dna { .. } => Ok(ValidateCallbackResult::Valid),
OpRecord::OpenChain { .. } => Ok(ValidateCallbackResult::Valid),
OpRecord::CloseChain { .. } => Ok(ValidateCallbackResult::Valid),
OpRecord::InitZomesComplete { .. } => Ok(ValidateCallbackResult::Valid),
_ => Ok(ValidateCallbackResult::Valid),
}
}
FlatOp::RegisterAgentActivity(agent_activity) => match agent_activity {
OpActivity::CreateAgent { agent, action } => {
let previous_action = must_get_action(action.prev_action)?;
match previous_action.action() {
Action::AgentValidationPkg(
AgentValidationPkg { membrane_proof, .. },
) => validate_agent_joining(agent, membrane_proof),
_ => {
Ok(
ValidateCallbackResult::Invalid(
"The previous action for a `CreateAgent` action must be an `AgentValidationPkg`"
.to_string(),
),
)
}
}
}
_ => Ok(ValidateCallbackResult::Valid),
},
}
}