nim-codex/tests/codex/sales/testslotqueue.nim

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Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
import std/sequtils
import pkg/chronos
import pkg/datastore
import pkg/questionable
import pkg/questionable/results
feat: create logging proxy (#663) * implement a logging proxy The logging proxy: - prevents the need to import chronicles (as well as export except toJson), - prevents the need to override `writeValue` or use or import nim-json-seralization elsewhere in the codebase, allowing for sole use of utils/json for de/serialization, - and handles json formatting correctly in chronicles json sinks * Rename logging -> logutils to avoid ambiguity with common names * clean up * add setProperty for JsonRecord, remove nim-json-serialization conflict * Allow specifying textlines and json format separately Not specifying a LogFormat will apply the formatting to both textlines and json sinks. Specifying a LogFormat will apply the formatting to only that sink. * remove unneeded usages of std/json We only need to import utils/json instead of std/json * move serialization from rest/json to utils/json so it can be shared * fix NoColors ambiguity Was causing unit tests to fail on Windows. * Remove nre usage to fix Windows error Windows was erroring with `could not load: pcre64.dll`. Instead of fixing that error, remove the pcre usage :) * Add logutils module doc * Shorten logutils.formatIt for `NBytes` Both json and textlines formatIt were not needed, and could be combined into one formatIt * remove debug integration test config debug output and logformat of json for integration test logs * Use ## module doc to support docgen * bump nim-poseidon2 to export fromBytes Before the changes in this branch, fromBytes was likely being resolved by nim-stew, or other dependency. With the changes in this branch, that dependency was removed and fromBytes could no longer be resolved. By exporting fromBytes from nim-poseidon, the correct resolution is now happening. * fixes to get compiling after rebasing master * Add support for Result types being logged using formatIt
2024-01-23 07:35:03 +00:00
import pkg/codex/logutils
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
import pkg/codex/sales/slotqueue
import ../../asynctest
import ../helpers
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
import ../helpers/mockmarket
feat[marketplace]: add slot queue pausing (#752) * add seen flag * Add MockSlotQueueItem and better prioritisation tests * Update seen priority, and include in SlotQueueItem.init * Re-add processed slots to queue Re-add processed slots to queue if the sale was ignored or errored * add pausing of queue - when processing slots in queue, pause queue if item was marked seen - if availability size is increased, trigger onAvailabilityAdded callback - in sales, on availability added, clear 'seen' flags, then unpause the queue - when items pushed to the queue, unpause the queue * remove unused NoMatchingAvailabilityError from slotqueue The slot queue should also have nothing to do with availabilities * when all availabilities are empty, pause the queue An empty availability is defined as size < DefaultBlockSize as this means even the smallest possible request could not be served. However, this is up for discussion. * remove availability from onAvailabilitiesEmptied callback * refactor onAvailabilityAdded and onAvailabilitiesEmptied onAvailabilityAdded and onAvailabilitiesEmptied are now only called from reservations.update (and eventually reservations.delete once implemented). - Add empty routine for Availability and Reservation - Add allEmpty routine for Availability and Reservation, which returns true when all all Availability or Reservation objects in the datastore are empty. * SlotQueue test support updates * Sales module test support updates * Reservations module tests for queue pausing * Sales module tests for queue pausing Includes tests for sales states cancelled, errored, ignored to ensure onCleanUp is called with correct parameters * SlotQueue module tests for queue pausing * fix existing sales test * PR feedback - indent `self.unpause` - update comment for `clearSeenFlags` * reprocessSlot in SaleErrored only when coming from downloading * remove pausing of queue when availabilities are "emptied" Queue pausing when all availiabilies are "emptied" is not necessary, given that the node would not be able to service slots once all its availabilities' freeSize are too small for the slots in the queue, and would then be paused anyway. Add test that asserts the queue is paused once the freeSpace of availabilities drops too low to fill slots in the queue. * Update clearing of seen flags The asyncheapqueue update overload would need to check index bounds and ultimately a different solution was found using the mitems iterator. * fix test request.id was different before updating request.ask.slots, and that id was used to set the state in mockmarket. * Change filled/cleanup future to nil, so no await is needed * add wait to allow items to be added to queue * do not unpause queue when seen items are pushed * re-add seen item back to queue once paused Previously, when a seen item was processed, it was first popped off the queue, then the queue was paused waiting to process that item once the queue was unpaused. Now, when a seen item is processed, it is popped off the queue, the queue is paused, then the item is re-added to the queue and the queue will wait until unpaused before it will continue popping items off the queue. If the item was not re-added to the queue, it would have been processed immediately once unpaused, however there may have been other items with higher priority pushed to the queue in the meantime. The queue would not be unpaused if those added items were already seen. In particular, this may happen when ignored items due to lack of availability are re-added to a paused queue. Those ignored items will likely have a higher priority than the item that was just seen (due to it having been processed first), causing the queue to the be paused. * address PR comments
2024-05-26 00:38:38 +00:00
import ../helpers/mockslotqueueitem
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
import ../examples
suite "Slot queue start/stop":
var queue: SlotQueue
setup:
queue = SlotQueue.new()
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
teardown:
await queue.stop()
test "starts out not running":
check not queue.running
test "can call start multiple times, and when already running":
asyncSpawn queue.start()
asyncSpawn queue.start()
check queue.running
test "can call stop when alrady stopped":
await queue.stop()
check not queue.running
test "can call stop when running":
asyncSpawn queue.start()
await queue.stop()
check not queue.running
test "can call stop multiple times":
asyncSpawn queue.start()
await queue.stop()
await queue.stop()
check not queue.running
suite "Slot queue workers":
var queue: SlotQueue
proc onProcessSlot(item: SlotQueueItem, doneProcessing: Future[void]) {.async.} =
await sleepAsync(1000.millis)
# this is not illustrative of the realistic scenario as the
# `doneProcessing` future would be passed to another context before being
# completed and therefore is not as simple as making the callback async
doneProcessing.complete()
setup:
let request = StorageRequest.example
queue = SlotQueue.new(maxSize = 5, maxWorkers = 3)
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
queue.onProcessSlot = onProcessSlot
proc startQueue = asyncSpawn queue.start()
teardown:
await queue.stop()
test "activeWorkers should be 0 when not running":
check queue.activeWorkers == 0
test "maxWorkers cannot be 0":
expect ValueError:
discard SlotQueue.new(maxSize = 1, maxWorkers = 0)
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
test "maxWorkers cannot surpass maxSize":
expect ValueError:
discard SlotQueue.new(maxSize = 1, maxWorkers = 2)
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
test "does not surpass max workers":
startQueue()
let item1 = SlotQueueItem.example
let item2 = SlotQueueItem.example
let item3 = SlotQueueItem.example
let item4 = SlotQueueItem.example
check queue.push(item1).isOk
check queue.push(item2).isOk
check queue.push(item3).isOk
check queue.push(item4).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
check eventually queue.activeWorkers == 3
test "discards workers once processing completed":
proc processSlot(item: SlotQueueItem, done: Future[void]) {.async.} =
await sleepAsync(1.millis)
done.complete()
queue.onProcessSlot = processSlot
startQueue()
let item1 = SlotQueueItem.example
let item2 = SlotQueueItem.example
let item3 = SlotQueueItem.example
let item4 = SlotQueueItem.example
check queue.push(item1).isOk # finishes after 1.millis
check queue.push(item2).isOk # finishes after 1.millis
check queue.push(item3).isOk # finishes after 1.millis
check queue.push(item4).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
check eventually queue.activeWorkers == 1
suite "Slot queue":
var onProcessSlotCalled = false
var onProcessSlotCalledWith: seq[(RequestId, uint16)]
var queue: SlotQueue
var paused: bool
proc newSlotQueue(maxSize, maxWorkers: int, processSlotDelay = 1.millis) =
queue = SlotQueue.new(maxWorkers, maxSize.uint16)
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
queue.onProcessSlot = proc(item: SlotQueueItem, done: Future[void]) {.async.} =
await sleepAsync(processSlotDelay)
onProcessSlotCalled = true
onProcessSlotCalledWith.add (item.requestId, item.slotIndex)
done.complete()
asyncSpawn queue.start()
setup:
onProcessSlotCalled = false
onProcessSlotCalledWith = @[]
teardown:
paused = false
await queue.stop()
test "starts out empty":
newSlotQueue(maxSize = 2, maxWorkers = 2)
check queue.len == 0
check $queue == "[]"
test "reports correct size":
newSlotQueue(maxSize = 2, maxWorkers = 2)
check queue.size == 2
test "correctly compares SlotQueueItems":
var requestA = StorageRequest.example
requestA.ask.duration = 1.u256
requestA.ask.reward = 1.u256
check requestA.ask.pricePerSlot == 1.u256
requestA.ask.collateral = 100000.u256
requestA.expiry = 1001.u256
var requestB = StorageRequest.example
requestB.ask.duration = 100.u256
requestB.ask.reward = 1000.u256
check requestB.ask.pricePerSlot == 100000.u256
requestB.ask.collateral = 1.u256
requestB.expiry = 1000.u256
let itemA = SlotQueueItem.init(requestA, 0)
let itemB = SlotQueueItem.init(requestB, 0)
check itemB < itemA # B higher priority than A
check itemA > itemB
feat[marketplace]: add slot queue pausing (#752) * add seen flag * Add MockSlotQueueItem and better prioritisation tests * Update seen priority, and include in SlotQueueItem.init * Re-add processed slots to queue Re-add processed slots to queue if the sale was ignored or errored * add pausing of queue - when processing slots in queue, pause queue if item was marked seen - if availability size is increased, trigger onAvailabilityAdded callback - in sales, on availability added, clear 'seen' flags, then unpause the queue - when items pushed to the queue, unpause the queue * remove unused NoMatchingAvailabilityError from slotqueue The slot queue should also have nothing to do with availabilities * when all availabilities are empty, pause the queue An empty availability is defined as size < DefaultBlockSize as this means even the smallest possible request could not be served. However, this is up for discussion. * remove availability from onAvailabilitiesEmptied callback * refactor onAvailabilityAdded and onAvailabilitiesEmptied onAvailabilityAdded and onAvailabilitiesEmptied are now only called from reservations.update (and eventually reservations.delete once implemented). - Add empty routine for Availability and Reservation - Add allEmpty routine for Availability and Reservation, which returns true when all all Availability or Reservation objects in the datastore are empty. * SlotQueue test support updates * Sales module test support updates * Reservations module tests for queue pausing * Sales module tests for queue pausing Includes tests for sales states cancelled, errored, ignored to ensure onCleanUp is called with correct parameters * SlotQueue module tests for queue pausing * fix existing sales test * PR feedback - indent `self.unpause` - update comment for `clearSeenFlags` * reprocessSlot in SaleErrored only when coming from downloading * remove pausing of queue when availabilities are "emptied" Queue pausing when all availiabilies are "emptied" is not necessary, given that the node would not be able to service slots once all its availabilities' freeSize are too small for the slots in the queue, and would then be paused anyway. Add test that asserts the queue is paused once the freeSpace of availabilities drops too low to fill slots in the queue. * Update clearing of seen flags The asyncheapqueue update overload would need to check index bounds and ultimately a different solution was found using the mitems iterator. * fix test request.id was different before updating request.ask.slots, and that id was used to set the state in mockmarket. * Change filled/cleanup future to nil, so no await is needed * add wait to allow items to be added to queue * do not unpause queue when seen items are pushed * re-add seen item back to queue once paused Previously, when a seen item was processed, it was first popped off the queue, then the queue was paused waiting to process that item once the queue was unpaused. Now, when a seen item is processed, it is popped off the queue, the queue is paused, then the item is re-added to the queue and the queue will wait until unpaused before it will continue popping items off the queue. If the item was not re-added to the queue, it would have been processed immediately once unpaused, however there may have been other items with higher priority pushed to the queue in the meantime. The queue would not be unpaused if those added items were already seen. In particular, this may happen when ignored items due to lack of availability are re-added to a paused queue. Those ignored items will likely have a higher priority than the item that was just seen (due to it having been processed first), causing the queue to the be paused. * address PR comments
2024-05-26 00:38:38 +00:00
test "correct prioritizes SlotQueueItems based on 'seen'":
let request = StorageRequest.example
let itemA = MockSlotQueueItem(
requestId: request.id,
slotIndex: 0,
slotSize: 1.u256,
duration: 1.u256,
reward: 2.u256, # profitability is higher (good)
collateral: 1.u256,
expiry: 1.u256,
seen: true # seen (bad), more weight than profitability
)
let itemB = MockSlotQueueItem(
requestId: request.id,
slotIndex: 0,
slotSize: 1.u256,
duration: 1.u256,
reward: 1.u256, # profitability is lower (bad)
collateral: 1.u256,
expiry: 1.u256,
seen: false # not seen (good)
)
check itemB.toSlotQueueItem < itemA.toSlotQueueItem # B higher priority than A
check itemA.toSlotQueueItem > itemB.toSlotQueueItem
test "correct prioritizes SlotQueueItems based on profitability":
let request = StorageRequest.example
let itemA = MockSlotQueueItem(
requestId: request.id,
slotIndex: 0,
slotSize: 1.u256,
duration: 1.u256,
reward: 1.u256, # reward is lower (bad)
collateral: 1.u256, # collateral is lower (good)
expiry: 1.u256,
seen: false
)
let itemB = MockSlotQueueItem(
requestId: request.id,
slotIndex: 0,
slotSize: 1.u256,
duration: 1.u256,
reward: 2.u256, # reward is higher (good), more weight than collateral
collateral: 2.u256, # collateral is higher (bad)
expiry: 1.u256,
seen: false
)
check itemB.toSlotQueueItem < itemA.toSlotQueueItem # < indicates higher priority
test "correct prioritizes SlotQueueItems based on collateral":
let request = StorageRequest.example
let itemA = MockSlotQueueItem(
requestId: request.id,
slotIndex: 0,
slotSize: 1.u256,
duration: 1.u256,
reward: 1.u256,
collateral: 2.u256, # collateral is higher (bad)
expiry: 2.u256, # expiry is longer (good)
seen: false
)
let itemB = MockSlotQueueItem(
requestId: request.id,
slotIndex: 0,
slotSize: 1.u256,
duration: 1.u256,
reward: 1.u256,
collateral: 1.u256, # collateral is lower (good), more weight than expiry
expiry: 1.u256, # expiry is shorter (bad)
seen: false
)
check itemB.toSlotQueueItem < itemA.toSlotQueueItem # < indicates higher priority
test "correct prioritizes SlotQueueItems based on expiry":
let request = StorageRequest.example
let itemA = MockSlotQueueItem(
requestId: request.id,
slotIndex: 0,
slotSize: 1.u256, # slotSize is smaller (good)
duration: 1.u256,
reward: 1.u256,
collateral: 1.u256,
expiry: 1.u256, # expiry is shorter (bad)
seen: false
)
let itemB = MockSlotQueueItem(
requestId: request.id,
slotIndex: 0,
slotSize: 2.u256, # slotSize is larger (bad)
duration: 1.u256,
reward: 1.u256,
collateral: 1.u256,
expiry: 2.u256, # expiry is longer (good), more weight than slotSize
seen: false
)
check itemB.toSlotQueueItem < itemA.toSlotQueueItem # < indicates higher priority
test "correct prioritizes SlotQueueItems based on slotSize":
let request = StorageRequest.example
let itemA = MockSlotQueueItem(
requestId: request.id,
slotIndex: 0,
slotSize: 2.u256, # slotSize is larger (bad)
duration: 1.u256,
reward: 1.u256,
collateral: 1.u256,
expiry: 1.u256, # expiry is shorter (bad)
seen: false
)
let itemB = MockSlotQueueItem(
requestId: request.id,
slotIndex: 0,
slotSize: 1.u256, # slotSize is smaller (good)
duration: 1.u256,
reward: 1.u256,
collateral: 1.u256,
expiry: 1.u256,
seen: false
)
check itemB.toSlotQueueItem < itemA.toSlotQueueItem # < indicates higher priority
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
test "expands available all possible slot indices on init":
let request = StorageRequest.example
let items = SlotQueueItem.init(request)
check items.len.uint64 == request.ask.slots
var checked = 0
for slotIndex in 0'u16..<request.ask.slots.uint16:
check items.anyIt(it == SlotQueueItem.init(request, slotIndex))
inc checked
check checked == items.len
test "can process items":
newSlotQueue(maxSize = 2, maxWorkers = 2)
let item1 = SlotQueueItem.example
let item2 = SlotQueueItem.example
check queue.push(item1).isOk
check queue.push(item2).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
check eventually onProcessSlotCalledWith == @[
(item1.requestId, item1.slotIndex),
(item2.requestId, item2.slotIndex)
]
test "can push items past number of maxWorkers":
newSlotQueue(maxSize = 2, maxWorkers = 2)
let item0 = SlotQueueItem.example
let item1 = SlotQueueItem.example
let item2 = SlotQueueItem.example
let item3 = SlotQueueItem.example
let item4 = SlotQueueItem.example
check isOk queue.push(item0)
check isOk queue.push(item1)
check isOk queue.push(item2)
check isOk queue.push(item3)
check isOk queue.push(item4)
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
test "populates item with exisiting request metadata":
newSlotQueue(maxSize = 8, maxWorkers = 1, processSlotDelay = 10.millis)
let request0 = StorageRequest.example
var request1 = StorageRequest.example
request1.ask.collateral += 1.u256
let items0 = SlotQueueItem.init(request0)
let items1 = SlotQueueItem.init(request1)
check queue.push(items0).isOk
check queue.push(items1).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
let populated = !queue.populateItem(request1.id, 12'u16)
check populated.requestId == request1.id
check populated.slotIndex == 12'u16
check populated.slotSize == request1.ask.slotSize
check populated.duration == request1.ask.duration
check populated.reward == request1.ask.reward
check populated.collateral == request1.ask.collateral
test "does not find exisiting request metadata":
newSlotQueue(maxSize = 2, maxWorkers = 2)
let item = SlotQueueItem.example
check queue.populateItem(item.requestId, 12'u16).isNone
test "can support uint16.high slots":
var request = StorageRequest.example
let maxUInt16 = uint16.high
let uint64Slots = uint64(maxUInt16)
request.ask.slots = uint64Slots
let items = SlotQueueItem.init(request.id, request.ask, request.expiry)
check items.len.uint16 == maxUInt16
test "cannot support greater than uint16.high slots":
var request = StorageRequest.example
let int32Slots = uint16.high.int32 + 1
let uint64Slots = uint64(int32Slots)
request.ask.slots = uint64Slots
expect SlotsOutOfRangeError:
discard SlotQueueItem.init(request.id, request.ask, request.expiry)
test "cannot push duplicate items":
newSlotQueue(maxSize = 6, maxWorkers = 1, processSlotDelay = 15.millis)
let item0 = SlotQueueItem.example
let item1 = SlotQueueItem.example
let item2 = SlotQueueItem.example
check isOk queue.push(item0)
check isOk queue.push(item1)
check queue.push(@[item2, item2, item2, item2]).error of SlotQueueItemExistsError
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
test "can add items past max maxSize":
newSlotQueue(maxSize = 4, maxWorkers = 2, processSlotDelay = 10.millis)
let item1 = SlotQueueItem.example
let item2 = SlotQueueItem.example
let item3 = SlotQueueItem.example
let item4 = SlotQueueItem.example
check queue.push(item1).isOk
check queue.push(item2).isOk
check queue.push(item3).isOk
check queue.push(item4).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
check eventually onProcessSlotCalledWith.len == 4
test "can delete items":
newSlotQueue(maxSize = 6, maxWorkers = 2, processSlotDelay = 10.millis)
let item0 = SlotQueueItem.example
let item1 = SlotQueueItem.example
let item2 = SlotQueueItem.example
let item3 = SlotQueueItem.example
check queue.push(item0).isOk
check queue.push(item1).isOk
check queue.push(item2).isOk
check queue.push(item3).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
queue.delete(item3)
check not queue.contains(item3)
test "can delete item by request id and slot id":
newSlotQueue(maxSize = 8, maxWorkers = 1, processSlotDelay = 10.millis)
let request0 = StorageRequest.example
var request1 = StorageRequest.example
request1.ask.collateral += 1.u256
let items0 = SlotQueueItem.init(request0)
let items1 = SlotQueueItem.init(request1)
check queue.push(items0).isOk
check queue.push(items1).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
let last = items1[items1.high]
check eventually queue.contains(last)
queue.delete(last.requestId, last.slotIndex)
check not onProcessSlotCalledWith.anyIt(
it == (last.requestId, last.slotIndex)
)
test "can delete all items by request id":
newSlotQueue(maxSize = 8, maxWorkers = 1, processSlotDelay = 10.millis)
let request0 = StorageRequest.example
var request1 = StorageRequest.example
request1.ask.collateral += 1.u256
let items0 = SlotQueueItem.init(request0)
let items1 = SlotQueueItem.init(request1)
check queue.push(items0).isOk
check queue.push(items1).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
queue.delete(request1.id)
check not onProcessSlotCalledWith.anyIt(it[0] == request1.id)
test "can check if contains item":
newSlotQueue(maxSize = 6, maxWorkers = 1, processSlotDelay = 10.millis)
let request0 = StorageRequest.example
var request1 = StorageRequest.example
var request2 = StorageRequest.example
var request3 = StorageRequest.example
var request4 = StorageRequest.example
var request5 = StorageRequest.example
request1.ask.collateral = request0.ask.collateral + 1
request2.ask.collateral = request1.ask.collateral + 1
request3.ask.collateral = request2.ask.collateral + 1
request4.ask.collateral = request3.ask.collateral + 1
request5.ask.collateral = request4.ask.collateral + 1
let item0 = SlotQueueItem.init(request0, 0)
let item1 = SlotQueueItem.init(request1, 0)
let item2 = SlotQueueItem.init(request2, 0)
let item3 = SlotQueueItem.init(request3, 0)
let item4 = SlotQueueItem.init(request4, 0)
let item5 = SlotQueueItem.init(request5, 0)
check queue.contains(item5) == false
check queue.push(@[item0, item1, item2, item3, item4, item5]).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
check queue.contains(item5)
test "sorts items by profitability ascending (higher pricePerSlot = higher priority)":
var request = StorageRequest.example
let item0 = SlotQueueItem.init(request, 0)
request.ask.reward += 1.u256
let item1 = SlotQueueItem.init(request, 1)
check item1 < item0
test "sorts items by collateral ascending (less required collateral = higher priority)":
var request = StorageRequest.example
let item0 = SlotQueueItem.init(request, 0)
request.ask.collateral -= 1.u256
let item1 = SlotQueueItem.init(request, 1)
check item1 < item0
test "sorts items by expiry descending (longer expiry = higher priority)":
var request = StorageRequest.example
let item0 = SlotQueueItem.init(request, 0)
request.expiry += 1.u256
let item1 = SlotQueueItem.init(request, 1)
check item1 < item0
test "sorts items by slot size ascending (smaller dataset = higher priority)":
var request = StorageRequest.example
let item0 = SlotQueueItem.init(request, 0)
request.ask.slotSize -= 1.u256
let item1 = SlotQueueItem.init(request, 1)
check item1 < item0
test "should call callback once an item is added":
newSlotQueue(maxSize = 2, maxWorkers = 2)
let item = SlotQueueItem.example
check not onProcessSlotCalled
check queue.push(item).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
check eventually onProcessSlotCalled
test "should only process item once":
newSlotQueue(maxSize = 2, maxWorkers = 2)
let item = SlotQueueItem.example
check queue.push(item).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
check eventually onProcessSlotCalledWith == @[
(item.requestId, item.slotIndex)
]
test "should process items in correct order":
newSlotQueue(maxSize = 2, maxWorkers = 2)
# sleeping after push allows the slotqueue loop to iterate,
# calling the callback for each pushed/updated item
var request = StorageRequest.example
let item0 = SlotQueueItem.init(request, 0)
request.ask.reward += 1.u256
let item1 = SlotQueueItem.init(request, 1)
request.ask.reward += 1.u256
let item2 = SlotQueueItem.init(request, 2)
request.ask.reward += 1.u256
let item3 = SlotQueueItem.init(request, 3)
check queue.push(item0).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
await sleepAsync(1.millis)
check queue.push(item1).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
await sleepAsync(1.millis)
check queue.push(item2).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
await sleepAsync(1.millis)
check queue.push(item3).isOk
Slot queue (#455) ## Slot queue Adds a slot queue, as per the [slot queue design](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#slot-queue). Any time storage is requested, all slots from that request are immediately added to the queue. Finished, Canclled, Failed requests remove all slots with that request id from the queue. SlotFreed events add a new slot to the queue and SlotFilled events remove the slot from the queue. This allows popping of a slot each time one is processed, making things much simpler. When an entire request of slots is added to the queue, the slot indices are shuffled randomly to hopefully prevent nodes that pick up the same storage requested event from clashing on the first processed slot index. This allowed removal of assigning a random slot index in the SalePreparing state and it also ensured that all SalesAgents will have a slot index assigned to them at the start thus the removal of the optional slotIndex. Remove slotId from SlotFreed event as it was not being used. RequestId and slotIndex were added to the SlotFreed event earlier and those are now being used The slot queue invariant that prioritises queue items added to the queue relies on a scoring mechanism to sort them based on the [sort order in the design document](https://github.com/codex-storage/codex-research/blob/master/design/sales.md#sort-order). When a storage request is handled by the sales module, a slot index was randomly assigned and then the slot was filled. Now, a random slot index is only assigned when adding an entire request to the slot queue. Additionally, the slot is checked that its state is `SlotState.Free` before continuing with the download process. SlotQueue should always ensure the underlying AsyncHeapQueue has one less than the maximum items, ensuring the SlotQueue can always have space to add an additional item regardless if it’s full or not. Constructing `SlotQueue.workers` in `SlotQueue.new` calls `newAsyncQueue` which causes side effects, so the construction call had to be moved to `SlotQueue.start`. Prevent loading request from contract (network request) if there is an existing item in queue for that request. Check availability before adding request to queue. Add ability to query market contract for past events. When new availabilities are added, the `onReservationAdded` callback is triggered in which past `StorageRequested` events are queried, and those slots are added to the queue (filtered by availability on `push` and filtered by state in `SalePreparing`). #### Request Workers Limit the concurrent requests being processed in the queue by using a limited pool of workers (default = 3). Workers are in a data structure of type `AsyncQueue[SlotQueueWorker]`. This allows us to await a `popFirst` for available workers inside of the main SlotQueue event loop Add an `onCleanUp` that stops the agents and removes them from the sales module agent list. `onCleanUp` is called from sales end states (eg ignored, cancelled, finished, failed, errored). Add a `doneProcessing` future to `SlotQueueWorker` to be completed in the `OnProcessSlot` callback. Each `doneProcessing` future created is cancelled and awaited in `SlotQueue.stop` (thanks to `TrackableFuturees`), which forced `stop` to become async. - Cancel dispatched workers and the `onProcessSlot` callbacks, prevents zombie callbacks #### Add TrackableFutures Allow tracking of futures in a module so they can be cancelled at a later time. Useful for asyncSpawned futures, but works for any future. ### Sales module The sales module needed to subscribe to request events to ensure that the request queue was managed correctly on each event. In the process of doing this, the sales agents were updated to avoid subscribing to events in each agent, and instead dispatch received events from the sales module to all created sales agents. This would prevent memory leaks on having too many eventemitters subscribed to. - prevent removal of agents from sales module while stopping, otherwise the agents seq len is modified while iterating An additional sales agent state was added, `SalePreparing`, that handles all state machine setup, such as retrieving the request and subscribing to events that were previously in the `SaleDownloading` state. Once agents have parked in an end state (eg ignored, cancelled, finished, failed, errored), they were not getting cleaned up and the sales module was keeping a handle on their reference. An `onCleanUp` callback was created to be called after the state machine enters an end state, which could prevent a memory leak if the number of requests coming in is high. Move the SalesAgent callback raises pragmas from the Sales module to the proc definition in SalesAgent. This avoids having to catch `Exception`. - remove unneeded error handling as pragmas were moved Move sales.subscriptions from an object containing named subscriptions to a `seq[Subscription]` directly on the sales object. Sales tests: shut down repo after sales stop, to fix SIGABRT in CI ### Add async Promise API - modelled after JavaScript Promise API - alternative to `asyncSpawn` that allows handling of async calls in a synchronous context (including access to the synchronous closure) with less additional procs to be declared - Write less code, catch errors that would otherwise defect in asyncspawn, and execute a callback after completion - Add cancellation callbacks to utils/then, ensuring cancellations are handled properly ## Dependencies - bump codex-contracts-eth to support slot queue (https://github.com/codex-storage/codex-contracts-eth/pull/61) - bump nim-ethers to 0.5.0 - Bump nim-json-rpc submodule to 0bf2bcb --------- Co-authored-by: Jaremy Creechley <creechley@gmail.com>
2023-07-25 02:50:30 +00:00
check eventually (
onProcessSlotCalledWith == @[
(item0.requestId, item0.slotIndex),
(item1.requestId, item1.slotIndex),
(item2.requestId, item2.slotIndex),
(item3.requestId, item3.slotIndex),
]
)
feat[marketplace]: add slot queue pausing (#752) * add seen flag * Add MockSlotQueueItem and better prioritisation tests * Update seen priority, and include in SlotQueueItem.init * Re-add processed slots to queue Re-add processed slots to queue if the sale was ignored or errored * add pausing of queue - when processing slots in queue, pause queue if item was marked seen - if availability size is increased, trigger onAvailabilityAdded callback - in sales, on availability added, clear 'seen' flags, then unpause the queue - when items pushed to the queue, unpause the queue * remove unused NoMatchingAvailabilityError from slotqueue The slot queue should also have nothing to do with availabilities * when all availabilities are empty, pause the queue An empty availability is defined as size < DefaultBlockSize as this means even the smallest possible request could not be served. However, this is up for discussion. * remove availability from onAvailabilitiesEmptied callback * refactor onAvailabilityAdded and onAvailabilitiesEmptied onAvailabilityAdded and onAvailabilitiesEmptied are now only called from reservations.update (and eventually reservations.delete once implemented). - Add empty routine for Availability and Reservation - Add allEmpty routine for Availability and Reservation, which returns true when all all Availability or Reservation objects in the datastore are empty. * SlotQueue test support updates * Sales module test support updates * Reservations module tests for queue pausing * Sales module tests for queue pausing Includes tests for sales states cancelled, errored, ignored to ensure onCleanUp is called with correct parameters * SlotQueue module tests for queue pausing * fix existing sales test * PR feedback - indent `self.unpause` - update comment for `clearSeenFlags` * reprocessSlot in SaleErrored only when coming from downloading * remove pausing of queue when availabilities are "emptied" Queue pausing when all availiabilies are "emptied" is not necessary, given that the node would not be able to service slots once all its availabilities' freeSize are too small for the slots in the queue, and would then be paused anyway. Add test that asserts the queue is paused once the freeSpace of availabilities drops too low to fill slots in the queue. * Update clearing of seen flags The asyncheapqueue update overload would need to check index bounds and ultimately a different solution was found using the mitems iterator. * fix test request.id was different before updating request.ask.slots, and that id was used to set the state in mockmarket. * Change filled/cleanup future to nil, so no await is needed * add wait to allow items to be added to queue * do not unpause queue when seen items are pushed * re-add seen item back to queue once paused Previously, when a seen item was processed, it was first popped off the queue, then the queue was paused waiting to process that item once the queue was unpaused. Now, when a seen item is processed, it is popped off the queue, the queue is paused, then the item is re-added to the queue and the queue will wait until unpaused before it will continue popping items off the queue. If the item was not re-added to the queue, it would have been processed immediately once unpaused, however there may have been other items with higher priority pushed to the queue in the meantime. The queue would not be unpaused if those added items were already seen. In particular, this may happen when ignored items due to lack of availability are re-added to a paused queue. Those ignored items will likely have a higher priority than the item that was just seen (due to it having been processed first), causing the queue to the be paused. * address PR comments
2024-05-26 00:38:38 +00:00
test "processing a 'seen' item pauses the queue":
newSlotQueue(maxSize = 4, maxWorkers = 4)
let request = StorageRequest.example
let item = SlotQueueItem.init(request.id, 0'u16,
request.ask,
request.expiry,
seen = true)
queue.push(item)
check eventually queue.paused
check onProcessSlotCalledWith.len == 0
test "pushing items to queue unpauses queue":
newSlotQueue(maxSize = 4, maxWorkers = 4)
queue.pause
let request = StorageRequest.example
var items = SlotQueueItem.init(request)
queue.push(items)
# check all items processed
check eventually queue.len == 0
test "pushing seen item does not unpause queue":
newSlotQueue(maxSize = 4, maxWorkers = 4)
let request = StorageRequest.example
let item0 = SlotQueueItem.init(request.id, 0'u16,
request.ask,
request.expiry,
seen = true)
check queue.paused
queue.push(item0)
check queue.paused
test "paused queue waits for unpause before continuing processing":
newSlotQueue(maxSize = 4, maxWorkers = 4)
let request = StorageRequest.example
let item = SlotQueueItem.init(request.id, 1'u16,
request.ask,
request.expiry,
seen = false)
check queue.paused
# push causes unpause
queue.push(item)
# check all items processed
check eventually onProcessSlotCalledWith == @[
(item.requestId, item.slotIndex),
]
check eventually queue.len == 0
test "item 'seen' flags can be cleared":
newSlotQueue(maxSize = 4, maxWorkers = 1)
let request = StorageRequest.example
let item0 = SlotQueueItem.init(request.id, 0'u16,
request.ask,
request.expiry,
seen = true)
let item1 = SlotQueueItem.init(request.id, 1'u16,
request.ask,
request.expiry,
seen = true)
queue.push(item0)
queue.push(item1)
check queue[0].seen
check queue[1].seen
queue.clearSeenFlags()
check queue[0].seen == false
check queue[1].seen == false