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package stmgr
import (
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"bytes"
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"context"
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"encoding/binary"
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"sort"
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"sync"
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"time"
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"github.com/ipfs/go-cid"
"golang.org/x/xerrors"
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"github.com/filecoin-project/go-address"
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"github.com/filecoin-project/go-state-types/abi"
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"github.com/filecoin-project/go-state-types/big"
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"github.com/filecoin-project/go-state-types/network"
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"github.com/filecoin-project/specs-actors/v8/actors/migration/nv16"
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"github.com/filecoin-project/lotus/build"
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"github.com/filecoin-project/lotus/chain/actors/adt"
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"github.com/filecoin-project/lotus/chain/actors/builtin"
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init_ "github.com/filecoin-project/lotus/chain/actors/builtin/init"
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"github.com/filecoin-project/lotus/chain/state"
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"github.com/filecoin-project/lotus/chain/types"
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"github.com/filecoin-project/lotus/chain/vm"
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)
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// MigrationCache can be used to cache information used by a migration. This is primarily useful to
// "pre-compute" some migration state ahead of time, and make it accessible in the migration itself.
type MigrationCache interface {
Write ( key string , value cid . Cid ) error
Read ( key string ) ( bool , cid . Cid , error )
Load ( key string , loadFunc func ( ) ( cid . Cid , error ) ) ( cid . Cid , error )
}
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// MigrationFunc is a migration function run at every upgrade.
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//
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// - The cache is a per-upgrade cache, pre-populated by pre-migrations.
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// - The oldState is the state produced by the upgrade epoch.
// - The returned newState is the new state that will be used by the next epoch.
// - The height is the upgrade epoch height (already executed).
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// - The tipset is the first non-null tipset after the upgrade height (the tipset in
// which the upgrade is executed). Do not assume that ts.Height() is the upgrade height.
//
// NOTE: In StateCompute and CallWithGas, the passed tipset is actually the tipset _before_ the
// upgrade. The tipset should really only be used for referencing the "current chain".
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type MigrationFunc func (
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ctx context . Context ,
sm * StateManager , cache MigrationCache ,
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cb ExecMonitor ,
oldState cid . Cid ,
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height abi . ChainEpoch , ts * types . TipSet ,
) ( newState cid . Cid , err error )
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// PreMigrationFunc is a function run _before_ a network upgrade to pre-compute part of the network
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// upgrade and speed it up.
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type PreMigrationFunc func (
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ctx context . Context ,
sm * StateManager , cache MigrationCache ,
oldState cid . Cid ,
height abi . ChainEpoch , ts * types . TipSet ,
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) error
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// PreMigration describes a pre-migration step to prepare for a network state upgrade. Pre-migrations
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// are optimizations, are not guaranteed to run, and may be canceled and/or run multiple times.
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type PreMigration struct {
// PreMigration is the pre-migration function to run at the specified time. This function is
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// run asynchronously and must abort promptly when canceled.
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PreMigration PreMigrationFunc
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// StartWithin specifies that this pre-migration should be started at most StartWithin
// epochs before the upgrade.
StartWithin abi . ChainEpoch
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// DontStartWithin specifies that this pre-migration should not be started DontStartWithin
// epochs before the final upgrade epoch.
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//
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// This should be set such that the pre-migration is likely to complete before StopWithin.
DontStartWithin abi . ChainEpoch
// StopWithin specifies that this pre-migration should be stopped StopWithin epochs of the
// final upgrade epoch.
StopWithin abi . ChainEpoch
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}
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type Upgrade struct {
Height abi . ChainEpoch
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Network network . Version
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Expensive bool
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Migration MigrationFunc
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// PreMigrations specifies a set of pre-migration functions to run at the indicated epochs.
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// These functions should fill the given cache with information that can speed up the
// eventual full migration at the upgrade epoch.
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PreMigrations [ ] PreMigration
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}
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type UpgradeSchedule [ ] Upgrade
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func ( us UpgradeSchedule ) Validate ( ) error {
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// Make sure each upgrade is valid.
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for _ , u := range us {
if u . Network <= 0 {
return xerrors . Errorf ( "cannot upgrade to version <= 0: %d" , u . Network )
}
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for _ , m := range u . PreMigrations {
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if m . StartWithin <= 0 {
return xerrors . Errorf ( "pre-migration must specify a positive start-within epoch" )
}
if m . DontStartWithin < 0 || m . StopWithin < 0 {
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return xerrors . Errorf ( "pre-migration must specify non-negative epochs" )
}
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if m . StartWithin <= m . StopWithin {
return xerrors . Errorf ( "pre-migration start-within must come before stop-within" )
}
// If we have a dont-start-within.
if m . DontStartWithin != 0 {
if m . DontStartWithin < m . StopWithin {
return xerrors . Errorf ( "pre-migration dont-start-within must come before stop-within" )
}
if m . StartWithin <= m . DontStartWithin {
return xerrors . Errorf ( "pre-migration start-within must come after dont-start-within" )
}
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}
}
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if ! sort . SliceIsSorted ( u . PreMigrations , func ( i , j int ) bool {
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return u . PreMigrations [ i ] . StartWithin > u . PreMigrations [ j ] . StartWithin //nolint:scopelint,gosec
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} ) {
return xerrors . Errorf ( "pre-migrations must be sorted by start epoch" )
}
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}
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// Make sure the upgrade order makes sense.
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for i := 1 ; i < len ( us ) ; i ++ {
prev := & us [ i - 1 ]
curr := & us [ i ]
if ! ( prev . Network <= curr . Network ) {
return xerrors . Errorf ( "cannot downgrade from version %d to version %d" , prev . Network , curr . Network )
}
// Make sure the heights make sense.
if prev . Height < 0 {
// Previous upgrade was disabled.
continue
}
if ! ( prev . Height < curr . Height ) {
return xerrors . Errorf ( "upgrade heights must be strictly increasing: upgrade %d was at height %d, followed by upgrade %d at height %d" , i - 1 , prev . Height , i , curr . Height )
}
}
return nil
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}
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func ( us UpgradeSchedule ) GetNtwkVersion ( e abi . ChainEpoch ) ( network . Version , error ) {
// Traverse from newest to oldest returning upgrade active during epoch e
for i := len ( us ) - 1 ; i >= 0 ; i -- {
u := us [ i ]
// u.Height is the last epoch before u.Network becomes the active version
if u . Height < e {
return u . Network , nil
}
}
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return build . GenesisNetworkVersion , nil
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}
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func ( sm * StateManager ) HandleStateForks ( ctx context . Context , root cid . Cid , height abi . ChainEpoch , cb ExecMonitor , ts * types . TipSet ) ( cid . Cid , error ) {
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retCid := root
var err error
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u := sm . stateMigrations [ height ]
if u != nil && u . upgrade != nil {
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startTime := time . Now ( )
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log . Warnw ( "STARTING migration" , "height" , height , "from" , root )
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// Yes, we clone the cache, even for the final upgrade epoch. Why? Reverts. We may
// have to migrate multiple times.
tmpCache := u . cache . Clone ( )
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retCid , err = u . upgrade ( ctx , sm , tmpCache , cb , root , height , ts )
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if err != nil {
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log . Errorw ( "FAILED migration" , "height" , height , "from" , root , "error" , err )
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return cid . Undef , err
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}
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// Yes, we update the cache, even for the final upgrade epoch. Why? Reverts. This
// can save us a _lot_ of time because very few actors will have changed if we
// do a small revert then need to re-run the migration.
u . cache . Update ( tmpCache )
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log . Warnw ( "COMPLETED migration" ,
"height" , height ,
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"from" , root ,
"to" , retCid ,
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"duration" , time . Since ( startTime ) ,
)
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}
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return retCid , nil
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}
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// Returns true executing tipsets between the specified heights would trigger an expensive
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// migration. NOTE: migrations occurring _at_ the target height are not included, as they're
// executed _after_ the target height.
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func ( sm * StateManager ) hasExpensiveForkBetween ( parent , height abi . ChainEpoch ) bool {
for h := parent ; h < height ; h ++ {
if _ , ok := sm . expensiveUpgrades [ h ] ; ok {
return true
}
}
return false
}
func ( sm * StateManager ) hasExpensiveFork ( height abi . ChainEpoch ) bool {
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_ , ok := sm . expensiveUpgrades [ height ]
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return ok
}
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func runPreMigration ( ctx context . Context , sm * StateManager , fn PreMigrationFunc , cache * nv16 . MemMigrationCache , ts * types . TipSet ) {
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height := ts . Height ( )
parent := ts . ParentState ( )
startTime := time . Now ( )
log . Warn ( "STARTING pre-migration" )
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// Clone the cache so we don't actually _update_ it
// till we're done. Otherwise, if we fail, the next
// migration to use the cache may assume that
// certain blocks exist, even if they don't.
tmpCache := cache . Clone ( )
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err := fn ( ctx , sm , tmpCache , parent , height , ts )
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if err != nil {
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log . Errorw ( "FAILED pre-migration" , "error" , err )
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return
}
// Finally, if everything worked, update the cache.
cache . Update ( tmpCache )
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log . Warnw ( "COMPLETED pre-migration" , "duration" , time . Since ( startTime ) )
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}
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func ( sm * StateManager ) preMigrationWorker ( ctx context . Context ) {
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defer close ( sm . shutdown )
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ctx , cancel := context . WithCancel ( ctx )
defer cancel ( )
type op struct {
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after abi . ChainEpoch
notAfter abi . ChainEpoch
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run func ( ts * types . TipSet )
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}
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var wg sync . WaitGroup
defer wg . Wait ( )
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// Turn each pre-migration into an operation in a schedule.
var schedule [ ] op
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for upgradeEpoch , migration := range sm . stateMigrations {
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cache := migration . cache
for _ , prem := range migration . preMigrations {
preCtx , preCancel := context . WithCancel ( ctx )
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migrationFunc := prem . PreMigration
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afterEpoch := upgradeEpoch - prem . StartWithin
notAfterEpoch := upgradeEpoch - prem . DontStartWithin
stopEpoch := upgradeEpoch - prem . StopWithin
// We can't start after we stop.
if notAfterEpoch > stopEpoch {
notAfterEpoch = stopEpoch - 1
}
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// Add an op to start a pre-migration.
schedule = append ( schedule , op {
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after : afterEpoch ,
notAfter : notAfterEpoch ,
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// TODO: are these values correct?
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run : func ( ts * types . TipSet ) {
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wg . Add ( 1 )
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go func ( ) {
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defer wg . Done ( )
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runPreMigration ( preCtx , sm , migrationFunc , cache , ts )
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} ( )
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} ,
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} )
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// Add an op to cancel the pre-migration if it's still running.
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schedule = append ( schedule , op {
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after : stopEpoch ,
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notAfter : - 1 ,
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run : func ( ts * types . TipSet ) { preCancel ( ) } ,
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} )
}
}
// Then sort by epoch.
sort . Slice ( schedule , func ( i , j int ) bool {
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return schedule [ i ] . after < schedule [ j ] . after
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} )
// Finally, when the head changes, see if there's anything we need to do.
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//
// We're intentionally ignoring reorgs as they don't matter for our purposes.
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for change := range sm . cs . SubHeadChanges ( ctx ) {
for _ , head := range change {
for len ( schedule ) > 0 {
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op := & schedule [ 0 ]
if head . Val . Height ( ) < op . after {
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break
}
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// If we haven't passed the pre-migration height...
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if op . notAfter < 0 || head . Val . Height ( ) < op . notAfter {
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op . run ( head . Val )
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}
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schedule = schedule [ 1 : ]
}
}
}
}
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func DoTransfer ( tree types . StateTree , from , to address . Address , amt abi . TokenAmount , cb func ( trace types . ExecutionTrace ) ) error {
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fromAct , err := tree . GetActor ( from )
if err != nil {
return xerrors . Errorf ( "failed to get 'from' actor for transfer: %w" , err )
}
fromAct . Balance = types . BigSub ( fromAct . Balance , amt )
if fromAct . Balance . Sign ( ) < 0 {
return xerrors . Errorf ( "(sanity) deducted more funds from target account than it had (%s, %s)" , from , types . FIL ( amt ) )
}
if err := tree . SetActor ( from , fromAct ) ; err != nil {
return xerrors . Errorf ( "failed to persist from actor: %w" , err )
}
toAct , err := tree . GetActor ( to )
if err != nil {
return xerrors . Errorf ( "failed to get 'to' actor for transfer: %w" , err )
}
toAct . Balance = types . BigAdd ( toAct . Balance , amt )
if err := tree . SetActor ( to , toAct ) ; err != nil {
return xerrors . Errorf ( "failed to persist to actor: %w" , err )
}
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if cb != nil {
// record the transfer in execution traces
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cb ( types . ExecutionTrace {
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Msg : MakeFakeMsg ( from , to , amt , 0 ) ,
MsgRct : MakeFakeRct ( ) ,
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Error : "" ,
Duration : 0 ,
GasCharges : nil ,
Subcalls : nil ,
} )
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}
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return nil
}
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func TerminateActor ( ctx context . Context , tree * state . StateTree , addr address . Address , em ExecMonitor , epoch abi . ChainEpoch , ts * types . TipSet ) error {
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a , err := tree . GetActor ( addr )
if xerrors . Is ( err , types . ErrActorNotFound ) {
return types . ErrActorNotFound
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} else if err != nil {
return xerrors . Errorf ( "failed to get actor to delete: %w" , err )
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}
var trace types . ExecutionTrace
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if err := DoTransfer ( tree , addr , builtin . BurntFundsActorAddr , a . Balance , func ( t types . ExecutionTrace ) {
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trace = t
} ) ; err != nil {
return xerrors . Errorf ( "transferring terminated actor's balance: %w" , err )
}
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if em != nil {
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// record the transfer in execution traces
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fakeMsg := MakeFakeMsg ( builtin . SystemActorAddr , addr , big . Zero ( ) , uint64 ( epoch ) )
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if err := em . MessageApplied ( ctx , ts , fakeMsg . Cid ( ) , fakeMsg , & vm . ApplyRet {
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MessageReceipt : * MakeFakeRct ( ) ,
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ActorErr : nil ,
ExecutionTrace : trace ,
Duration : 0 ,
GasCosts : nil ,
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} , false ) ; err != nil {
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return xerrors . Errorf ( "recording transfers: %w" , err )
}
}
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err = tree . DeleteActor ( addr )
if err != nil {
return xerrors . Errorf ( "deleting actor from tree: %w" , err )
}
ia , err := tree . GetActor ( init_ . Address )
if err != nil {
return xerrors . Errorf ( "loading init actor: %w" , err )
}
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ias , err := init_ . Load ( & state . AdtStore { IpldStore : tree . Store } , ia )
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if err != nil {
return xerrors . Errorf ( "loading init actor state: %w" , err )
}
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if err := ias . Remove ( addr ) ; err != nil {
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return xerrors . Errorf ( "deleting entry from address map: %w" , err )
}
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nih , err := tree . Store . Put ( ctx , ias )
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if err != nil {
return xerrors . Errorf ( "writing new init actor state: %w" , err )
}
ia . Head = nih
return tree . SetActor ( init_ . Address , ia )
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}
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func SetNetworkName ( ctx context . Context , store adt . Store , tree * state . StateTree , name string ) error {
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ia , err := tree . GetActor ( init_ . Address )
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if err != nil {
return xerrors . Errorf ( "getting init actor: %w" , err )
}
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initState , err := init_ . Load ( store , ia )
if err != nil {
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return xerrors . Errorf ( "reading init state: %w" , err )
}
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if err := initState . SetNetworkName ( name ) ; err != nil {
return xerrors . Errorf ( "setting network name: %w" , err )
}
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ia . Head , err = store . Put ( ctx , initState )
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if err != nil {
return xerrors . Errorf ( "writing new init state: %w" , err )
}
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if err := tree . SetActor ( init_ . Address , ia ) ; err != nil {
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return xerrors . Errorf ( "setting init actor: %w" , err )
}
return nil
}
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func MakeKeyAddr ( splitAddr address . Address , count uint64 ) ( address . Address , error ) {
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var b bytes . Buffer
if err := splitAddr . MarshalCBOR ( & b ) ; err != nil {
return address . Undef , xerrors . Errorf ( "marshalling split address: %w" , err )
}
if err := binary . Write ( & b , binary . BigEndian , count ) ; err != nil {
return address . Undef , xerrors . Errorf ( "writing count into a buffer: %w" , err )
}
if err := binary . Write ( & b , binary . BigEndian , [ ] byte ( "Ignition upgrade" ) ) ; err != nil {
return address . Undef , xerrors . Errorf ( "writing fork name into a buffer: %w" , err )
}
addr , err := address . NewActorAddress ( b . Bytes ( ) )
if err != nil {
return address . Undef , xerrors . Errorf ( "create actor address: %w" , err )
}
return addr , nil
}
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func MakeFakeMsg ( from address . Address , to address . Address , amt abi . TokenAmount , nonce uint64 ) * types . Message {
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return & types . Message {
From : from ,
To : to ,
Value : amt ,
Nonce : nonce ,
}
}
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func MakeFakeRct ( ) * types . MessageReceipt {
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return & types . MessageReceipt {
ExitCode : 0 ,
Return : nil ,
GasUsed : 0 ,
}
}