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JCS-pub/common/pkgs/ioswitchlrc/parser/passes.go

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  1. package parser

  2. 

  3. import (

  4. 	"fmt"

  5. 	"math"

  6. 

  7. 	"gitlink.org.cn/cloudream/common/pkgs/ioswitch/dag"

  8. 	"gitlink.org.cn/cloudream/common/utils/math2"

  9. 	"gitlink.org.cn/cloudream/common/utils/os2"

  10. 	"gitlink.org.cn/cloudream/jcs-pub/common/pkgs/ioswitchlrc"

  11. 	"gitlink.org.cn/cloudream/jcs-pub/common/pkgs/ioswitchlrc/ops2"

  12. 	"gitlink.org.cn/cloudream/jcs-pub/common/pkgs/storage/types"

  13. )

  14. 

  15. // 计算输入流的打开范围。会把流的范围按条带大小取整

  16. func calcStreamRange(ctx *GenerateContext) {

  17. 	stripSize := int64(ctx.LRC.ChunkSize * ctx.LRC.K)

  18. 

  19. 	rng := math2.Range{

  20. 		Offset: math.MaxInt64,

  21. 	}

  22. 

  23. 	for _, to := range ctx.To {

  24. 		if to.GetDataIndex() == -1 {

  25. 			toRng := to.GetRange()

  26. 			rng.ExtendStart(math2.Floor(toRng.Offset, stripSize))

  27. 			if toRng.Length != nil {

  28. 				rng.ExtendEnd(math2.Ceil(toRng.Offset+*toRng.Length, stripSize))

  29. 			} else {

  30. 				rng.Length = nil

  31. 			}

  32. 

  33. 		} else {

  34. 			toRng := to.GetRange()

  35. 

  36. 			blkStartIndex := math2.FloorDiv(toRng.Offset, int64(ctx.LRC.ChunkSize))

  37. 			rng.ExtendStart(blkStartIndex * stripSize)

  38. 			if toRng.Length != nil {

  39. 				blkEndIndex := math2.CeilDiv(toRng.Offset+*toRng.Length, int64(ctx.LRC.ChunkSize))

  40. 				rng.ExtendEnd(blkEndIndex * stripSize)

  41. 			} else {

  42. 				rng.Length = nil

  43. 			}

  44. 		}

  45. 	}

  46. 

  47. 	ctx.StreamRange = rng

  48. }

  49. 

  50. func buildFromNode(ctx *GenerateContext, f ioswitchlrc.From) (ops2.FromNode, error) {

  51. 	var repRange math2.Range

  52. 	var blkRange math2.Range

  53. 

  54. 	repRange.Offset = ctx.StreamRange.Offset

  55. 	blkRange.Offset = ctx.StreamRange.Offset / int64(ctx.LRC.ChunkSize*ctx.LRC.K) * int64(ctx.LRC.ChunkSize)

  56. 	if ctx.StreamRange.Length != nil {

  57. 		repRngLen := *ctx.StreamRange.Length

  58. 		repRange.Length = &repRngLen

  59. 

  60. 		blkRngLen := *ctx.StreamRange.Length / int64(ctx.LRC.ChunkSize*ctx.LRC.K) * int64(ctx.LRC.ChunkSize)

  61. 		blkRange.Length = &blkRngLen

  62. 	}

  63. 

  64. 	switch f := f.(type) {

  65. 	case *ioswitchlrc.FromNode:

  66. 		getShard := ctx.DAG.NewGetShardInfo(f.UserSpace, f.FileHash)

  67. 		getShard.Env().ToEnvDriver(true)

  68. 

  69. 		read := ctx.DAG.NewBaseReadDyn(f, f.UserSpace, types.DefaultOpen())

  70. 

  71. 		if f.DataIndex == -1 {

  72. 			read.Option.WithNullableLength(repRange.Offset, repRange.Length)

  73. 		} else {

  74. 			read.Option.WithNullableLength(blkRange.Offset, blkRange.Length)

  75. 		}

  76. 

  77. 		if err := setEnvBySpace(read, &f.UserSpace); err != nil {

  78. 			return nil, fmt.Errorf("set node env by user space: %w", err)

  79. 		}

  80. 

  81. 		return read, nil

  82. 

  83. 	case *ioswitchlrc.FromDriver:

  84. 		n := ctx.DAG.NewFromDriver(f.Handle)

  85. 		n.Env().ToEnvDriver(true)

  86. 

  87. 		if f.DataIndex == -1 {

  88. 			f.Handle.RangeHint.Offset = repRange.Offset

  89. 			f.Handle.RangeHint.Length = repRange.Length

  90. 		} else {

  91. 			f.Handle.RangeHint.Offset = blkRange.Offset

  92. 			f.Handle.RangeHint.Length = blkRange.Length

  93. 		}

  94. 

  95. 		return n, nil

  96. 

  97. 	default:

  98. 		return nil, fmt.Errorf("unsupported from type %T", f)

  99. 	}

  100. }

  101. 

  102. func buildToNode(ctx *GenerateContext, t ioswitchlrc.To) (ops2.ToNode, error) {

  103. 	switch t := t.(type) {

  104. 	case *ioswitchlrc.ToNode:

  105. 		tempFileName := types.MakeTempDirPath(&t.UserSpace, os2.GenerateRandomFileName(20))

  106. 		write := ctx.DAG.NewBaseWrite(t, t.UserSpace, tempFileName, t.Option)

  107. 

  108. 		if err := setEnvBySpace(write, &t.UserSpace); err != nil {

  109. 			return nil, fmt.Errorf("set node env by user space: %w", err)

  110. 		}

  111. 

  112. 		write.Env().Pinned = true

  113. 

  114. 		add := ctx.DAG.NewStoreShard(t.UserSpace, t.FileHashStoreKey)

  115. 		add.Env().ToEnvDriver(true)

  116. 

  117. 		write.FileInfoVar().ToSlot(add.FileInfoSlot())

  118. 

  119. 		return write, nil

  120. 

  121. 	case *ioswitchlrc.ToDriver:

  122. 		n := ctx.DAG.NewToDriver(t.Handle)

  123. 		n.Env().ToEnvDriver(true)

  124. 

  125. 		return n, nil

  126. 

  127. 	default:

  128. 		return nil, fmt.Errorf("unsupported to type %T", t)

  129. 	}

  130. }

  131. 

  132. // 通过流的输入输出位置来确定指令的执行位置。

  133. // To系列的指令都会有固定的执行位置,这些位置会随着pin操作逐步扩散到整个DAG,

  134. // 所以理论上不会出现有指令的位置始终无法确定的情况。

  135. func pin(ctx *GenerateContext) bool {

  136. 	changed := false

  137. 	ctx.DAG.Walk(func(node dag.Node) bool {

  138. 		if node.Env().Pinned {

  139. 			return true

  140. 		}

  141. 

  142. 		var toEnv *dag.NodeEnv

  143. 		for _, out := range node.OutputStreams().Slots.RawArray() {

  144. 			for _, to := range out.Dst.RawArray() {

  145. 				if to.Env().Type == dag.EnvAny {

  146. 					continue

  147. 				}

  148. 

  149. 				if toEnv == nil {

  150. 					toEnv = to.Env()

  151. 				} else if !toEnv.Equals(to.Env()) {

  152. 					toEnv = nil

  153. 					break

  154. 				}

  155. 			}

  156. 		}

  157. 

  158. 		if toEnv != nil {

  159. 			if !node.Env().Equals(toEnv) {

  160. 				changed = true

  161. 			}

  162. 

  163. 			*node.Env() = *toEnv

  164. 			return true

  165. 		}

  166. 

  167. 		// 否则根据输入流的始发地来固定

  168. 		var fromEnv *dag.NodeEnv

  169. 		for _, in := range node.InputStreams().Slots.RawArray() {

  170. 			if in.Src.Env().Type == dag.EnvAny {

  171. 				continue

  172. 			}

  173. 

  174. 			if fromEnv == nil {

  175. 				fromEnv = in.Src.Env()

  176. 			} else if !fromEnv.Equals(in.Src.Env()) {

  177. 				fromEnv = nil

  178. 				break

  179. 			}

  180. 		}

  181. 

  182. 		if fromEnv != nil {

  183. 			if !node.Env().Equals(fromEnv) {

  184. 				changed = true

  185. 			}

  186. 

  187. 			*node.Env() = *fromEnv

  188. 		}

  189. 		return true

  190. 	})

  191. 

  192. 	return changed

  193. }

  194. 

  195. // 对于所有未使用的流,增加Drop指令

  196. func dropUnused(ctx *GenerateContext) {

  197. 	ctx.DAG.Walk(func(node dag.Node) bool {

  198. 		for _, out := range node.OutputStreams().Slots.RawArray() {

  199. 			if out.Dst.Len() == 0 {

  200. 				n := ctx.DAG.NewDropStream()

  201. 				*n.Env() = *node.Env()

  202. 				n.SetInput(out)

  203. 			}

  204. 		}

  205. 		return true

  206. 	})

  207. }

  208. 

  209. // 为IPFS写入指令存储结果

  210. func storeIPFSWriteResult(ctx *GenerateContext) {

  211. 	dag.WalkOnlyType[*ops2.StoreShardNode](ctx.DAG.Graph, func(n *ops2.StoreShardNode) bool {

  212. 		if n.ShardInfoKey == "" {

  213. 			return true

  214. 		}

  215. 

  216. 		storeNode := ctx.DAG.NewStore()

  217. 		storeNode.Env().ToEnvDriver(true)

  218. 

  219. 		storeNode.Store(n.ShardInfoKey, n.ShardInfoVar().Var())

  220. 		return true

  221. 	})

  222. }

  223. 

  224. // 生成Range指令。StreamRange可能超过文件总大小,但Range指令会在数据量不够时不报错而是正常返回

  225. func generateRange(ctx *GenerateContext) {

  226. 	for i := 0; i < len(ctx.To); i++ {

  227. 		to := ctx.To[i]

  228. 		toNode := ctx.ToNodes[to]

  229. 

  230. 		toDataIdx := to.GetDataIndex()

  231. 		toRng := to.GetRange()

  232. 

  233. 		if toDataIdx == -1 {

  234. 			n := ctx.DAG.NewRange()

  235. 			toInput := toNode.Input()

  236. 			*n.Env() = *toInput.Var().Src.Env()

  237. 			rnged := n.RangeStream(toInput.Var(), math2.Range{

  238. 				Offset: toRng.Offset - ctx.StreamRange.Offset,

  239. 				Length: toRng.Length,

  240. 			})

  241. 			toInput.Var().NotTo(toNode)

  242. 			rnged.ToSlot(toInput)

  243. 

  244. 		} else {

  245. 			stripSize := int64(ctx.LRC.ChunkSize * ctx.LRC.K)

  246. 			blkStartIdx := ctx.StreamRange.Offset / stripSize

  247. 

  248. 			blkStart := blkStartIdx * int64(ctx.LRC.ChunkSize)

  249. 

  250. 			n := ctx.DAG.NewRange()

  251. 			toInput := toNode.Input()

  252. 			*n.Env() = *toInput.Var().Src.Env()

  253. 			rnged := n.RangeStream(toInput.Var(), math2.Range{

  254. 				Offset: toRng.Offset - blkStart,

  255. 				Length: toRng.Length,

  256. 			})

  257. 			toInput.Var().NotTo(toNode)

  258. 			rnged.ToSlot(toInput)

  259. 		}

  260. 	}

  261. }

  262. 

  263. // 生成Clone指令

  264. func generateClone(ctx *GenerateContext) {

  265. 	ctx.DAG.Walk(func(node dag.Node) bool {

  266. 		for _, outVar := range node.OutputStreams().Slots.RawArray() {

  267. 			if outVar.Dst.Len() <= 1 {

  268. 				continue

  269. 			}

  270. 

  271. 			t := ctx.DAG.NewCloneStream()

  272. 			*t.Env() = *node.Env()

  273. 			for _, to := range outVar.Dst.RawArray() {

  274. 				t.NewOutput().To(to, to.InputStreams().IndexOf(outVar))

  275. 			}

  276. 			outVar.Dst.Resize(0)

  277. 			t.SetInput(outVar)

  278. 		}

  279. 

  280. 		for _, outVar := range node.OutputValues().Slots.RawArray() {

  281. 			if outVar.Dst.Len() <= 1 {

  282. 				continue

  283. 			}

  284. 

  285. 			t := ctx.DAG.NewCloneValue()

  286. 			*t.Env() = *node.Env()

  287. 			for _, to := range outVar.Dst.RawArray() {

  288. 				t.NewOutput().To(to, to.InputValues().IndexOf(outVar))

  289. 			}

  290. 			outVar.Dst.Resize(0)

  291. 			t.SetInput(outVar)

  292. 		}

  293. 

  294. 		return true

  295. 	})

  296. }