236 lines
7.8 KiB
Go
236 lines
7.8 KiB
Go
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// Copyright 2024 The go-ethereum Authors
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// This file is part of go-ethereum.
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//
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// go-ethereum is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// go-ethereum is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with go-ethereum. If not, see <http://www.gnu.org/licenses/>.
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package vm
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import (
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"fmt"
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"github.com/ethereum/go-ethereum/params"
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)
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func validateControlFlow(code []byte, section int, metadata []*functionMetadata, jt *JumpTable) (int, error) {
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var (
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maxStackHeight = int(metadata[section].inputs)
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visitCount = 0
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next = make([]int, 0, 1)
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)
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var (
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stackBoundsMax = make([]uint16, len(code))
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stackBoundsMin = make([]uint16, len(code))
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)
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setBounds := func(pos, min, maxi int) {
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// The stackboundMax slice is a bit peculiar. We use `0` to denote
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// not set. Therefore, we use `1` to represent the value `0`, and so on.
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// So if the caller wants to store `1` as max bound, we internally store it as
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// `2`.
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if stackBoundsMax[pos] == 0 { // Not yet set
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visitCount++
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}
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if maxi < 65535 {
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stackBoundsMax[pos] = uint16(maxi + 1)
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}
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stackBoundsMin[pos] = uint16(min)
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maxStackHeight = max(maxStackHeight, maxi)
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}
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getStackMaxMin := func(pos int) (ok bool, min, max int) {
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maxi := stackBoundsMax[pos]
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if maxi == 0 { // Not yet set
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return false, 0, 0
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}
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return true, int(stackBoundsMin[pos]), int(maxi - 1)
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}
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// set the initial stack bounds
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setBounds(0, int(metadata[section].inputs), int(metadata[section].inputs))
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qualifiedExit := false
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for pos := 0; pos < len(code); pos++ {
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op := OpCode(code[pos])
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ok, currentStackMin, currentStackMax := getStackMaxMin(pos)
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if !ok {
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return 0, errUnreachableCode
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}
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switch op {
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case CALLF:
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arg, _ := parseUint16(code[pos+1:])
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newSection := metadata[arg]
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if err := newSection.checkInputs(currentStackMin); err != nil {
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return 0, fmt.Errorf("%w: at pos %d", err, pos)
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}
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if err := newSection.checkStackMax(currentStackMax); err != nil {
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return 0, fmt.Errorf("%w: at pos %d", err, pos)
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}
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delta := newSection.stackDelta()
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currentStackMax += delta
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currentStackMin += delta
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case RETF:
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/* From the spec:
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> for RETF the following must hold: stack_height_max == stack_height_min == types[current_code_index].outputs,
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In other words: RETF must unambiguously return all items remaining on the stack.
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*/
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if currentStackMax != currentStackMin {
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return 0, fmt.Errorf("%w: max %d, min %d, at pos %d", errInvalidOutputs, currentStackMax, currentStackMin, pos)
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}
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numOutputs := int(metadata[section].outputs)
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if numOutputs >= maxOutputItems {
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return 0, fmt.Errorf("%w: at pos %d", errInvalidNonReturningFlag, pos)
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}
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if numOutputs != currentStackMin {
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return 0, fmt.Errorf("%w: have %d, want %d, at pos %d", errInvalidOutputs, numOutputs, currentStackMin, pos)
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}
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qualifiedExit = true
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case JUMPF:
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arg, _ := parseUint16(code[pos+1:])
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newSection := metadata[arg]
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if err := newSection.checkStackMax(currentStackMax); err != nil {
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return 0, fmt.Errorf("%w: at pos %d", err, pos)
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}
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if newSection.outputs == 0x80 {
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if err := newSection.checkInputs(currentStackMin); err != nil {
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return 0, fmt.Errorf("%w: at pos %d", err, pos)
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}
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} else {
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if currentStackMax != currentStackMin {
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return 0, fmt.Errorf("%w: max %d, min %d, at pos %d", errInvalidOutputs, currentStackMax, currentStackMin, pos)
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}
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wantStack := int(metadata[section].outputs) - newSection.stackDelta()
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if currentStackMax != wantStack {
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return 0, fmt.Errorf("%w: at pos %d", errInvalidOutputs, pos)
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}
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}
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qualifiedExit = qualifiedExit || newSection.outputs < maxOutputItems
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case DUPN:
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arg := int(code[pos+1]) + 1
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if want, have := arg, currentStackMin; want > have {
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return 0, fmt.Errorf("%w: at pos %d", ErrStackUnderflow{stackLen: have, required: want}, pos)
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}
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case SWAPN:
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arg := int(code[pos+1]) + 1
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if want, have := arg+1, currentStackMin; want > have {
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return 0, fmt.Errorf("%w: at pos %d", ErrStackUnderflow{stackLen: have, required: want}, pos)
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}
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case EXCHANGE:
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arg := int(code[pos+1])
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n := arg>>4 + 1
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m := arg&0x0f + 1
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if want, have := n+m+1, currentStackMin; want > have {
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return 0, fmt.Errorf("%w: at pos %d", ErrStackUnderflow{stackLen: have, required: want}, pos)
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}
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default:
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if want, have := jt[op].minStack, currentStackMin; want > have {
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return 0, fmt.Errorf("%w: at pos %d", ErrStackUnderflow{stackLen: have, required: want}, pos)
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}
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}
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if !terminals[op] && op != CALLF {
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change := int(params.StackLimit) - jt[op].maxStack
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currentStackMax += change
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currentStackMin += change
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}
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next = next[:0]
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switch op {
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case RJUMP:
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nextPos := pos + 2 + parseInt16(code[pos+1:])
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next = append(next, nextPos)
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// We set the stack bounds of the destination
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// and skip the argument, only for RJUMP, all other opcodes are handled later
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if nextPos+1 < pos {
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ok, nextMin, nextMax := getStackMaxMin(nextPos + 1)
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if !ok {
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return 0, errInvalidBackwardJump
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}
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if nextMax != currentStackMax || nextMin != currentStackMin {
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return 0, errInvalidMaxStackHeight
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}
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} else {
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ok, nextMin, nextMax := getStackMaxMin(nextPos + 1)
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if !ok {
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setBounds(nextPos+1, currentStackMin, currentStackMax)
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} else {
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setBounds(nextPos+1, min(nextMin, currentStackMin), max(nextMax, currentStackMax))
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}
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}
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case RJUMPI:
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arg := parseInt16(code[pos+1:])
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next = append(next, pos+2)
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next = append(next, pos+2+arg)
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case RJUMPV:
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count := int(code[pos+1]) + 1
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next = append(next, pos+1+2*count)
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for i := 0; i < count; i++ {
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arg := parseInt16(code[pos+2+2*i:])
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next = append(next, pos+1+2*count+arg)
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}
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default:
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if imm := int(immediates[op]); imm != 0 {
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next = append(next, pos+imm)
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} else {
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// Simple op, no operand.
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next = append(next, pos)
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}
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}
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if op != RJUMP && !terminals[op] {
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for _, instr := range next {
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nextPC := instr + 1
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if nextPC >= len(code) {
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return 0, fmt.Errorf("%w: end with %s, pos %d", errInvalidCodeTermination, op, pos)
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}
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if nextPC > pos {
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// target reached via forward jump or seq flow
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ok, nextMin, nextMax := getStackMaxMin(nextPC)
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if !ok {
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setBounds(nextPC, currentStackMin, currentStackMax)
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} else {
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setBounds(nextPC, min(nextMin, currentStackMin), max(nextMax, currentStackMax))
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}
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} else {
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// target reached via backwards jump
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ok, nextMin, nextMax := getStackMaxMin(nextPC)
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if !ok {
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return 0, errInvalidBackwardJump
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}
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if currentStackMax != nextMax {
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return 0, fmt.Errorf("%w want %d as current max got %d at pos %d,", errInvalidBackwardJump, currentStackMax, nextMax, pos)
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}
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if currentStackMin != nextMin {
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return 0, fmt.Errorf("%w want %d as current min got %d at pos %d,", errInvalidBackwardJump, currentStackMin, nextMin, pos)
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}
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}
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}
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}
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if op == RJUMP {
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pos += 2 // skip the immediate
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} else {
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pos = next[0]
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}
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}
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if qualifiedExit != (metadata[section].outputs < maxOutputItems) {
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return 0, fmt.Errorf("%w no RETF or qualified JUMPF", errInvalidNonReturningFlag)
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}
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if maxStackHeight >= int(params.StackLimit) {
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return 0, ErrStackOverflow{maxStackHeight, int(params.StackLimit)}
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}
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if maxStackHeight != int(metadata[section].maxStackHeight) {
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return 0, fmt.Errorf("%w in code section %d: have %d, want %d", errInvalidMaxStackHeight, section, maxStackHeight, metadata[section].maxStackHeight)
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}
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return visitCount, nil
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}
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