// Copyright 2018 The gVisor Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package hostarch import ( "testing" ) var addrRangeSeqTests = []struct { desc string ranges []AddrRange }{ { desc: "Empty sequence", }, { desc: "Single empty AddrRange", ranges: []AddrRange{ {0x10, 0x10}, }, }, { desc: "Single non-empty AddrRange of length 1", ranges: []AddrRange{ {0x10, 0x11}, }, }, { desc: "Single non-empty AddrRange of length 2", ranges: []AddrRange{ {0x10, 0x12}, }, }, { desc: "Multiple non-empty AddrRanges", ranges: []AddrRange{ {0x10, 0x11}, {0x20, 0x22}, }, }, { desc: "Multiple AddrRanges including empty AddrRanges", ranges: []AddrRange{ {0x10, 0x10}, {0x20, 0x20}, {0x30, 0x33}, {0x40, 0x44}, {0x50, 0x50}, {0x60, 0x60}, {0x70, 0x77}, {0x80, 0x88}, {0x90, 0x90}, {0xa0, 0xa0}, }, }, } func testAddrRangeSeqEqualityWithTailIteration(t *testing.T, ars AddrRangeSeq, wantRanges []AddrRange) { var wantLen int64 for _, ar := range wantRanges { wantLen += int64(ar.Length()) } var i int for !ars.IsEmpty() { if gotLen := ars.NumBytes(); gotLen != wantLen { t.Errorf("Iteration %d: %v.NumBytes(): got %d, wanted %d", i, ars, gotLen, wantLen) } if gotN, wantN := ars.NumRanges(), len(wantRanges)-i; gotN != wantN { t.Errorf("Iteration %d: %v.NumRanges(): got %d, wanted %d", i, ars, gotN, wantN) } got := ars.Head() if i >= len(wantRanges) { t.Errorf("Iteration %d: %v.Head(): got %s, wanted ", i, ars, got) } else if want := wantRanges[i]; got != want { t.Errorf("Iteration %d: %v.Head(): got %s, wanted %s", i, ars, got, want) } ars = ars.Tail() wantLen -= int64(got.Length()) i++ } if gotLen := ars.NumBytes(); gotLen != 0 || wantLen != 0 { t.Errorf("Iteration %d: %v.NumBytes(): got %d, wanted %d (which should be 0)", i, ars, gotLen, wantLen) } if gotN := ars.NumRanges(); gotN != 0 { t.Errorf("Iteration %d: %v.NumRanges(): got %d, wanted 0", i, ars, gotN) } } func TestAddrRangeSeqTailIteration(t *testing.T) { for _, test := range addrRangeSeqTests { t.Run(test.desc, func(t *testing.T) { testAddrRangeSeqEqualityWithTailIteration(t, AddrRangeSeqFromSlice(test.ranges), test.ranges) }) } } func TestAddrRangeSeqDropFirstEmpty(t *testing.T) { var ars AddrRangeSeq if got, want := ars.DropFirst(1), ars; got != want { t.Errorf("%v.DropFirst(1): got %v, wanted %v", ars, got, want) } } func TestAddrRangeSeqDropSingleByteIteration(t *testing.T) { // Tests AddrRangeSeq iteration using Head/DropFirst, simulating // I/O-per-AddrRange. for _, test := range addrRangeSeqTests { t.Run(test.desc, func(t *testing.T) { // Figure out what AddrRanges we expect to see. var wantLen int64 var wantRanges []AddrRange for _, ar := range test.ranges { wantLen += int64(ar.Length()) wantRanges = append(wantRanges, ar) if ar.Length() == 0 { // We "do" 0 bytes of I/O and then call DropFirst(0), // advancing to the next AddrRange. continue } // Otherwise we "do" 1 byte of I/O and then call DropFirst(1), // advancing the AddrRange by 1 byte, or to the next AddrRange // if this one is exhausted. for ar.Start++; ar.Length() != 0; ar.Start++ { wantRanges = append(wantRanges, ar) } } t.Logf("Expected AddrRanges: %s (%d bytes)", wantRanges, wantLen) ars := AddrRangeSeqFromSlice(test.ranges) var i int for !ars.IsEmpty() { if gotLen := ars.NumBytes(); gotLen != wantLen { t.Errorf("Iteration %d: %v.NumBytes(): got %d, wanted %d", i, ars, gotLen, wantLen) } got := ars.Head() if i >= len(wantRanges) { t.Errorf("Iteration %d: %v.Head(): got %s, wanted ", i, ars, got) } else if want := wantRanges[i]; got != want { t.Errorf("Iteration %d: %v.Head(): got %s, wanted %s", i, ars, got, want) } if got.Length() == 0 { ars = ars.DropFirst(0) } else { ars = ars.DropFirst(1) wantLen-- } i++ } if gotLen := ars.NumBytes(); gotLen != 0 || wantLen != 0 { t.Errorf("Iteration %d: %v.NumBytes(): got %d, wanted %d (which should be 0)", i, ars, gotLen, wantLen) } }) } } func TestAddrRangeSeqTakeFirstEmpty(t *testing.T) { var ars AddrRangeSeq if got, want := ars.TakeFirst(1), ars; got != want { t.Errorf("%v.TakeFirst(1): got %v, wanted %v", ars, got, want) } } func TestAddrRangeSeqTakeFirst(t *testing.T) { ranges := []AddrRange{ {0x10, 0x11}, {0x20, 0x22}, {0x30, 0x30}, {0x40, 0x44}, {0x50, 0x55}, {0x60, 0x60}, {0x70, 0x77}, } ars := AddrRangeSeqFromSlice(ranges).TakeFirst(5) want := []AddrRange{ {0x10, 0x11}, // +1 byte (total 1 byte), not truncated {0x20, 0x22}, // +2 bytes (total 3 bytes), not truncated {0x30, 0x30}, // +0 bytes (total 3 bytes), no change {0x40, 0x42}, // +2 bytes (total 5 bytes), partially truncated {0x50, 0x50}, // +0 bytes (total 5 bytes), fully truncated {0x60, 0x60}, // +0 bytes (total 5 bytes), "fully truncated" (no change) {0x70, 0x70}, // +0 bytes (total 5 bytes), fully truncated } testAddrRangeSeqEqualityWithTailIteration(t, ars, want) }