// Copyright 2018 Google Inc. // // 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 buffer provides the implementation of a buffer view. package buffer // View is a slice of a buffer, with convenience methods. type View []byte // NewView allocates a new buffer and returns an initialized view that covers // the whole buffer. func NewView(size int) View { return make(View, size) } // NewViewFromBytes allocates a new buffer and copies in the given bytes. func NewViewFromBytes(b []byte) View { return append(View(nil), b...) } // TrimFront removes the first "count" bytes from the visible section of the // buffer. func (v *View) TrimFront(count int) { *v = (*v)[count:] } // CapLength irreversibly reduces the length of the visible section of the // buffer to the value specified. func (v *View) CapLength(length int) { // We also set the slice cap because if we don't, one would be able to // expand the view back to include the region just excluded. We want to // prevent that to avoid potential data leak if we have uninitialized // data in excluded region. *v = (*v)[:length:length] } // ToVectorisedView transforms a View in a VectorisedView from an // already-allocated slice of View. func (v *View) ToVectorisedView(views [1]View) VectorisedView { views[0] = *v return NewVectorisedView(len(*v), views[:]) } // VectorisedView is a vectorised version of View using non contigous memory. // It supports all the convenience methods supported by View. // // +stateify savable type VectorisedView struct { views []View size int } // NewVectorisedView creates a new vectorised view from an already-allocated slice // of View and sets its size. func NewVectorisedView(size int, views []View) VectorisedView { return VectorisedView{views: views, size: size} } // TrimFront removes the first "count" bytes of the vectorised view. func (vv *VectorisedView) TrimFront(count int) { for count > 0 && len(vv.views) > 0 { if count < len(vv.views[0]) { vv.size -= count vv.views[0].TrimFront(count) return } count -= len(vv.views[0]) vv.RemoveFirst() } } // CapLength irreversibly reduces the length of the vectorised view. func (vv *VectorisedView) CapLength(length int) { if length < 0 { length = 0 } if vv.size < length { return } vv.size = length for i := range vv.views { v := &vv.views[i] if len(*v) >= length { if length == 0 { vv.views = vv.views[:i] } else { v.CapLength(length) vv.views = vv.views[:i+1] } return } length -= len(*v) } } // Clone returns a clone of this VectorisedView. // If the buffer argument is large enough to contain all the Views of this VectorisedView, // the method will avoid allocations and use the buffer to store the Views of the clone. func (vv *VectorisedView) Clone(buffer []View) VectorisedView { var views []View if len(buffer) >= len(vv.views) { views = buffer[:len(vv.views)] } else { views = make([]View, len(vv.views)) } for i, v := range vv.views { views[i] = v } return VectorisedView{views: views, size: vv.size} } // First returns the first view of the vectorised view. func (vv *VectorisedView) First() View { if len(vv.views) == 0 { return nil } return vv.views[0] } // RemoveFirst removes the first view of the vectorised view. func (vv *VectorisedView) RemoveFirst() { if len(vv.views) == 0 { return } vv.size -= len(vv.views[0]) vv.views = vv.views[1:] } // SetSize unsafely sets the size of the VectorisedView. func (vv *VectorisedView) SetSize(size int) { vv.size = size } // SetViews unsafely sets the views of the VectorisedView. func (vv *VectorisedView) SetViews(views []View) { vv.views = views } // Size returns the size in bytes of the entire content stored in the vectorised view. func (vv *VectorisedView) Size() int { return vv.size } // ToView returns the a single view containing the content of the vectorised view. func (vv *VectorisedView) ToView() View { v := make([]byte, vv.size) u := v for i := range vv.views { n := copy(u, vv.views[i]) u = u[n:] } return v } // Views returns the slice containing the all views. func (vv *VectorisedView) Views() []View { return vv.views } // ByteSlice returns a slice containing the all views as a []byte. func (vv *VectorisedView) ByteSlice() [][]byte { s := make([][]byte, len(vv.views)) for i := range vv.views { s[i] = []byte(vv.views[i]) } return s } // copy returns a deep-copy of the vectorised view. // It is an expensive method that should be used only in tests. func (vv *VectorisedView) copy() *VectorisedView { uu := &VectorisedView{ views: make([]View, len(vv.views)), size: vv.size, } for i, v := range vv.views { uu.views[i] = make(View, len(v)) copy(uu.views[i], v) } return uu }