github.com/agvvsivakiran/terraform@v0.11.12-beta1/moduledeps/module.go (about) 1 package moduledeps 2 3 import ( 4 "sort" 5 "strings" 6 7 "github.com/hashicorp/terraform/plugin/discovery" 8 ) 9 10 // Module represents the dependencies of a single module, as well being 11 // a node in a tree of such structures representing the dependencies of 12 // an entire configuration. 13 type Module struct { 14 Name string 15 Providers Providers 16 Children []*Module 17 } 18 19 // WalkFunc is a callback type for use with Module.WalkTree 20 type WalkFunc func(path []string, parent *Module, current *Module) error 21 22 // WalkTree calls the given callback once for the receiver and then 23 // once for each descendent, in an order such that parents are called 24 // before their children and siblings are called in the order they 25 // appear in the Children slice. 26 // 27 // When calling the callback, parent will be nil for the first call 28 // for the receiving module, and then set to the direct parent of 29 // each module for the subsequent calls. 30 // 31 // The path given to the callback is valid only until the callback 32 // returns, after which it will be mutated and reused. Callbacks must 33 // therefore copy the path slice if they wish to retain it. 34 // 35 // If the given callback returns an error, the walk will be aborted at 36 // that point and that error returned to the caller. 37 // 38 // This function is not thread-safe for concurrent modifications of the 39 // data structure, so it's the caller's responsibility to arrange for that 40 // should it be needed. 41 // 42 // It is safe for a callback to modify the descendents of the "current" 43 // module, including the ordering of the Children slice itself, but the 44 // callback MUST NOT modify the parent module. 45 func (m *Module) WalkTree(cb WalkFunc) error { 46 return walkModuleTree(make([]string, 0, 1), nil, m, cb) 47 } 48 49 func walkModuleTree(path []string, parent *Module, current *Module, cb WalkFunc) error { 50 path = append(path, current.Name) 51 err := cb(path, parent, current) 52 if err != nil { 53 return err 54 } 55 56 for _, child := range current.Children { 57 err := walkModuleTree(path, current, child, cb) 58 if err != nil { 59 return err 60 } 61 } 62 return nil 63 } 64 65 // SortChildren sorts the Children slice into lexicographic order by 66 // name, in-place. 67 // 68 // This is primarily useful prior to calling WalkTree so that the walk 69 // will proceed in a consistent order. 70 func (m *Module) SortChildren() { 71 sort.Sort(sortModules{m.Children}) 72 } 73 74 // SortDescendents is a convenience wrapper for calling SortChildren on 75 // the receiver and all of its descendent modules. 76 func (m *Module) SortDescendents() { 77 m.WalkTree(func(path []string, parent *Module, current *Module) error { 78 current.SortChildren() 79 return nil 80 }) 81 } 82 83 type sortModules struct { 84 modules []*Module 85 } 86 87 func (s sortModules) Len() int { 88 return len(s.modules) 89 } 90 91 func (s sortModules) Less(i, j int) bool { 92 cmp := strings.Compare(s.modules[i].Name, s.modules[j].Name) 93 return cmp < 0 94 } 95 96 func (s sortModules) Swap(i, j int) { 97 s.modules[i], s.modules[j] = s.modules[j], s.modules[i] 98 } 99 100 // PluginRequirements produces a PluginRequirements structure that can 101 // be used with discovery.PluginMetaSet.ConstrainVersions to identify 102 // suitable plugins to satisfy the module's provider dependencies. 103 // 104 // This method only considers the direct requirements of the receiver. 105 // Use AllPluginRequirements to flatten the dependencies for the 106 // entire tree of modules. 107 // 108 // Requirements returned by this method include only version constraints, 109 // and apply no particular SHA256 hash constraint. 110 func (m *Module) PluginRequirements() discovery.PluginRequirements { 111 ret := make(discovery.PluginRequirements) 112 for inst, dep := range m.Providers { 113 // m.Providers is keyed on provider names, such as "aws.foo". 114 // a PluginRequirements wants keys to be provider *types*, such 115 // as "aws". If there are multiple aliases for the same 116 // provider then we will flatten them into a single requirement 117 // by combining their constraint sets. 118 pty := inst.Type() 119 if existing, exists := ret[pty]; exists { 120 ret[pty].Versions = existing.Versions.Append(dep.Constraints) 121 } else { 122 ret[pty] = &discovery.PluginConstraints{ 123 Versions: dep.Constraints, 124 } 125 } 126 } 127 return ret 128 } 129 130 // AllPluginRequirements calls PluginRequirements for the receiver and all 131 // of its descendents, and merges the result into a single PluginRequirements 132 // structure that would satisfy all of the modules together. 133 // 134 // Requirements returned by this method include only version constraints, 135 // and apply no particular SHA256 hash constraint. 136 func (m *Module) AllPluginRequirements() discovery.PluginRequirements { 137 var ret discovery.PluginRequirements 138 m.WalkTree(func(path []string, parent *Module, current *Module) error { 139 ret = ret.Merge(current.PluginRequirements()) 140 return nil 141 }) 142 return ret 143 } 144 145 // Equal returns true if the receiver is the root of an identical tree 146 // to the other given Module. This is a deep comparison that considers 147 // the equality of all downstream modules too. 148 // 149 // The children are considered to be ordered, so callers may wish to use 150 // SortDescendents first to normalize the order of the slices of child nodes. 151 // 152 // The implementation of this function is not optimized since it is provided 153 // primarily for use in tests. 154 func (m *Module) Equal(other *Module) bool { 155 // take care of nils first 156 if m == nil && other == nil { 157 return true 158 } else if (m == nil && other != nil) || (m != nil && other == nil) { 159 return false 160 } 161 162 if m.Name != other.Name { 163 return false 164 } 165 166 if len(m.Providers) != len(other.Providers) { 167 return false 168 } 169 if len(m.Children) != len(other.Children) { 170 return false 171 } 172 173 // Can't use reflect.DeepEqual on this provider structure because 174 // the nested Constraints objects contain function pointers that 175 // never compare as equal. So we'll need to walk it the long way. 176 for inst, dep := range m.Providers { 177 if _, exists := other.Providers[inst]; !exists { 178 return false 179 } 180 181 if dep.Reason != other.Providers[inst].Reason { 182 return false 183 } 184 185 // Constraints are not too easy to compare robustly, so 186 // we'll just use their string representations as a proxy 187 // for now. 188 if dep.Constraints.String() != other.Providers[inst].Constraints.String() { 189 return false 190 } 191 } 192 193 // Above we already checked that we have the same number of children 194 // in each module, so now we just need to check that they are 195 // recursively equal. 196 for i := range m.Children { 197 if !m.Children[i].Equal(other.Children[i]) { 198 return false 199 } 200 } 201 202 // If we fall out here then they are equal 203 return true 204 }