github.com/turtlemonvh/terraform@v0.6.9-0.20151204001754-8e40b6b855e8/website/source/docs/configuration/interpolation.html.md (about) 1 --- 2 layout: "docs" 3 page_title: "Interpolation Syntax" 4 sidebar_current: "docs-config-interpolation" 5 description: |- 6 Embedded within strings in Terraform, whether you're using the Terraform syntax or JSON syntax, you can interpolate other values into strings. These interpolations are wrapped in `${}`, such as `${var.foo}`. 7 --- 8 9 # Interpolation Syntax 10 11 Embedded within strings in Terraform, whether you're using the 12 Terraform syntax or JSON syntax, you can interpolate other values 13 into strings. These interpolations are wrapped in `${}`, such as 14 `${var.foo}`. 15 16 The interpolation syntax is powerful and allows you to reference 17 variables, attributes of resources, call functions, etc. 18 19 You can also perform simple math in interpolations, allowing 20 you to write expressions such as `${count.index + 1}`. 21 22 You can escape interpolation with double dollar signs: `$${foo}` 23 will be rendered as a literal `${foo}`. 24 25 ## Available Variables 26 27 **To reference user variables**, use the `var.` prefix followed by the 28 variable name. For example, `${var.foo}` will interpolate the 29 `foo` variable value. If the variable is a mapping, then you 30 can reference static keys in the map with the syntax 31 `var.MAP.KEY`. For example, `${var.amis.us-east-1}` would 32 get the value of the `us-east-1` key within the `amis` variable 33 that is a mapping. 34 35 **To reference attributes of your own resource**, the syntax is 36 `self.ATTRIBUTE`. For example `${self.private_ip_address}` will 37 interpolate that resource's private IP address. Note that this is 38 only allowed/valid within provisioners. 39 40 **To reference attributes of other resources**, the syntax is 41 `TYPE.NAME.ATTRIBUTE`. For example, `${aws_instance.web.id}` 42 will interpolate the ID attribute from the "aws\_instance" 43 resource named "web". If the resource has a `count` attribute set, 44 you can access individual attributes with a zero-based index, such 45 as `${aws_instance.web.0.id}`. You can also use the splat syntax 46 to get a list of all the attributes: `${aws_instance.web.*.id}`. 47 This is documented in more detail in the 48 [resource configuration page](/docs/configuration/resources.html). 49 50 **To reference outputs from a module**, the syntax is 51 `MODULE.NAME.OUTPUT`. For example `${module.foo.bar}` will 52 interpolate the "bar" output from the "foo" 53 [module](/docs/modules/index.html). 54 55 **To reference count information**, the syntax is `count.FIELD`. 56 For example, `${count.index}` will interpolate the current index 57 in a multi-count resource. For more information on count, see the 58 resource configuration page. 59 60 <a id="path-variables"></a> 61 62 **To reference path information**, the syntax is `path.TYPE`. 63 TYPE can be `cwd`, `module`, or `root`. `cwd` will interpolate the 64 cwd. `module` will interpolate the path to the current module. `root` 65 will interpolate the path of the root module. In general, you probably 66 want the `path.module` variable. 67 68 ## Built-in Functions 69 70 Terraform ships with built-in functions. Functions are called with 71 the syntax `name(arg, arg2, ...)`. For example, 72 to read a file: `${file("path.txt")}`. The built-in functions 73 are documented below. 74 75 The supported built-in functions are: 76 77 * `base64decode(string)` - Given a base64-encoded string, decodes it and 78 returns the original string. 79 80 * `base64encode(string)` - Returns a base64-encoded representation of the 81 given string. 82 83 * `cidrhost(iprange, hostnum)` - Takes an IP address range in CIDR notation 84 and creates an IP address with the given host number. For example, 85 ``cidrhost("10.0.0.0/8", 2)`` returns ``10.0.0.2``. 86 87 * `cidrnetmask(iprange)` - Takes an IP address range in CIDR notation 88 and returns the address-formatted subnet mask format that some 89 systems expect for IPv4 interfaces. For example, 90 ``cidrmask("10.0.0.0/8")`` returns ``255.0.0.0``. Not applicable 91 to IPv6 networks since CIDR notation is the only valid notation for 92 IPv6. 93 94 * `cidrsubnet(iprange, newbits, netnum)` - Takes an IP address range in 95 CIDR notation (like ``10.0.0.0/8``) and extends its prefix to include an 96 additional subnet number. For example, 97 ``cidrsubnet("10.0.0.0/8", 8, 2)`` returns ``10.2.0.0/16``. 98 99 * `coalesce(string1, string2, ...)` - Returns the first non-empty value from 100 the given arguments. At least two arguments must be provided. 101 102 * `compact(list)` - Removes empty string elements from a list. This can be 103 useful in some cases, for example when passing joined lists as module 104 variables or when parsing module outputs. 105 Example: `compact(module.my_asg.load_balancer_names)` 106 107 * `concat(list1, list2)` - Combines two or more lists into a single list. 108 Example: `concat(aws_instance.db.*.tags.Name, aws_instance.web.*.tags.Name)` 109 110 * `element(list, index)` - Returns a single element from a list 111 at the given index. If the index is greater than the number of 112 elements, this function will wrap using a standard mod algorithm. 113 A list is only possible with splat variables from resources with 114 a count greater than one. 115 Example: `element(aws_subnet.foo.*.id, count.index)` 116 117 * `file(path)` - Reads the contents of a file into the string. Variables 118 in this file are _not_ interpolated. The contents of the file are 119 read as-is. 120 121 * `format(format, args...)` - Formats a string according to the given 122 format. The syntax for the format is standard `sprintf` syntax. 123 Good documentation for the syntax can be [found here](http://golang.org/pkg/fmt/). 124 Example to zero-prefix a count, used commonly for naming servers: 125 `format("web-%03d", count.index + 1)`. 126 127 * `formatlist(format, args...)` - Formats each element of a list 128 according to the given format, similarly to `format`, and returns a list. 129 Non-list arguments are repeated for each list element. 130 For example, to convert a list of DNS addresses to a list of URLs, you might use: 131 `formatlist("https://%s:%s/", aws_instance.foo.*.public_dns, var.port)`. 132 If multiple args are lists, and they have the same number of elements, then the formatting is applied to the elements of the lists in parallel. 133 Example: 134 `formatlist("instance %v has private ip %v", aws_instance.foo.*.id, aws_instance.foo.*.private_ip)`. 135 Passing lists with different lengths to formatlist results in an error. 136 137 * `index(list, elem)` - Finds the index of a given element in a list. Example: 138 `index(aws_instance.foo.*.tags.Name, "foo-test")` 139 140 * `join(delim, list)` - Joins the list with the delimiter. A list is 141 only possible with splat variables from resources with a count 142 greater than one. Example: `join(",", aws_instance.foo.*.id)` 143 144 * `length(list)` - Returns a number of members in a given list 145 or a number of characters in a given string. 146 * `${length(split(",", "a,b,c"))}` = 3 147 * `${length("a,b,c")}` = 5 148 149 * `lookup(map, key)` - Performs a dynamic lookup into a mapping 150 variable. The `map` parameter should be another variable, such 151 as `var.amis`. 152 153 * `lower(string)` - returns a copy of the string with all Unicode letters mapped to their lower case. 154 155 * `replace(string, search, replace)` - Does a search and replace on the 156 given string. All instances of `search` are replaced with the value 157 of `replace`. If `search` is wrapped in forward slashes, it is treated 158 as a regular expression. If using a regular expression, `replace` 159 can reference subcaptures in the regular expression by using `$n` where 160 `n` is the index or name of the subcapture. If using a regular expression, 161 the syntax conforms to the [re2 regular expression syntax](https://code.google.com/p/re2/wiki/Syntax). 162 163 * `split(delim, string)` - Splits the string previously created by `join` 164 back into a list. This is useful for pushing lists through module 165 outputs since they currently only support string values. Depending on the 166 use, the string this is being performed within may need to be wrapped 167 in brackets to indicate that the output is actually a list, e.g. 168 `a_resource_param = ["${split(",", var.CSV_STRING)}"]`. 169 Example: `split(",", module.amod.server_ids)` 170 171 * `upper(string)` - returns a copy of the string with all Unicode letters mapped to their upper case. 172 173 ## Templates 174 175 Long strings can be managed using templates. [Templates](/docs/providers/template/index.html) are [resources](/docs/configuration/resources.html) defined by a filename and some variables to use during interpolation. They have a computed `rendered` attribute containing the result. 176 177 A template resource looks like: 178 179 ``` 180 resource "template_file" "example" { 181 template = "${hello} ${world}!" 182 vars { 183 hello = "goodnight" 184 world = "moon" 185 } 186 } 187 188 output "rendered" { 189 value = "${template_file.example.rendered}" 190 } 191 ``` 192 193 Then the rendered value would be `goodnight moon!`. 194 195 You may use any of the built-in functions in your template. 196 197 ### Using Templates with Count 198 199 Here is an example that combines the capabilities of templates with the interpolation 200 from `count` to give us a parametized template, unique to each resource instance: 201 202 ``` 203 variable "count" { 204 default = 2 205 } 206 207 variable "hostnames" { 208 default = { 209 "0" = "example1.org" 210 "1" = "example2.net" 211 } 212 } 213 214 resource "template_file" "web_init" { 215 // here we expand multiple template_files - the same number as we have instances 216 count = "${var.count}" 217 template = "${file("templates/web_init.tpl")}" 218 vars { 219 // that gives us access to use count.index to do the lookup 220 hostname = "${lookup(var.hostnames, count.index)}" 221 } 222 } 223 224 resource "aws_instance" "web" { 225 // ... 226 count = "${var.count}" 227 // here we link each web instance to the proper template_file 228 user_data = "${element(template_file.web_init.*.rendered, count.index)}" 229 } 230 ``` 231 232 With this, we will build a list of `template_file.web_init` resources which we can 233 use in combination with our list of `aws_instance.web` resources. 234 235 ## Math 236 237 Simple math can be performed in interpolations: 238 239 ``` 240 variable "count" { 241 default = 2 242 } 243 244 resource "aws_instance" "web" { 245 // ... 246 count = "${var.count}" 247 248 // tag the instance with a counter starting at 1, ie. web-001 249 tags { 250 Name = "${format("web-%03d", count.index + 1)}" 251 } 252 } 253 ``` 254 255 The supported operations are: 256 257 - *Add*, *Subtract*, *Multiply*, and *Divide* for **float** types 258 - *Add*, *Subtract*, *Multiply*, *Divide*, and *Modulo* for **integer** types 259 260 -> **Note:** Since Terraform allows hyphens in resource and variable names, 261 it's best to use spaces between math operators to prevent confusion or unexpected 262 behavior. For example, `${var.instance-count - 1}` will subtract **1** from the 263 `instance-count` variable value, while `${var.instance-count-1}` will interpolate 264 the `instance-count-1` variable value.