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gerrit.omnirom.org / android_build_soong / b1103e257851459da0493b33765935d41fe7d742 / . / mk2rbc / mk2rbc.go
blob: 28c4f7b32691a4bbc2bcbed5050f98ceb3b52b3b [file] [log] [blame]
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1// Copyright 2021 Google LLC
2//
3// Licensed under the Apache License, Version 2.0 (the "License");
4// you may not use this file except in compliance with the License.
5// You may obtain a copy of the License at
6//
7// http://www.apache.org/licenses/LICENSE-2.0
8//
9// Unless required by applicable law or agreed to in writing, software
10// distributed under the License is distributed on an "AS IS" BASIS,
11// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12// See the License for the specific language governing permissions and
13// limitations under the License.
14
15// Convert makefile containing device configuration to Starlark file
16// The conversion can handle the following constructs in a makefile:
17// * comments
18// * simple variable assignments
19// * $(call init-product,<file>)
20// * $(call inherit-product-if-exists
21// * if directives
22// All other constructs are carried over to the output starlark file as comments.
23//
24package mk2rbc
25
26import (
27 "bytes"
28 "fmt"
29 "io"
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]30 "io/fs"
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]31 "io/ioutil"
32 "os"
33 "path/filepath"
34 "regexp"
35 "strconv"
36 "strings"
37 "text/scanner"
38
39 mkparser "android/soong/androidmk/parser"
40)
41
42const (
Sasha Smundak6d852dd2021-09-27 20:34:39 -0700[diff] [blame]43 annotationCommentPrefix = "RBC#"
44 baseUri = "//build/make/core:product_config.rbc"
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]45 // The name of the struct exported by the product_config.rbc
46 // that contains the functions and variables available to
47 // product configuration Starlark files.
48 baseName = "rblf"
49
Sasha Smundak65b547e2021-09-17 15:35:41 -0700[diff] [blame]50 soongNsPrefix = "SOONG_CONFIG_"
51
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]52 // And here are the functions and variables:
53 cfnGetCfg = baseName + ".cfg"
54 cfnMain = baseName + ".product_configuration"
Cole Faust6ed7cb42021-10-07 17:08:46 -0700[diff] [blame]55 cfnBoardMain = baseName + ".board_configuration"
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]56 cfnPrintVars = baseName + ".printvars"
57 cfnWarning = baseName + ".warning"
58 cfnLocalAppend = baseName + ".local_append"
59 cfnLocalSetDefault = baseName + ".local_set_default"
60 cfnInherit = baseName + ".inherit"
61 cfnSetListDefault = baseName + ".setdefault"
62)
63
64const (
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]65 soongConfigAppend = "soong_config_append"
66 soongConfigAssign = "soong_config_set"
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]67)
68
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]69var knownFunctions = map[string]interface {
70 parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]71}{
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]72 "abspath": &simpleCallParser{name: baseName + ".abspath", returnType: starlarkTypeString, addGlobals: false},
73 "add_soong_config_namespace": &simpleCallParser{name: baseName + ".soong_config_namespace", returnType: starlarkTypeVoid, addGlobals: true},
74 "add_soong_config_var_value": &simpleCallParser{name: baseName + ".soong_config_set", returnType: starlarkTypeVoid, addGlobals: true},
75 soongConfigAssign: &simpleCallParser{name: baseName + ".soong_config_set", returnType: starlarkTypeVoid, addGlobals: true},
76 soongConfigAppend: &simpleCallParser{name: baseName + ".soong_config_append", returnType: starlarkTypeVoid, addGlobals: true},
77 "soong_config_get": &simpleCallParser{name: baseName + ".soong_config_get", returnType: starlarkTypeString, addGlobals: true},
78 "add-to-product-copy-files-if-exists": &simpleCallParser{name: baseName + ".copy_if_exists", returnType: starlarkTypeList, addGlobals: false},
79 "addprefix": &simpleCallParser{name: baseName + ".addprefix", returnType: starlarkTypeList, addGlobals: false},
80 "addsuffix": &simpleCallParser{name: baseName + ".addsuffix", returnType: starlarkTypeList, addGlobals: false},
81 "copy-files": &simpleCallParser{name: baseName + ".copy_files", returnType: starlarkTypeList, addGlobals: false},
82 "dir": &simpleCallParser{name: baseName + ".dir", returnType: starlarkTypeList, addGlobals: false},
83 "dist-for-goals": &simpleCallParser{name: baseName + ".mkdist_for_goals", returnType: starlarkTypeVoid, addGlobals: true},
84 "enforce-product-packages-exist": &simpleCallParser{name: baseName + ".enforce_product_packages_exist", returnType: starlarkTypeVoid, addGlobals: false},
85 "error": &makeControlFuncParser{name: baseName + ".mkerror"},
86 "findstring": &simpleCallParser{name: baseName + ".findstring", returnType: starlarkTypeInt, addGlobals: false},
87 "find-copy-subdir-files": &simpleCallParser{name: baseName + ".find_and_copy", returnType: starlarkTypeList, addGlobals: false},
88 "filter": &simpleCallParser{name: baseName + ".filter", returnType: starlarkTypeList, addGlobals: false},
89 "filter-out": &simpleCallParser{name: baseName + ".filter_out", returnType: starlarkTypeList, addGlobals: false},
90 "firstword": &firstOrLastwordCallParser{isLastWord: false},
91 "foreach": &foreachCallPaser{},
92 "if": &ifCallParser{},
93 "info": &makeControlFuncParser{name: baseName + ".mkinfo"},
94 "is-board-platform": &isBoardPlatformCallParser{},
95 "is-board-platform2": &simpleCallParser{name: baseName + ".board_platform_is", returnType: starlarkTypeBool, addGlobals: true},
96 "is-board-platform-in-list": &isBoardPlatformInListCallParser{},
97 "is-board-platform-in-list2": &simpleCallParser{name: baseName + ".board_platform_in", returnType: starlarkTypeBool, addGlobals: true},
98 "is-product-in-list": &isProductInListCallParser{},
99 "is-vendor-board-platform": &isVendorBoardPlatformCallParser{},
100 "is-vendor-board-qcom": &isVendorBoardQcomCallParser{},
101 "lastword": &firstOrLastwordCallParser{isLastWord: true},
102 "notdir": &simpleCallParser{name: baseName + ".notdir", returnType: starlarkTypeString, addGlobals: false},
Cole Faustb1103e22022-01-06 15:22:05 -0800[diff] [blame^]103 "math_max": &mathMaxOrMinCallParser{function: "max"},
104 "math_min": &mathMaxOrMinCallParser{function: "min"},
105 "math_gt_or_eq": &mathComparisonCallParser{op: ">="},
106 "math_gt": &mathComparisonCallParser{op: ">"},
107 "math_lt": &mathComparisonCallParser{op: "<"},
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]108 "my-dir": &myDirCallParser{},
109 "patsubst": &substCallParser{fname: "patsubst"},
110 "product-copy-files-by-pattern": &simpleCallParser{name: baseName + ".product_copy_files_by_pattern", returnType: starlarkTypeList, addGlobals: false},
111 "require-artifacts-in-path": &simpleCallParser{name: baseName + ".require_artifacts_in_path", returnType: starlarkTypeVoid, addGlobals: false},
112 "require-artifacts-in-path-relaxed": &simpleCallParser{name: baseName + ".require_artifacts_in_path_relaxed", returnType: starlarkTypeVoid, addGlobals: false},
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]113 // TODO(asmundak): remove it once all calls are removed from configuration makefiles. see b/183161002
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]114 "shell": &shellCallParser{},
115 "strip": &simpleCallParser{name: baseName + ".mkstrip", returnType: starlarkTypeString, addGlobals: false},
116 "subst": &substCallParser{fname: "subst"},
117 "warning": &makeControlFuncParser{name: baseName + ".mkwarning"},
118 "word": &wordCallParser{},
119 "wildcard": &simpleCallParser{name: baseName + ".expand_wildcard", returnType: starlarkTypeList, addGlobals: false},
120}
121
122// These are functions that we don't implement conversions for, but
123// we allow seeing their definitions in the product config files.
124var ignoredDefines = map[string]bool{
125 "find-word-in-list": true, // internal macro
126 "get-vendor-board-platforms": true, // internal macro, used by is-board-platform, etc.
127 "is-android-codename": true, // unused by product config
128 "is-android-codename-in-list": true, // unused by product config
129 "is-chipset-in-board-platform": true, // unused by product config
130 "is-chipset-prefix-in-board-platform": true, // unused by product config
131 "is-not-board-platform": true, // defined but never used
132 "is-platform-sdk-version-at-least": true, // unused by product config
133 "match-prefix": true, // internal macro
134 "match-word": true, // internal macro
135 "match-word-in-list": true, // internal macro
136 "tb-modules": true, // defined in hardware/amlogic/tb_modules/tb_detect.mk, unused
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]137}
138
Cole Faustb0d32ab2021-12-09 14:00:59 -0800[diff] [blame]139var identifierFullMatchRegex = regexp.MustCompile("^[a-zA-Z_][a-zA-Z0-9_]*$")
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]140
141// Conversion request parameters
142type Request struct {
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]143 MkFile string // file to convert
144 Reader io.Reader // if set, read input from this stream instead
145 RootDir string // root directory path used to resolve included files
146 OutputSuffix string // generated Starlark files suffix
147 OutputDir string // if set, root of the output hierarchy
148 ErrorLogger ErrorLogger
149 TracedVariables []string // trace assignment to these variables
150 TraceCalls bool
151 SourceFS fs.FS
152 MakefileFinder MakefileFinder
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]153}
154
Sasha Smundak7d934b92021-11-10 12:20:01 -0800[diff] [blame]155// ErrorLogger prints errors and gathers error statistics.
156// Its NewError function is called on every error encountered during the conversion.
157type ErrorLogger interface {
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]158 NewError(el ErrorLocation, node mkparser.Node, text string, args ...interface{})
159}
160
161type ErrorLocation struct {
162 MkFile string
163 MkLine int
164}
165
166func (el ErrorLocation) String() string {
167 return fmt.Sprintf("%s:%d", el.MkFile, el.MkLine)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]168}
169
170// Derives module name for a given file. It is base name
171// (file name without suffix), with some characters replaced to make it a Starlark identifier
172func moduleNameForFile(mkFile string) string {
173 base := strings.TrimSuffix(filepath.Base(mkFile), filepath.Ext(mkFile))
174 // TODO(asmundak): what else can be in the product file names?
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]175 return strings.NewReplacer("-", "_", ".", "_").Replace(base)
176
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]177}
178
179func cloneMakeString(mkString *mkparser.MakeString) *mkparser.MakeString {
180 r := &mkparser.MakeString{StringPos: mkString.StringPos}
181 r.Strings = append(r.Strings, mkString.Strings...)
182 r.Variables = append(r.Variables, mkString.Variables...)
183 return r
184}
185
186func isMakeControlFunc(s string) bool {
187 return s == "error" || s == "warning" || s == "info"
188}
189
190// Starlark output generation context
191type generationContext struct {
192 buf strings.Builder
193 starScript *StarlarkScript
194 indentLevel int
195 inAssignment bool
196 tracedCount int
197}
198
199func NewGenerateContext(ss *StarlarkScript) *generationContext {
200 return &generationContext{starScript: ss}
201}
202
203// emit returns generated script
204func (gctx *generationContext) emit() string {
205 ss := gctx.starScript
206
207 // The emitted code has the following layout:
208 // <initial comments>
209 // preamble, i.e.,
210 // load statement for the runtime support
211 // load statement for each unique submodule pulled in by this one
212 // def init(g, handle):
213 // cfg = rblf.cfg(handle)
214 // <statements>
215 // <warning if conversion was not clean>
216
217 iNode := len(ss.nodes)
218 for i, node := range ss.nodes {
219 if _, ok := node.(*commentNode); !ok {
220 iNode = i
221 break
222 }
223 node.emit(gctx)
224 }
225
226 gctx.emitPreamble()
227
228 gctx.newLine()
229 // The arguments passed to the init function are the global dictionary
230 // ('g') and the product configuration dictionary ('cfg')
231 gctx.write("def init(g, handle):")
232 gctx.indentLevel++
233 if gctx.starScript.traceCalls {
234 gctx.newLine()
235 gctx.writef(`print(">%s")`, gctx.starScript.mkFile)
236 }
237 gctx.newLine()
238 gctx.writef("cfg = %s(handle)", cfnGetCfg)
239 for _, node := range ss.nodes[iNode:] {
240 node.emit(gctx)
241 }
242
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]243 if gctx.starScript.traceCalls {
244 gctx.newLine()
245 gctx.writef(`print("<%s")`, gctx.starScript.mkFile)
246 }
247 gctx.indentLevel--
248 gctx.write("\n")
249 return gctx.buf.String()
250}
251
252func (gctx *generationContext) emitPreamble() {
253 gctx.newLine()
254 gctx.writef("load(%q, %q)", baseUri, baseName)
255 // Emit exactly one load statement for each URI.
256 loadedSubConfigs := make(map[string]string)
257 for _, sc := range gctx.starScript.inherited {
258 uri := sc.path
259 if m, ok := loadedSubConfigs[uri]; ok {
260 // No need to emit load statement, but fix module name.
261 sc.moduleLocalName = m
262 continue
263 }
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]264 if sc.optional {
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]265 uri += "|init"
266 }
267 gctx.newLine()
268 gctx.writef("load(%q, %s = \"init\")", uri, sc.entryName())
269 loadedSubConfigs[uri] = sc.moduleLocalName
270 }
271 gctx.write("\n")
272}
273
274func (gctx *generationContext) emitPass() {
275 gctx.newLine()
276 gctx.write("pass")
277}
278
279func (gctx *generationContext) write(ss ...string) {
280 for _, s := range ss {
281 gctx.buf.WriteString(s)
282 }
283}
284
285func (gctx *generationContext) writef(format string, args ...interface{}) {
286 gctx.write(fmt.Sprintf(format, args...))
287}
288
289func (gctx *generationContext) newLine() {
290 if gctx.buf.Len() == 0 {
291 return
292 }
293 gctx.write("\n")
294 gctx.writef("%*s", 2*gctx.indentLevel, "")
295}
296
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]297func (gctx *generationContext) emitConversionError(el ErrorLocation, message string) {
298 gctx.writef(`rblf.mk2rbc_error("%s", %q)`, el, message)
299}
300
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]301type knownVariable struct {
302 name string
303 class varClass
304 valueType starlarkType
305}
306
307type knownVariables map[string]knownVariable
308
309func (pcv knownVariables) NewVariable(name string, varClass varClass, valueType starlarkType) {
310 v, exists := pcv[name]
311 if !exists {
312 pcv[name] = knownVariable{name, varClass, valueType}
313 return
314 }
315 // Conflict resolution:
316 // * config class trumps everything
317 // * any type trumps unknown type
318 match := varClass == v.class
319 if !match {
320 if varClass == VarClassConfig {
321 v.class = VarClassConfig
322 match = true
323 } else if v.class == VarClassConfig {
324 match = true
325 }
326 }
327 if valueType != v.valueType {
328 if valueType != starlarkTypeUnknown {
329 if v.valueType == starlarkTypeUnknown {
330 v.valueType = valueType
331 } else {
332 match = false
333 }
334 }
335 }
336 if !match {
337 fmt.Fprintf(os.Stderr, "cannot redefine %s as %v/%v (already defined as %v/%v)\n",
338 name, varClass, valueType, v.class, v.valueType)
339 }
340}
341
342// All known product variables.
343var KnownVariables = make(knownVariables)
344
345func init() {
346 for _, kv := range []string{
347 // Kernel-related variables that we know are lists.
348 "BOARD_VENDOR_KERNEL_MODULES",
349 "BOARD_VENDOR_RAMDISK_KERNEL_MODULES",
350 "BOARD_VENDOR_RAMDISK_KERNEL_MODULES_LOAD",
351 "BOARD_RECOVERY_KERNEL_MODULES",
352 // Other variables we knwo are lists
353 "ART_APEX_JARS",
354 } {
355 KnownVariables.NewVariable(kv, VarClassSoong, starlarkTypeList)
356 }
357}
358
359type nodeReceiver interface {
360 newNode(node starlarkNode)
361}
362
363// Information about the generated Starlark script.
364type StarlarkScript struct {
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]365 mkFile string
366 moduleName string
367 mkPos scanner.Position
368 nodes []starlarkNode
369 inherited []*moduleInfo
370 hasErrors bool
371 topDir string
372 traceCalls bool // print enter/exit each init function
373 sourceFS fs.FS
374 makefileFinder MakefileFinder
375 nodeLocator func(pos mkparser.Pos) int
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]376}
377
378func (ss *StarlarkScript) newNode(node starlarkNode) {
379 ss.nodes = append(ss.nodes, node)
380}
381
382// varAssignmentScope points to the last assignment for each variable
383// in the current block. It is used during the parsing to chain
384// the assignments to a variable together.
385type varAssignmentScope struct {
386 outer *varAssignmentScope
387 vars map[string]*assignmentNode
388}
389
390// parseContext holds the script we are generating and all the ephemeral data
391// needed during the parsing.
392type parseContext struct {
393 script *StarlarkScript
394 nodes []mkparser.Node // Makefile as parsed by mkparser
395 currentNodeIndex int // Node in it we are processing
396 ifNestLevel int
397 moduleNameCount map[string]int // count of imported modules with given basename
398 fatalError error
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]399 outputSuffix string
Sasha Smundak7d934b92021-11-10 12:20:01 -0800[diff] [blame]400 errorLogger ErrorLogger
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]401 tracedVariables map[string]bool // variables to be traced in the generated script
402 variables map[string]variable
403 varAssignments *varAssignmentScope
404 receiver nodeReceiver // receptacle for the generated starlarkNode's
405 receiverStack []nodeReceiver
406 outputDir string
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]407 dependentModules map[string]*moduleInfo
Sasha Smundak3deb9682021-07-26 18:42:25 -0700[diff] [blame]408 soongNamespaces map[string]map[string]bool
Sasha Smundak6d852dd2021-09-27 20:34:39 -0700[diff] [blame]409 includeTops []string
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]410}
411
412func newParseContext(ss *StarlarkScript, nodes []mkparser.Node) *parseContext {
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]413 topdir, _ := filepath.Split(filepath.Join(ss.topDir, "foo"))
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]414 predefined := []struct{ name, value string }{
415 {"SRC_TARGET_DIR", filepath.Join("build", "make", "target")},
416 {"LOCAL_PATH", filepath.Dir(ss.mkFile)},
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]417 {"TOPDIR", topdir},
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]418 // TODO(asmundak): maybe read it from build/make/core/envsetup.mk?
419 {"TARGET_COPY_OUT_SYSTEM", "system"},
420 {"TARGET_COPY_OUT_SYSTEM_OTHER", "system_other"},
421 {"TARGET_COPY_OUT_DATA", "data"},
422 {"TARGET_COPY_OUT_ASAN", filepath.Join("data", "asan")},
423 {"TARGET_COPY_OUT_OEM", "oem"},
424 {"TARGET_COPY_OUT_RAMDISK", "ramdisk"},
425 {"TARGET_COPY_OUT_DEBUG_RAMDISK", "debug_ramdisk"},
426 {"TARGET_COPY_OUT_VENDOR_DEBUG_RAMDISK", "vendor_debug_ramdisk"},
427 {"TARGET_COPY_OUT_TEST_HARNESS_RAMDISK", "test_harness_ramdisk"},
428 {"TARGET_COPY_OUT_ROOT", "root"},
429 {"TARGET_COPY_OUT_RECOVERY", "recovery"},
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]430 {"TARGET_COPY_OUT_VENDOR_RAMDISK", "vendor_ramdisk"},
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]431 // TODO(asmundak): to process internal config files, we need the following variables:
432 // BOARD_CONFIG_VENDOR_PATH
433 // TARGET_VENDOR
434 // target_base_product
435 //
436
437 // the following utility variables are set in build/make/common/core.mk:
438 {"empty", ""},
439 {"space", " "},
440 {"comma", ","},
441 {"newline", "\n"},
442 {"pound", "#"},
443 {"backslash", "\\"},
444 }
445 ctx := &parseContext{
446 script: ss,
447 nodes: nodes,
448 currentNodeIndex: 0,
449 ifNestLevel: 0,
450 moduleNameCount: make(map[string]int),
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]451 variables: make(map[string]variable),
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]452 dependentModules: make(map[string]*moduleInfo),
Sasha Smundak3deb9682021-07-26 18:42:25 -0700[diff] [blame]453 soongNamespaces: make(map[string]map[string]bool),
Sasha Smundak6d852dd2021-09-27 20:34:39 -0700[diff] [blame]454 includeTops: []string{"vendor/google-devices"},
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]455 }
456 ctx.pushVarAssignments()
457 for _, item := range predefined {
458 ctx.variables[item.name] = &predefinedVariable{
459 baseVariable: baseVariable{nam: item.name, typ: starlarkTypeString},
460 value: &stringLiteralExpr{item.value},
461 }
462 }
463
464 return ctx
465}
466
467func (ctx *parseContext) lastAssignment(name string) *assignmentNode {
468 for va := ctx.varAssignments; va != nil; va = va.outer {
469 if v, ok := va.vars[name]; ok {
470 return v
471 }
472 }
473 return nil
474}
475
476func (ctx *parseContext) setLastAssignment(name string, asgn *assignmentNode) {
477 ctx.varAssignments.vars[name] = asgn
478}
479
480func (ctx *parseContext) pushVarAssignments() {
481 va := &varAssignmentScope{
482 outer: ctx.varAssignments,
483 vars: make(map[string]*assignmentNode),
484 }
485 ctx.varAssignments = va
486}
487
488func (ctx *parseContext) popVarAssignments() {
489 ctx.varAssignments = ctx.varAssignments.outer
490}
491
492func (ctx *parseContext) pushReceiver(rcv nodeReceiver) {
493 ctx.receiverStack = append(ctx.receiverStack, ctx.receiver)
494 ctx.receiver = rcv
495}
496
497func (ctx *parseContext) popReceiver() {
498 last := len(ctx.receiverStack) - 1
499 if last < 0 {
500 panic(fmt.Errorf("popReceiver: receiver stack empty"))
501 }
502 ctx.receiver = ctx.receiverStack[last]
503 ctx.receiverStack = ctx.receiverStack[0:last]
504}
505
506func (ctx *parseContext) hasNodes() bool {
507 return ctx.currentNodeIndex < len(ctx.nodes)
508}
509
510func (ctx *parseContext) getNode() mkparser.Node {
511 if !ctx.hasNodes() {
512 return nil
513 }
514 node := ctx.nodes[ctx.currentNodeIndex]
515 ctx.currentNodeIndex++
516 return node
517}
518
519func (ctx *parseContext) backNode() {
520 if ctx.currentNodeIndex <= 0 {
521 panic("Cannot back off")
522 }
523 ctx.currentNodeIndex--
524}
525
526func (ctx *parseContext) handleAssignment(a *mkparser.Assignment) {
527 // Handle only simple variables
528 if !a.Name.Const() {
529 ctx.errorf(a, "Only simple variables are handled")
530 return
531 }
532 name := a.Name.Strings[0]
Sasha Smundakea3bc3a2021-11-10 13:06:42 -0800[diff] [blame]533 // The `override` directive
534 // override FOO :=
535 // is parsed as an assignment to a variable named `override FOO`.
536 // There are very few places where `override` is used, just flag it.
537 if strings.HasPrefix(name, "override ") {
538 ctx.errorf(a, "cannot handle override directive")
539 }
540
Cole Faustc00184e2021-11-08 12:08:57 -0800[diff] [blame]541 // Soong configuration
Sasha Smundak3deb9682021-07-26 18:42:25 -0700[diff] [blame]542 if strings.HasPrefix(name, soongNsPrefix) {
543 ctx.handleSoongNsAssignment(strings.TrimPrefix(name, soongNsPrefix), a)
544 return
545 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]546 lhs := ctx.addVariable(name)
547 if lhs == nil {
548 ctx.errorf(a, "unknown variable %s", name)
549 return
550 }
551 _, isTraced := ctx.tracedVariables[name]
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]552 asgn := &assignmentNode{lhs: lhs, mkValue: a.Value, isTraced: isTraced, location: ctx.errorLocation(a)}
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]553 if lhs.valueType() == starlarkTypeUnknown {
554 // Try to divine variable type from the RHS
555 asgn.value = ctx.parseMakeString(a, a.Value)
556 if xBad, ok := asgn.value.(*badExpr); ok {
557 ctx.wrapBadExpr(xBad)
558 return
559 }
560 inferred_type := asgn.value.typ()
561 if inferred_type != starlarkTypeUnknown {
Sasha Smundak9d011ab2021-07-09 16:00:57 -0700[diff] [blame]562 lhs.setValueType(inferred_type)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]563 }
564 }
565 if lhs.valueType() == starlarkTypeList {
566 xConcat := ctx.buildConcatExpr(a)
567 if xConcat == nil {
568 return
569 }
570 switch len(xConcat.items) {
571 case 0:
572 asgn.value = &listExpr{}
573 case 1:
574 asgn.value = xConcat.items[0]
575 default:
576 asgn.value = xConcat
577 }
578 } else {
579 asgn.value = ctx.parseMakeString(a, a.Value)
580 if xBad, ok := asgn.value.(*badExpr); ok {
581 ctx.wrapBadExpr(xBad)
582 return
583 }
584 }
585
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]586 asgn.previous = ctx.lastAssignment(name)
587 ctx.setLastAssignment(name, asgn)
588 switch a.Type {
589 case "=", ":=":
590 asgn.flavor = asgnSet
591 case "+=":
592 if asgn.previous == nil && !asgn.lhs.isPreset() {
593 asgn.flavor = asgnMaybeAppend
594 } else {
595 asgn.flavor = asgnAppend
596 }
597 case "?=":
598 asgn.flavor = asgnMaybeSet
599 default:
600 panic(fmt.Errorf("unexpected assignment type %s", a.Type))
601 }
602
603 ctx.receiver.newNode(asgn)
604}
605
Sasha Smundak3deb9682021-07-26 18:42:25 -0700[diff] [blame]606func (ctx *parseContext) handleSoongNsAssignment(name string, asgn *mkparser.Assignment) {
607 val := ctx.parseMakeString(asgn, asgn.Value)
608 if xBad, ok := val.(*badExpr); ok {
609 ctx.wrapBadExpr(xBad)
610 return
611 }
Sasha Smundak3deb9682021-07-26 18:42:25 -0700[diff] [blame]612
613 // Unfortunately, Soong namespaces can be set up by directly setting corresponding Make
614 // variables instead of via add_soong_config_namespace + add_soong_config_var_value.
615 // Try to divine the call from the assignment as follows:
616 if name == "NAMESPACES" {
617 // Upon seeng
618 // SOONG_CONFIG_NAMESPACES += foo
619 // remember that there is a namespace `foo` and act as we saw
620 // $(call add_soong_config_namespace,foo)
621 s, ok := maybeString(val)
622 if !ok {
623 ctx.errorf(asgn, "cannot handle variables in SOONG_CONFIG_NAMESPACES assignment, please use add_soong_config_namespace instead")
624 return
625 }
626 for _, ns := range strings.Fields(s) {
627 ctx.addSoongNamespace(ns)
628 ctx.receiver.newNode(&exprNode{&callExpr{
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]629 name: baseName + ".soong_config_namespace",
630 args: []starlarkExpr{&globalsExpr{}, &stringLiteralExpr{ns}},
Sasha Smundak3deb9682021-07-26 18:42:25 -0700[diff] [blame]631 returnType: starlarkTypeVoid,
632 }})
633 }
634 } else {
635 // Upon seeing
636 // SOONG_CONFIG_x_y = v
637 // find a namespace called `x` and act as if we encountered
Cole Faustc00184e2021-11-08 12:08:57 -0800[diff] [blame]638 // $(call soong_config_set,x,y,v)
Sasha Smundak3deb9682021-07-26 18:42:25 -0700[diff] [blame]639 // or check that `x_y` is a namespace, and then add the RHS of this assignment as variables in
640 // it.
641 // Emit an error in the ambiguous situation (namespaces `foo_bar` with a variable `baz`
642 // and `foo` with a variable `bar_baz`.
643 namespaceName := ""
644 if ctx.hasSoongNamespace(name) {
645 namespaceName = name
646 }
647 var varName string
648 for pos, ch := range name {
649 if !(ch == '_' && ctx.hasSoongNamespace(name[0:pos])) {
650 continue
651 }
652 if namespaceName != "" {
653 ctx.errorf(asgn, "ambiguous soong namespace (may be either `%s` or `%s`)", namespaceName, name[0:pos])
654 return
655 }
656 namespaceName = name[0:pos]
657 varName = name[pos+1:]
658 }
659 if namespaceName == "" {
660 ctx.errorf(asgn, "cannot figure out Soong namespace, please use add_soong_config_var_value macro instead")
661 return
662 }
663 if varName == "" {
664 // Remember variables in this namespace
665 s, ok := maybeString(val)
666 if !ok {
667 ctx.errorf(asgn, "cannot handle variables in SOONG_CONFIG_ assignment, please use add_soong_config_var_value instead")
668 return
669 }
670 ctx.updateSoongNamespace(asgn.Type != "+=", namespaceName, strings.Fields(s))
671 return
672 }
673
674 // Finally, handle assignment to a namespace variable
675 if !ctx.hasNamespaceVar(namespaceName, varName) {
676 ctx.errorf(asgn, "no %s variable in %s namespace, please use add_soong_config_var_value instead", varName, namespaceName)
677 return
678 }
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]679 fname := baseName + "." + soongConfigAssign
Sasha Smundak65b547e2021-09-17 15:35:41 -0700[diff] [blame]680 if asgn.Type == "+=" {
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]681 fname = baseName + "." + soongConfigAppend
Sasha Smundak65b547e2021-09-17 15:35:41 -0700[diff] [blame]682 }
Sasha Smundak3deb9682021-07-26 18:42:25 -0700[diff] [blame]683 ctx.receiver.newNode(&exprNode{&callExpr{
Sasha Smundak65b547e2021-09-17 15:35:41 -0700[diff] [blame]684 name: fname,
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]685 args: []starlarkExpr{&globalsExpr{}, &stringLiteralExpr{namespaceName}, &stringLiteralExpr{varName}, val},
Sasha Smundak3deb9682021-07-26 18:42:25 -0700[diff] [blame]686 returnType: starlarkTypeVoid,
687 }})
688 }
689}
690
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]691func (ctx *parseContext) buildConcatExpr(a *mkparser.Assignment) *concatExpr {
692 xConcat := &concatExpr{}
693 var xItemList *listExpr
694 addToItemList := func(x ...starlarkExpr) {
695 if xItemList == nil {
696 xItemList = &listExpr{[]starlarkExpr{}}
697 }
698 xItemList.items = append(xItemList.items, x...)
699 }
700 finishItemList := func() {
701 if xItemList != nil {
702 xConcat.items = append(xConcat.items, xItemList)
703 xItemList = nil
704 }
705 }
706
707 items := a.Value.Words()
708 for _, item := range items {
709 // A function call in RHS is supposed to return a list, all other item
710 // expressions return individual elements.
711 switch x := ctx.parseMakeString(a, item).(type) {
712 case *badExpr:
713 ctx.wrapBadExpr(x)
714 return nil
715 case *stringLiteralExpr:
716 addToItemList(maybeConvertToStringList(x).(*listExpr).items...)
717 default:
718 switch x.typ() {
719 case starlarkTypeList:
720 finishItemList()
721 xConcat.items = append(xConcat.items, x)
722 case starlarkTypeString:
723 finishItemList()
724 xConcat.items = append(xConcat.items, &callExpr{
725 object: x,
726 name: "split",
727 args: nil,
728 returnType: starlarkTypeList,
729 })
730 default:
731 addToItemList(x)
732 }
733 }
734 }
735 if xItemList != nil {
736 xConcat.items = append(xConcat.items, xItemList)
737 }
738 return xConcat
739}
740
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]741func (ctx *parseContext) newDependentModule(path string, optional bool) *moduleInfo {
742 modulePath := ctx.loadedModulePath(path)
743 if mi, ok := ctx.dependentModules[modulePath]; ok {
Sasha Smundak868c5e32021-09-23 16:20:58 -0700[diff] [blame]744 mi.optional = mi.optional && optional
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]745 return mi
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]746 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]747 moduleName := moduleNameForFile(path)
748 moduleLocalName := "_" + moduleName
749 n, found := ctx.moduleNameCount[moduleName]
750 if found {
751 moduleLocalName += fmt.Sprintf("%d", n)
752 }
753 ctx.moduleNameCount[moduleName] = n + 1
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]754 mi := &moduleInfo{
755 path: modulePath,
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]756 originalPath: path,
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]757 moduleLocalName: moduleLocalName,
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]758 optional: optional,
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]759 }
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]760 ctx.dependentModules[modulePath] = mi
761 ctx.script.inherited = append(ctx.script.inherited, mi)
762 return mi
763}
764
765func (ctx *parseContext) handleSubConfig(
766 v mkparser.Node, pathExpr starlarkExpr, loadAlways bool, processModule func(inheritedModule)) {
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]767
768 // In a simple case, the name of a module to inherit/include is known statically.
769 if path, ok := maybeString(pathExpr); ok {
Sasha Smundak868c5e32021-09-23 16:20:58 -0700[diff] [blame]770 // Note that even if this directive loads a module unconditionally, a module may be
771 // absent without causing any harm if this directive is inside an if/else block.
772 moduleShouldExist := loadAlways && ctx.ifNestLevel == 0
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]773 if strings.Contains(path, "*") {
774 if paths, err := fs.Glob(ctx.script.sourceFS, path); err == nil {
775 for _, p := range paths {
Sasha Smundak868c5e32021-09-23 16:20:58 -0700[diff] [blame]776 mi := ctx.newDependentModule(p, !moduleShouldExist)
777 processModule(inheritedStaticModule{mi, loadAlways})
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]778 }
779 } else {
780 ctx.errorf(v, "cannot glob wildcard argument")
781 }
782 } else {
Sasha Smundak868c5e32021-09-23 16:20:58 -0700[diff] [blame]783 mi := ctx.newDependentModule(path, !moduleShouldExist)
784 processModule(inheritedStaticModule{mi, loadAlways})
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]785 }
786 return
787 }
788
789 // If module path references variables (e.g., $(v1)/foo/$(v2)/device-config.mk), find all the paths in the
790 // source tree that may be a match and the corresponding variable values. For instance, if the source tree
791 // contains vendor1/foo/abc/dev.mk and vendor2/foo/def/dev.mk, the first one will be inherited when
792 // (v1, v2) == ('vendor1', 'abc'), and the second one when (v1, v2) == ('vendor2', 'def').
793 // We then emit the code that loads all of them, e.g.:
794 // load("//vendor1/foo/abc:dev.rbc", _dev1_init="init")
795 // load("//vendor2/foo/def/dev.rbc", _dev2_init="init")
796 // And then inherit it as follows:
797 // _e = {
798 // "vendor1/foo/abc/dev.mk": ("vendor1/foo/abc/dev", _dev1_init),
799 // "vendor2/foo/def/dev.mk": ("vendor2/foo/def/dev", _dev_init2) }.get("%s/foo/%s/dev.mk" % (v1, v2))
800 // if _e:
801 // rblf.inherit(handle, _e[0], _e[1])
802 //
803 var matchingPaths []string
804 varPath, ok := pathExpr.(*interpolateExpr)
805 if !ok {
806 ctx.errorf(v, "inherit-product/include argument is too complex")
807 return
808 }
809
810 pathPattern := []string{varPath.chunks[0]}
811 for _, chunk := range varPath.chunks[1:] {
812 if chunk != "" {
813 pathPattern = append(pathPattern, chunk)
814 }
815 }
Sasha Smundak6d852dd2021-09-27 20:34:39 -0700[diff] [blame]816 if pathPattern[0] == "" {
817 // If pattern starts from the top. restrict it to the directories where
818 // we know inherit-product uses dynamically calculated path.
819 for _, p := range ctx.includeTops {
820 pathPattern[0] = p
821 matchingPaths = append(matchingPaths, ctx.findMatchingPaths(pathPattern)...)
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]822 }
Sasha Smundak6d852dd2021-09-27 20:34:39 -0700[diff] [blame]823 } else {
824 matchingPaths = ctx.findMatchingPaths(pathPattern)
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]825 }
826 // Safeguard against $(call inherit-product,$(PRODUCT_PATH))
Sasha Smundak90be8c52021-08-03 11:06:10 -0700[diff] [blame]827 const maxMatchingFiles = 150
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]828 if len(matchingPaths) > maxMatchingFiles {
829 ctx.errorf(v, "there are >%d files matching the pattern, please rewrite it", maxMatchingFiles)
830 return
831 }
832 res := inheritedDynamicModule{*varPath, []*moduleInfo{}, loadAlways}
833 for _, p := range matchingPaths {
834 // A product configuration files discovered dynamically may attempt to inherit
835 // from another one which does not exist in this source tree. Prevent load errors
836 // by always loading the dynamic files as optional.
837 res.candidateModules = append(res.candidateModules, ctx.newDependentModule(p, true))
838 }
839 processModule(res)
840}
841
842func (ctx *parseContext) findMatchingPaths(pattern []string) []string {
843 files := ctx.script.makefileFinder.Find(ctx.script.topDir)
844 if len(pattern) == 0 {
845 return files
846 }
847
848 // Create regular expression from the pattern
849 s_regexp := "^" + regexp.QuoteMeta(pattern[0])
850 for _, s := range pattern[1:] {
851 s_regexp += ".*" + regexp.QuoteMeta(s)
852 }
853 s_regexp += "$"
854 rex := regexp.MustCompile(s_regexp)
855
856 // Now match
857 var res []string
858 for _, p := range files {
859 if rex.MatchString(p) {
860 res = append(res, p)
861 }
862 }
863 return res
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]864}
865
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]866func (ctx *parseContext) handleInheritModule(v mkparser.Node, args *mkparser.MakeString, loadAlways bool) {
867 args.TrimLeftSpaces()
868 args.TrimRightSpaces()
869 pathExpr := ctx.parseMakeString(v, args)
870 if _, ok := pathExpr.(*badExpr); ok {
871 ctx.errorf(v, "Unable to parse argument to inherit")
872 }
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]873 ctx.handleSubConfig(v, pathExpr, loadAlways, func(im inheritedModule) {
Sasha Smundak868c5e32021-09-23 16:20:58 -0700[diff] [blame]874 ctx.receiver.newNode(&inheritNode{im, loadAlways})
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]875 })
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]876}
877
878func (ctx *parseContext) handleInclude(v mkparser.Node, pathExpr starlarkExpr, loadAlways bool) {
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]879 ctx.handleSubConfig(v, pathExpr, loadAlways, func(im inheritedModule) {
Sasha Smundak868c5e32021-09-23 16:20:58 -0700[diff] [blame]880 ctx.receiver.newNode(&includeNode{im, loadAlways})
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]881 })
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]882}
883
884func (ctx *parseContext) handleVariable(v *mkparser.Variable) {
885 // Handle:
886 // $(call inherit-product,...)
887 // $(call inherit-product-if-exists,...)
888 // $(info xxx)
889 // $(warning xxx)
890 // $(error xxx)
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]891 // $(call other-custom-functions,...)
892
893 // inherit-product(-if-exists) gets converted to a series of statements,
894 // not just a single expression like parseReference returns. So handle it
895 // separately at the beginning here.
896 if strings.HasPrefix(v.Name.Dump(), "call inherit-product,") {
897 args := v.Name.Clone()
898 args.ReplaceLiteral("call inherit-product,", "")
899 ctx.handleInheritModule(v, args, true)
900 return
901 }
902 if strings.HasPrefix(v.Name.Dump(), "call inherit-product-if-exists,") {
903 args := v.Name.Clone()
904 args.ReplaceLiteral("call inherit-product-if-exists,", "")
905 ctx.handleInheritModule(v, args, false)
906 return
907 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]908 expr := ctx.parseReference(v, v.Name)
909 switch x := expr.(type) {
910 case *callExpr:
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]911 ctx.receiver.newNode(&exprNode{expr})
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]912 case *badExpr:
913 ctx.wrapBadExpr(x)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]914 default:
915 ctx.errorf(v, "cannot handle %s", v.Dump())
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]916 }
917}
918
919func (ctx *parseContext) handleDefine(directive *mkparser.Directive) {
Sasha Smundakf3e072a2021-07-14 12:50:28 -0700[diff] [blame]920 macro_name := strings.Fields(directive.Args.Strings[0])[0]
921 // Ignore the macros that we handle
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]922 _, ignored := ignoredDefines[macro_name]
923 _, known := knownFunctions[macro_name]
924 if !ignored && !known {
Sasha Smundakf3e072a2021-07-14 12:50:28 -0700[diff] [blame]925 ctx.errorf(directive, "define is not supported: %s", macro_name)
926 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]927}
928
929func (ctx *parseContext) handleIfBlock(ifDirective *mkparser.Directive) {
930 ssSwitch := &switchNode{}
931 ctx.pushReceiver(ssSwitch)
932 for ctx.processBranch(ifDirective); ctx.hasNodes() && ctx.fatalError == nil; {
933 node := ctx.getNode()
934 switch x := node.(type) {
935 case *mkparser.Directive:
936 switch x.Name {
937 case "else", "elifdef", "elifndef", "elifeq", "elifneq":
938 ctx.processBranch(x)
939 case "endif":
940 ctx.popReceiver()
941 ctx.receiver.newNode(ssSwitch)
942 return
943 default:
944 ctx.errorf(node, "unexpected directive %s", x.Name)
945 }
946 default:
947 ctx.errorf(ifDirective, "unexpected statement")
948 }
949 }
950 if ctx.fatalError == nil {
951 ctx.fatalError = fmt.Errorf("no matching endif for %s", ifDirective.Dump())
952 }
953 ctx.popReceiver()
954}
955
956// processBranch processes a single branch (if/elseif/else) until the next directive
957// on the same level.
958func (ctx *parseContext) processBranch(check *mkparser.Directive) {
959 block := switchCase{gate: ctx.parseCondition(check)}
960 defer func() {
961 ctx.popVarAssignments()
962 ctx.ifNestLevel--
963
964 }()
965 ctx.pushVarAssignments()
966 ctx.ifNestLevel++
967
968 ctx.pushReceiver(&block)
969 for ctx.hasNodes() {
970 node := ctx.getNode()
Cole Faust591a1fe2021-11-08 15:37:57 -0800[diff] [blame]971 if d, ok := node.(*mkparser.Directive); ok {
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]972 switch d.Name {
973 case "else", "elifdef", "elifndef", "elifeq", "elifneq", "endif":
974 ctx.popReceiver()
975 ctx.receiver.newNode(&block)
976 ctx.backNode()
977 return
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]978 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]979 }
Cole Faust591a1fe2021-11-08 15:37:57 -0800[diff] [blame]980 ctx.handleSimpleStatement(node)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]981 }
982 ctx.fatalError = fmt.Errorf("no matching endif for %s", check.Dump())
983 ctx.popReceiver()
984}
985
986func (ctx *parseContext) newIfDefinedNode(check *mkparser.Directive) (starlarkExpr, bool) {
987 if !check.Args.Const() {
988 return ctx.newBadExpr(check, "ifdef variable ref too complex: %s", check.Args.Dump()), false
989 }
990 v := ctx.addVariable(check.Args.Strings[0])
991 return &variableDefinedExpr{v}, true
992}
993
994func (ctx *parseContext) parseCondition(check *mkparser.Directive) starlarkNode {
995 switch check.Name {
996 case "ifdef", "ifndef", "elifdef", "elifndef":
997 v, ok := ctx.newIfDefinedNode(check)
998 if ok && strings.HasSuffix(check.Name, "ndef") {
999 v = &notExpr{v}
1000 }
1001 return &ifNode{
1002 isElif: strings.HasPrefix(check.Name, "elif"),
1003 expr: v,
1004 }
1005 case "ifeq", "ifneq", "elifeq", "elifneq":
1006 return &ifNode{
1007 isElif: strings.HasPrefix(check.Name, "elif"),
1008 expr: ctx.parseCompare(check),
1009 }
1010 case "else":
1011 return &elseNode{}
1012 default:
1013 panic(fmt.Errorf("%s: unknown directive: %s", ctx.script.mkFile, check.Dump()))
1014 }
1015}
1016
1017func (ctx *parseContext) newBadExpr(node mkparser.Node, text string, args ...interface{}) starlarkExpr {
1018 message := fmt.Sprintf(text, args...)
1019 if ctx.errorLogger != nil {
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]1020 ctx.errorLogger.NewError(ctx.errorLocation(node), node, text, args...)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1021 }
1022 ctx.script.hasErrors = true
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]1023 return &badExpr{errorLocation: ctx.errorLocation(node), message: message}
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1024}
1025
1026func (ctx *parseContext) parseCompare(cond *mkparser.Directive) starlarkExpr {
1027 // Strip outer parentheses
1028 mkArg := cloneMakeString(cond.Args)
1029 mkArg.Strings[0] = strings.TrimLeft(mkArg.Strings[0], "( ")
1030 n := len(mkArg.Strings)
1031 mkArg.Strings[n-1] = strings.TrimRight(mkArg.Strings[n-1], ") ")
1032 args := mkArg.Split(",")
1033 // TODO(asmundak): handle the case where the arguments are in quotes and space-separated
1034 if len(args) != 2 {
1035 return ctx.newBadExpr(cond, "ifeq/ifneq len(args) != 2 %s", cond.Dump())
1036 }
1037 args[0].TrimRightSpaces()
1038 args[1].TrimLeftSpaces()
1039
1040 isEq := !strings.HasSuffix(cond.Name, "neq")
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1041 xLeft := ctx.parseMakeString(cond, args[0])
1042 xRight := ctx.parseMakeString(cond, args[1])
1043 if bad, ok := xLeft.(*badExpr); ok {
1044 return bad
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1045 }
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1046 if bad, ok := xRight.(*badExpr); ok {
1047 return bad
1048 }
1049
1050 if expr, ok := ctx.parseCompareSpecialCases(cond, xLeft, xRight); ok {
1051 return expr
1052 }
1053
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1054 var stringOperand string
1055 var otherOperand starlarkExpr
1056 if s, ok := maybeString(xLeft); ok {
1057 stringOperand = s
1058 otherOperand = xRight
1059 } else if s, ok := maybeString(xRight); ok {
1060 stringOperand = s
1061 otherOperand = xLeft
1062 }
1063
1064 not := func(expr starlarkExpr) starlarkExpr {
1065 switch typedExpr := expr.(type) {
1066 case *inExpr:
1067 typedExpr.isNot = !typedExpr.isNot
1068 return typedExpr
1069 case *eqExpr:
1070 typedExpr.isEq = !typedExpr.isEq
1071 return typedExpr
Cole Faustb1103e22022-01-06 15:22:05 -0800[diff] [blame^]1072 case *binaryOpExpr:
1073 switch typedExpr.op {
1074 case ">":
1075 typedExpr.op = "<="
1076 return typedExpr
1077 case "<":
1078 typedExpr.op = ">="
1079 return typedExpr
1080 case ">=":
1081 typedExpr.op = "<"
1082 return typedExpr
1083 case "<=":
1084 typedExpr.op = ">"
1085 return typedExpr
1086 default:
1087 return &notExpr{expr: expr}
1088 }
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1089 default:
1090 return &notExpr{expr: expr}
1091 }
1092 }
1093
1094 // If we've identified one of the operands as being a string literal, check
1095 // for some special cases we can do to simplify the resulting expression.
1096 if otherOperand != nil {
1097 if stringOperand == "" {
1098 if isEq {
1099 return not(otherOperand)
1100 } else {
1101 return otherOperand
1102 }
1103 }
1104 if stringOperand == "true" && otherOperand.typ() == starlarkTypeBool {
1105 if !isEq {
1106 return not(otherOperand)
1107 } else {
1108 return otherOperand
1109 }
1110 }
Cole Faustb1103e22022-01-06 15:22:05 -0800[diff] [blame^]1111 if intOperand, err := strconv.Atoi(strings.TrimSpace(stringOperand)); err == nil && otherOperand.typ() == starlarkTypeInt {
1112 return &eqExpr{
1113 left: otherOperand,
1114 right: &intLiteralExpr{literal: intOperand},
1115 isEq: isEq,
1116 }
1117 }
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1118 }
1119
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1120 return &eqExpr{left: xLeft, right: xRight, isEq: isEq}
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1121}
1122
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1123// Given an if statement's directive and the left/right starlarkExprs,
1124// check if the starlarkExprs are one of a few hardcoded special cases
1125// that can be converted to a simpler equalify expression than simply comparing
1126// the two.
1127func (ctx *parseContext) parseCompareSpecialCases(directive *mkparser.Directive, left starlarkExpr,
1128 right starlarkExpr) (starlarkExpr, bool) {
1129 isEq := !strings.HasSuffix(directive.Name, "neq")
1130
1131 // All the special cases require a call on one side and a
1132 // string literal/variable on the other. Turn the left/right variables into
1133 // call/value variables, and return false if that's not possible.
1134 var value starlarkExpr = nil
1135 call, ok := left.(*callExpr)
1136 if ok {
1137 switch right.(type) {
1138 case *stringLiteralExpr, *variableRefExpr:
1139 value = right
1140 }
1141 } else {
1142 call, _ = right.(*callExpr)
1143 switch left.(type) {
1144 case *stringLiteralExpr, *variableRefExpr:
1145 value = left
1146 }
1147 }
1148
1149 if call == nil || value == nil {
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1150 return nil, false
1151 }
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1152
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1153 switch call.name {
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1154 case baseName + ".filter", baseName + ".filter-out":
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1155 return ctx.parseCompareFilterFuncResult(directive, call, value, isEq), true
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1156 case baseName + ".expand_wildcard":
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1157 return ctx.parseCompareWildcardFuncResult(directive, call, value, !isEq), true
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1158 case baseName + ".findstring":
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1159 return ctx.parseCheckFindstringFuncResult(directive, call, value, !isEq), true
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1160 case baseName + ".strip":
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1161 return ctx.parseCompareStripFuncResult(directive, call, value, !isEq), true
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1162 }
Cole Faustf8320212021-11-10 15:05:07 -0800[diff] [blame]1163 return nil, false
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1164}
1165
1166func (ctx *parseContext) parseCompareFilterFuncResult(cond *mkparser.Directive,
1167 filterFuncCall *callExpr, xValue starlarkExpr, negate bool) starlarkExpr {
1168 // We handle:
Sasha Smundak0554d762021-07-08 18:26:12 -0700[diff] [blame]1169 // * ifeq/ifneq (,$(filter v1 v2 ..., EXPR) becomes if EXPR not in/in ["v1", "v2", ...]
1170 // * ifeq/ifneq (,$(filter EXPR, v1 v2 ...) becomes if EXPR not in/in ["v1", "v2", ...]
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1171 // * ifeq/ifneq ($(VAR),$(filter $(VAR), v1 v2 ...) becomes if VAR in/not in ["v1", "v2"]
1172 // TODO(Asmundak): check the last case works for filter-out, too.
1173 xPattern := filterFuncCall.args[0]
1174 xText := filterFuncCall.args[1]
1175 var xInList *stringLiteralExpr
Sasha Smundak0554d762021-07-08 18:26:12 -0700[diff] [blame]1176 var expr starlarkExpr
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1177 var ok bool
1178 switch x := xValue.(type) {
1179 case *stringLiteralExpr:
1180 if x.literal != "" {
1181 return ctx.newBadExpr(cond, "filter comparison to non-empty value: %s", xValue)
1182 }
1183 // Either pattern or text should be const, and the
1184 // non-const one should be varRefExpr
Sasha Smundak5f463be2021-09-15 18:43:36 -0700[diff] [blame]1185 if xInList, ok = xPattern.(*stringLiteralExpr); ok && !strings.ContainsRune(xInList.literal, '%') && xText.typ() == starlarkTypeList {
Sasha Smundak0554d762021-07-08 18:26:12 -0700[diff] [blame]1186 expr = xText
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1187 } else if xInList, ok = xText.(*stringLiteralExpr); ok {
Sasha Smundak0554d762021-07-08 18:26:12 -0700[diff] [blame]1188 expr = xPattern
1189 } else {
Sasha Smundak5f463be2021-09-15 18:43:36 -0700[diff] [blame]1190 expr = &callExpr{
Sasha Smundak0554d762021-07-08 18:26:12 -0700[diff] [blame]1191 object: nil,
1192 name: filterFuncCall.name,
1193 args: filterFuncCall.args,
1194 returnType: starlarkTypeBool,
1195 }
Sasha Smundak5f463be2021-09-15 18:43:36 -0700[diff] [blame]1196 if negate {
1197 expr = &notExpr{expr: expr}
1198 }
1199 return expr
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1200 }
1201 case *variableRefExpr:
1202 if v, ok := xPattern.(*variableRefExpr); ok {
1203 if xInList, ok = xText.(*stringLiteralExpr); ok && v.ref.name() == x.ref.name() {
1204 // ifeq/ifneq ($(VAR),$(filter $(VAR), v1 v2 ...), flip negate,
1205 // it's the opposite to what is done when comparing to empty.
Sasha Smundak0554d762021-07-08 18:26:12 -0700[diff] [blame]1206 expr = xPattern
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1207 negate = !negate
1208 }
1209 }
1210 }
Sasha Smundak0554d762021-07-08 18:26:12 -0700[diff] [blame]1211 if expr != nil && xInList != nil {
1212 slExpr := newStringListExpr(strings.Fields(xInList.literal))
1213 // Generate simpler code for the common cases:
1214 if expr.typ() == starlarkTypeList {
1215 if len(slExpr.items) == 1 {
1216 // Checking that a string belongs to list
1217 return &inExpr{isNot: negate, list: expr, expr: slExpr.items[0]}
1218 } else {
1219 // TODO(asmundak):
1220 panic("TBD")
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1221 }
Sasha Smundak0554d762021-07-08 18:26:12 -0700[diff] [blame]1222 } else if len(slExpr.items) == 1 {
1223 return &eqExpr{left: expr, right: slExpr.items[0], isEq: !negate}
1224 } else {
1225 return &inExpr{isNot: negate, list: newStringListExpr(strings.Fields(xInList.literal)), expr: expr}
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1226 }
1227 }
1228 return ctx.newBadExpr(cond, "filter arguments are too complex: %s", cond.Dump())
1229}
1230
1231func (ctx *parseContext) parseCompareWildcardFuncResult(directive *mkparser.Directive,
1232 xCall *callExpr, xValue starlarkExpr, negate bool) starlarkExpr {
Sasha Smundak0554d762021-07-08 18:26:12 -0700[diff] [blame]1233 if !isEmptyString(xValue) {
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1234 return ctx.newBadExpr(directive, "wildcard result can be compared only to empty: %s", xValue)
1235 }
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1236 callFunc := baseName + ".file_wildcard_exists"
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1237 if s, ok := xCall.args[0].(*stringLiteralExpr); ok && !strings.ContainsAny(s.literal, "*?{[") {
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1238 callFunc = baseName + ".file_exists"
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1239 }
1240 var cc starlarkExpr = &callExpr{name: callFunc, args: xCall.args, returnType: starlarkTypeBool}
1241 if !negate {
1242 cc = &notExpr{cc}
1243 }
1244 return cc
1245}
1246
1247func (ctx *parseContext) parseCheckFindstringFuncResult(directive *mkparser.Directive,
1248 xCall *callExpr, xValue starlarkExpr, negate bool) starlarkExpr {
Sasha Smundak0554d762021-07-08 18:26:12 -0700[diff] [blame]1249 if isEmptyString(xValue) {
1250 return &eqExpr{
1251 left: &callExpr{
1252 object: xCall.args[1],
1253 name: "find",
1254 args: []starlarkExpr{xCall.args[0]},
1255 returnType: starlarkTypeInt,
1256 },
1257 right: &intLiteralExpr{-1},
1258 isEq: !negate,
1259 }
Cole Faust0e9418c2021-12-13 16:33:25 -0800[diff] [blame]1260 } else if s, ok := maybeString(xValue); ok {
1261 if s2, ok := maybeString(xCall.args[0]); ok && s == s2 {
1262 return &eqExpr{
1263 left: &callExpr{
1264 object: xCall.args[1],
1265 name: "find",
1266 args: []starlarkExpr{xCall.args[0]},
1267 returnType: starlarkTypeInt,
1268 },
1269 right: &intLiteralExpr{-1},
1270 isEq: negate,
1271 }
1272 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1273 }
Cole Faust0e9418c2021-12-13 16:33:25 -0800[diff] [blame]1274 return ctx.newBadExpr(directive, "$(findstring) can only be compared to nothing or its first argument")
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1275}
1276
1277func (ctx *parseContext) parseCompareStripFuncResult(directive *mkparser.Directive,
1278 xCall *callExpr, xValue starlarkExpr, negate bool) starlarkExpr {
1279 if _, ok := xValue.(*stringLiteralExpr); !ok {
1280 return ctx.newBadExpr(directive, "strip result can be compared only to string: %s", xValue)
1281 }
1282 return &eqExpr{
1283 left: &callExpr{
1284 name: "strip",
1285 args: xCall.args,
1286 returnType: starlarkTypeString,
1287 },
1288 right: xValue, isEq: !negate}
1289}
1290
1291// parses $(...), returning an expression
1292func (ctx *parseContext) parseReference(node mkparser.Node, ref *mkparser.MakeString) starlarkExpr {
1293 ref.TrimLeftSpaces()
1294 ref.TrimRightSpaces()
1295 refDump := ref.Dump()
1296
1297 // Handle only the case where the first (or only) word is constant
1298 words := ref.SplitN(" ", 2)
1299 if !words[0].Const() {
1300 return ctx.newBadExpr(node, "reference is too complex: %s", refDump)
1301 }
1302
1303 // If it is a single word, it can be a simple variable
1304 // reference or a function call
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1305 if len(words) == 1 && !isMakeControlFunc(refDump) && refDump != "shell" {
Sasha Smundak65b547e2021-09-17 15:35:41 -0700[diff] [blame]1306 if strings.HasPrefix(refDump, soongNsPrefix) {
1307 // TODO (asmundak): if we find many, maybe handle them.
Cole Faustc00184e2021-11-08 12:08:57 -0800[diff] [blame]1308 return ctx.newBadExpr(node, "SOONG_CONFIG_ variables cannot be referenced, use soong_config_get instead: %s", refDump)
Sasha Smundak65b547e2021-09-17 15:35:41 -0700[diff] [blame]1309 }
Cole Faustc36c9622021-12-07 15:20:45 -0800[diff] [blame]1310 // Handle substitution references: https://www.gnu.org/software/make/manual/html_node/Substitution-Refs.html
1311 if strings.Contains(refDump, ":") {
1312 parts := strings.SplitN(refDump, ":", 2)
1313 substParts := strings.SplitN(parts[1], "=", 2)
1314 if len(substParts) < 2 || strings.Count(substParts[0], "%") > 1 {
1315 return ctx.newBadExpr(node, "Invalid substitution reference")
1316 }
1317 if !strings.Contains(substParts[0], "%") {
1318 if strings.Contains(substParts[1], "%") {
1319 return ctx.newBadExpr(node, "A substitution reference must have a %% in the \"before\" part of the substitution if it has one in the \"after\" part.")
1320 }
1321 substParts[0] = "%" + substParts[0]
1322 substParts[1] = "%" + substParts[1]
1323 }
1324 v := ctx.addVariable(parts[0])
1325 if v == nil {
1326 return ctx.newBadExpr(node, "unknown variable %s", refDump)
1327 }
1328 return &callExpr{
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1329 name: baseName + ".mkpatsubst",
1330 returnType: starlarkTypeString,
Cole Faustc36c9622021-12-07 15:20:45 -0800[diff] [blame]1331 args: []starlarkExpr{
1332 &stringLiteralExpr{literal: substParts[0]},
1333 &stringLiteralExpr{literal: substParts[1]},
Cole Faustfc438682021-12-14 12:46:32 -0800[diff] [blame]1334 NewVariableRefExpr(v, ctx.lastAssignment(v.name()) != nil),
Cole Faustc36c9622021-12-07 15:20:45 -0800[diff] [blame]1335 },
1336 }
1337 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1338 if v := ctx.addVariable(refDump); v != nil {
Cole Faustfc438682021-12-14 12:46:32 -0800[diff] [blame]1339 return NewVariableRefExpr(v, ctx.lastAssignment(v.name()) != nil)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1340 }
1341 return ctx.newBadExpr(node, "unknown variable %s", refDump)
1342 }
1343
1344 expr := &callExpr{name: words[0].Dump(), returnType: starlarkTypeUnknown}
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1345 args := mkparser.SimpleMakeString("", words[0].Pos())
1346 if len(words) >= 2 {
1347 args = words[1]
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1348 }
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1349 args.TrimLeftSpaces()
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1350 if expr.name == "call" {
1351 words = args.SplitN(",", 2)
1352 if words[0].Empty() || !words[0].Const() {
Sasha Smundakf2c9f8b2021-07-27 10:44:48 -0700[diff] [blame]1353 return ctx.newBadExpr(node, "cannot handle %s", refDump)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1354 }
1355 expr.name = words[0].Dump()
1356 if len(words) < 2 {
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]1357 args = &mkparser.MakeString{}
1358 } else {
1359 args = words[1]
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1360 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1361 }
1362 if kf, found := knownFunctions[expr.name]; found {
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1363 return kf.parse(ctx, node, args)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1364 } else {
1365 return ctx.newBadExpr(node, "cannot handle invoking %s", expr.name)
1366 }
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1367}
1368
1369type simpleCallParser struct {
1370 name string
1371 returnType starlarkType
1372 addGlobals bool
1373}
1374
1375func (p *simpleCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1376 expr := &callExpr{name: p.name, returnType: p.returnType}
1377 if p.addGlobals {
1378 expr.args = append(expr.args, &globalsExpr{})
1379 }
1380 for _, arg := range args.Split(",") {
1381 arg.TrimLeftSpaces()
1382 arg.TrimRightSpaces()
1383 x := ctx.parseMakeString(node, arg)
1384 if xBad, ok := x.(*badExpr); ok {
1385 return xBad
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1386 }
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1387 expr.args = append(expr.args, x)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1388 }
1389 return expr
1390}
1391
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1392type makeControlFuncParser struct {
1393 name string
1394}
1395
1396func (p *makeControlFuncParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1397 // Make control functions need special treatment as everything
1398 // after the name is a single text argument
1399 x := ctx.parseMakeString(node, args)
1400 if xBad, ok := x.(*badExpr); ok {
1401 return xBad
1402 }
1403 return &callExpr{
1404 name: p.name,
1405 args: []starlarkExpr{
1406 &stringLiteralExpr{ctx.script.mkFile},
1407 x,
1408 },
1409 returnType: starlarkTypeUnknown,
1410 }
1411}
1412
1413type shellCallParser struct{}
1414
1415func (p *shellCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1416 // Shell functions need special treatment as everything
1417 // after the name is a single text argument
1418 x := ctx.parseMakeString(node, args)
1419 if xBad, ok := x.(*badExpr); ok {
1420 return xBad
1421 }
1422 return &callExpr{
1423 name: baseName + ".shell",
1424 args: []starlarkExpr{x},
1425 returnType: starlarkTypeUnknown,
1426 }
1427}
1428
1429type myDirCallParser struct{}
1430
1431func (p *myDirCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1432 if !args.Empty() {
1433 return ctx.newBadExpr(node, "my-dir function cannot have any arguments passed to it.")
1434 }
1435 return &variableRefExpr{ctx.addVariable("LOCAL_PATH"), true}
1436}
1437
1438type isBoardPlatformCallParser struct{}
1439
1440func (p *isBoardPlatformCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1441 if args.Empty() {
1442 return ctx.newBadExpr(node, "is-board-platform requires an argument")
1443 }
1444 return &eqExpr{
1445 left: &variableRefExpr{ctx.addVariable("TARGET_BOARD_PLATFORM"), false},
1446 right: ctx.parseMakeString(node, args),
1447 isEq: true,
1448 }
1449}
1450
1451type isBoardPlatformInListCallParser struct{}
1452
1453func (p *isBoardPlatformInListCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1454 if args.Empty() {
1455 return ctx.newBadExpr(node, "is-board-platform-in-list requires an argument")
1456 }
1457 return &inExpr{
1458 expr: &variableRefExpr{ctx.addVariable("TARGET_BOARD_PLATFORM"), false},
1459 list: maybeConvertToStringList(ctx.parseMakeString(node, args)),
1460 isNot: false,
1461 }
1462}
1463
1464type isProductInListCallParser struct{}
1465
1466func (p *isProductInListCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1467 if args.Empty() {
1468 return ctx.newBadExpr(node, "is-product-in-list requires an argument")
1469 }
1470 return &inExpr{
1471 expr: &variableRefExpr{ctx.addVariable("TARGET_PRODUCT"), true},
1472 list: maybeConvertToStringList(ctx.parseMakeString(node, args)),
1473 isNot: false,
1474 }
1475}
1476
1477type isVendorBoardPlatformCallParser struct{}
1478
1479func (p *isVendorBoardPlatformCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1480 if args.Empty() || !identifierFullMatchRegex.MatchString(args.Dump()) {
1481 return ctx.newBadExpr(node, "cannot handle non-constant argument to is-vendor-board-platform")
1482 }
1483 return &inExpr{
1484 expr: &variableRefExpr{ctx.addVariable("TARGET_BOARD_PLATFORM"), false},
1485 list: &variableRefExpr{ctx.addVariable(args.Dump() + "_BOARD_PLATFORMS"), true},
1486 isNot: false,
1487 }
1488}
1489
1490type isVendorBoardQcomCallParser struct{}
1491
1492func (p *isVendorBoardQcomCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1493 if !args.Empty() {
1494 return ctx.newBadExpr(node, "is-vendor-board-qcom does not accept any arguments")
1495 }
1496 return &inExpr{
1497 expr: &variableRefExpr{ctx.addVariable("TARGET_BOARD_PLATFORM"), false},
1498 list: &variableRefExpr{ctx.addVariable("QCOM_BOARD_PLATFORMS"), true},
1499 isNot: false,
1500 }
1501}
1502
1503type substCallParser struct {
1504 fname string
1505}
1506
1507func (p *substCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1508 words := args.Split(",")
1509 if len(words) != 3 {
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1510 return ctx.newBadExpr(node, "%s function should have 3 arguments", p.fname)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1511 }
Sasha Smundak35434ed2021-11-05 16:29:56 -0700[diff] [blame]1512 from := ctx.parseMakeString(node, words[0])
1513 if xBad, ok := from.(*badExpr); ok {
1514 return xBad
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1515 }
Sasha Smundak35434ed2021-11-05 16:29:56 -0700[diff] [blame]1516 to := ctx.parseMakeString(node, words[1])
1517 if xBad, ok := to.(*badExpr); ok {
1518 return xBad
1519 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1520 words[2].TrimLeftSpaces()
1521 words[2].TrimRightSpaces()
1522 obj := ctx.parseMakeString(node, words[2])
Sasha Smundak9d011ab2021-07-09 16:00:57 -0700[diff] [blame]1523 typ := obj.typ()
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1524 if typ == starlarkTypeString && p.fname == "subst" {
Sasha Smundak94b41c72021-07-12 18:30:42 -0700[diff] [blame]1525 // Optimization: if it's $(subst from, to, string), emit string.replace(from, to)
Sasha Smundak9d011ab2021-07-09 16:00:57 -0700[diff] [blame]1526 return &callExpr{
1527 object: obj,
1528 name: "replace",
Sasha Smundak35434ed2021-11-05 16:29:56 -0700[diff] [blame]1529 args: []starlarkExpr{from, to},
Sasha Smundak9d011ab2021-07-09 16:00:57 -0700[diff] [blame]1530 returnType: typ,
1531 }
1532 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1533 return &callExpr{
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1534 name: baseName + ".mk" + p.fname,
Sasha Smundak35434ed2021-11-05 16:29:56 -0700[diff] [blame]1535 args: []starlarkExpr{from, to, obj},
Sasha Smundak9d011ab2021-07-09 16:00:57 -0700[diff] [blame]1536 returnType: obj.typ(),
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1537 }
1538}
1539
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1540type ifCallParser struct{}
1541
1542func (p *ifCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
Cole Faust4eadba72021-12-07 11:54:52 -0800[diff] [blame]1543 words := args.Split(",")
1544 if len(words) != 2 && len(words) != 3 {
1545 return ctx.newBadExpr(node, "if function should have 2 or 3 arguments, found "+strconv.Itoa(len(words)))
1546 }
1547 condition := ctx.parseMakeString(node, words[0])
1548 ifTrue := ctx.parseMakeString(node, words[1])
1549 var ifFalse starlarkExpr
1550 if len(words) == 3 {
1551 ifFalse = ctx.parseMakeString(node, words[2])
1552 } else {
1553 switch ifTrue.typ() {
1554 case starlarkTypeList:
1555 ifFalse = &listExpr{items: []starlarkExpr{}}
1556 case starlarkTypeInt:
1557 ifFalse = &intLiteralExpr{literal: 0}
1558 case starlarkTypeBool:
1559 ifFalse = &boolLiteralExpr{literal: false}
1560 default:
1561 ifFalse = &stringLiteralExpr{literal: ""}
1562 }
1563 }
1564 return &ifExpr{
1565 condition,
1566 ifTrue,
1567 ifFalse,
1568 }
1569}
1570
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1571type foreachCallPaser struct{}
1572
1573func (p *foreachCallPaser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
Cole Faustb0d32ab2021-12-09 14:00:59 -0800[diff] [blame]1574 words := args.Split(",")
1575 if len(words) != 3 {
1576 return ctx.newBadExpr(node, "foreach function should have 3 arguments, found "+strconv.Itoa(len(words)))
1577 }
1578 if !words[0].Const() || words[0].Empty() || !identifierFullMatchRegex.MatchString(words[0].Strings[0]) {
1579 return ctx.newBadExpr(node, "first argument to foreach function must be a simple string identifier")
1580 }
1581 loopVarName := words[0].Strings[0]
1582 list := ctx.parseMakeString(node, words[1])
1583 action := ctx.parseMakeString(node, words[2]).transform(func(expr starlarkExpr) starlarkExpr {
1584 if varRefExpr, ok := expr.(*variableRefExpr); ok && varRefExpr.ref.name() == loopVarName {
1585 return &identifierExpr{loopVarName}
1586 }
1587 return nil
1588 })
1589
1590 if list.typ() != starlarkTypeList {
1591 list = &callExpr{
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1592 name: baseName + ".words",
1593 returnType: starlarkTypeList,
Cole Faustb0d32ab2021-12-09 14:00:59 -0800[diff] [blame]1594 args: []starlarkExpr{list},
1595 }
1596 }
1597
1598 return &foreachExpr{
1599 varName: loopVarName,
1600 list: list,
1601 action: action,
1602 }
1603}
1604
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1605type wordCallParser struct{}
1606
1607func (p *wordCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1608 words := args.Split(",")
1609 if len(words) != 2 {
1610 return ctx.newBadExpr(node, "word function should have 2 arguments")
1611 }
1612 var index uint64 = 0
1613 if words[0].Const() {
1614 index, _ = strconv.ParseUint(strings.TrimSpace(words[0].Strings[0]), 10, 64)
1615 }
1616 if index < 1 {
1617 return ctx.newBadExpr(node, "word index should be constant positive integer")
1618 }
1619 words[1].TrimLeftSpaces()
1620 words[1].TrimRightSpaces()
1621 array := ctx.parseMakeString(node, words[1])
1622 if xBad, ok := array.(*badExpr); ok {
1623 return xBad
1624 }
1625 if array.typ() != starlarkTypeList {
1626 array = &callExpr{object: array, name: "split", returnType: starlarkTypeList}
1627 }
Cole Faustb0d32ab2021-12-09 14:00:59 -0800[diff] [blame]1628 return &indexExpr{array, &intLiteralExpr{int(index - 1)}}
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1629}
1630
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1631type firstOrLastwordCallParser struct {
1632 isLastWord bool
1633}
1634
1635func (p *firstOrLastwordCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
Sasha Smundak16e07732021-07-23 11:38:23 -0700[diff] [blame]1636 arg := ctx.parseMakeString(node, args)
1637 if bad, ok := arg.(*badExpr); ok {
1638 return bad
1639 }
1640 index := &intLiteralExpr{0}
Cole Faust9ebf6e42021-12-13 14:08:34 -0800[diff] [blame]1641 if p.isLastWord {
Sasha Smundak16e07732021-07-23 11:38:23 -0700[diff] [blame]1642 if v, ok := arg.(*variableRefExpr); ok && v.ref.name() == "MAKEFILE_LIST" {
1643 return &stringLiteralExpr{ctx.script.mkFile}
1644 }
1645 index.literal = -1
1646 }
1647 if arg.typ() == starlarkTypeList {
1648 return &indexExpr{arg, index}
1649 }
1650 return &indexExpr{&callExpr{object: arg, name: "split", returnType: starlarkTypeList}, index}
1651}
1652
Cole Faustb1103e22022-01-06 15:22:05 -0800[diff] [blame^]1653func parseIntegerArguments(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString, expectedArgs int) ([]starlarkExpr, error) {
1654 parsedArgs := make([]starlarkExpr, 0)
1655 for _, arg := range args.Split(",") {
1656 expr := ctx.parseMakeString(node, arg)
1657 if expr.typ() == starlarkTypeList {
1658 return nil, fmt.Errorf("argument to math argument has type list, which cannot be converted to int")
1659 }
1660 if s, ok := maybeString(expr); ok {
1661 intVal, err := strconv.Atoi(strings.TrimSpace(s))
1662 if err != nil {
1663 return nil, err
1664 }
1665 expr = &intLiteralExpr{literal: intVal}
1666 } else if expr.typ() != starlarkTypeInt {
1667 expr = &callExpr{
1668 name: "int",
1669 args: []starlarkExpr{expr},
1670 returnType: starlarkTypeInt,
1671 }
1672 }
1673 parsedArgs = append(parsedArgs, expr)
1674 }
1675 if len(parsedArgs) != expectedArgs {
1676 return nil, fmt.Errorf("function should have %d arguments", expectedArgs)
1677 }
1678 return parsedArgs, nil
1679}
1680
1681type mathComparisonCallParser struct {
1682 op string
1683}
1684
1685func (p *mathComparisonCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1686 parsedArgs, err := parseIntegerArguments(ctx, node, args, 2)
1687 if err != nil {
1688 return ctx.newBadExpr(node, err.Error())
1689 }
1690 return &binaryOpExpr{
1691 left: parsedArgs[0],
1692 right: parsedArgs[1],
1693 op: p.op,
1694 returnType: starlarkTypeBool,
1695 }
1696}
1697
1698type mathMaxOrMinCallParser struct {
1699 function string
1700}
1701
1702func (p *mathMaxOrMinCallParser) parse(ctx *parseContext, node mkparser.Node, args *mkparser.MakeString) starlarkExpr {
1703 parsedArgs, err := parseIntegerArguments(ctx, node, args, 2)
1704 if err != nil {
1705 return ctx.newBadExpr(node, err.Error())
1706 }
1707 return &callExpr{
1708 object: nil,
1709 name: p.function,
1710 args: parsedArgs,
1711 returnType: starlarkTypeInt,
1712 }
1713}
1714
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1715func (ctx *parseContext) parseMakeString(node mkparser.Node, mk *mkparser.MakeString) starlarkExpr {
1716 if mk.Const() {
1717 return &stringLiteralExpr{mk.Dump()}
1718 }
1719 if mkRef, ok := mk.SingleVariable(); ok {
1720 return ctx.parseReference(node, mkRef)
1721 }
1722 // If we reached here, it's neither string literal nor a simple variable,
1723 // we need a full-blown interpolation node that will generate
1724 // "a%b%c" % (X, Y) for a$(X)b$(Y)c
Cole Faustfc438682021-12-14 12:46:32 -0800[diff] [blame]1725 parts := make([]starlarkExpr, len(mk.Variables)+len(mk.Strings))
1726 for i := 0; i < len(parts); i++ {
1727 if i%2 == 0 {
1728 parts[i] = &stringLiteralExpr{literal: mk.Strings[i/2]}
1729 } else {
1730 parts[i] = ctx.parseReference(node, mk.Variables[i/2].Name)
1731 if x, ok := parts[i].(*badExpr); ok {
1732 return x
1733 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1734 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1735 }
Cole Faustfc438682021-12-14 12:46:32 -0800[diff] [blame]1736 return NewInterpolateExpr(parts)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1737}
1738
1739// Handles the statements whose treatment is the same in all contexts: comment,
1740// assignment, variable (which is a macro call in reality) and all constructs that
1741// do not handle in any context ('define directive and any unrecognized stuff).
Cole Faust591a1fe2021-11-08 15:37:57 -0800[diff] [blame]1742func (ctx *parseContext) handleSimpleStatement(node mkparser.Node) {
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1743 switch x := node.(type) {
1744 case *mkparser.Comment:
Sasha Smundak6d852dd2021-09-27 20:34:39 -0700[diff] [blame]1745 ctx.maybeHandleAnnotation(x)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1746 ctx.insertComment("#" + x.Comment)
1747 case *mkparser.Assignment:
1748 ctx.handleAssignment(x)
1749 case *mkparser.Variable:
1750 ctx.handleVariable(x)
1751 case *mkparser.Directive:
1752 switch x.Name {
1753 case "define":
1754 ctx.handleDefine(x)
1755 case "include", "-include":
1756 ctx.handleInclude(node, ctx.parseMakeString(node, x.Args), x.Name[0] != '-')
Cole Faust591a1fe2021-11-08 15:37:57 -0800[diff] [blame]1757 case "ifeq", "ifneq", "ifdef", "ifndef":
1758 ctx.handleIfBlock(x)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1759 default:
Cole Faust591a1fe2021-11-08 15:37:57 -0800[diff] [blame]1760 ctx.errorf(x, "unexpected directive %s", x.Name)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1761 }
1762 default:
Sasha Smundak2afb9d72021-10-24 15:16:59 -0700[diff] [blame]1763 ctx.errorf(x, "unsupported line %s", strings.ReplaceAll(x.Dump(), "\n", "\n#"))
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1764 }
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1765}
1766
Sasha Smundak6d852dd2021-09-27 20:34:39 -0700[diff] [blame]1767// Processes annotation. An annotation is a comment that starts with #RBC# and provides
1768// a conversion hint -- say, where to look for the dynamically calculated inherit/include
1769// paths.
1770func (ctx *parseContext) maybeHandleAnnotation(cnode *mkparser.Comment) {
1771 maybeTrim := func(s, prefix string) (string, bool) {
1772 if strings.HasPrefix(s, prefix) {
1773 return strings.TrimSpace(strings.TrimPrefix(s, prefix)), true
1774 }
1775 return s, false
1776 }
1777 annotation, ok := maybeTrim(cnode.Comment, annotationCommentPrefix)
1778 if !ok {
1779 return
1780 }
1781 if p, ok := maybeTrim(annotation, "include_top"); ok {
Cole Faustf7ed5342021-12-21 14:15:12 -0800[diff] [blame]1782 // Don't allow duplicate include tops, because then we will generate
1783 // invalid starlark code. (duplicate keys in the _entry dictionary)
1784 for _, top := range ctx.includeTops {
1785 if top == p {
1786 return
1787 }
1788 }
Sasha Smundak6d852dd2021-09-27 20:34:39 -0700[diff] [blame]1789 ctx.includeTops = append(ctx.includeTops, p)
1790 return
1791 }
1792 ctx.errorf(cnode, "unsupported annotation %s", cnode.Comment)
1793
1794}
1795
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1796func (ctx *parseContext) insertComment(s string) {
1797 ctx.receiver.newNode(&commentNode{strings.TrimSpace(s)})
1798}
1799
1800func (ctx *parseContext) carryAsComment(failedNode mkparser.Node) {
1801 for _, line := range strings.Split(failedNode.Dump(), "\n") {
1802 ctx.insertComment("# " + line)
1803 }
1804}
1805
1806// records that the given node failed to be converted and includes an explanatory message
1807func (ctx *parseContext) errorf(failedNode mkparser.Node, message string, args ...interface{}) {
1808 if ctx.errorLogger != nil {
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]1809 ctx.errorLogger.NewError(ctx.errorLocation(failedNode), failedNode, message, args...)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1810 }
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]1811 ctx.receiver.newNode(&exprNode{ctx.newBadExpr(failedNode, message, args...)})
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1812 ctx.script.hasErrors = true
1813}
1814
1815func (ctx *parseContext) wrapBadExpr(xBad *badExpr) {
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]1816 ctx.receiver.newNode(&exprNode{xBad})
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1817}
1818
1819func (ctx *parseContext) loadedModulePath(path string) string {
1820 // During the transition to Roboleaf some of the product configuration files
1821 // will be converted and checked in while the others will be generated on the fly
1822 // and run. The runner (rbcrun application) accommodates this by allowing three
1823 // different ways to specify the loaded file location:
1824 // 1) load(":<file>",...) loads <file> from the same directory
1825 // 2) load("//path/relative/to/source/root:<file>", ...) loads <file> source tree
1826 // 3) load("/absolute/path/to/<file> absolute path
1827 // If the file being generated and the file it wants to load are in the same directory,
1828 // generate option 1.
1829 // Otherwise, if output directory is not specified, generate 2)
1830 // Finally, if output directory has been specified and the file being generated and
1831 // the file it wants to load from are in the different directories, generate 2) or 3):
1832 // * if the file being loaded exists in the source tree, generate 2)
1833 // * otherwise, generate 3)
1834 // Finally, figure out the loaded module path and name and create a node for it
1835 loadedModuleDir := filepath.Dir(path)
1836 base := filepath.Base(path)
1837 loadedModuleName := strings.TrimSuffix(base, filepath.Ext(base)) + ctx.outputSuffix
1838 if loadedModuleDir == filepath.Dir(ctx.script.mkFile) {
1839 return ":" + loadedModuleName
1840 }
1841 if ctx.outputDir == "" {
1842 return fmt.Sprintf("//%s:%s", loadedModuleDir, loadedModuleName)
1843 }
1844 if _, err := os.Stat(filepath.Join(loadedModuleDir, loadedModuleName)); err == nil {
1845 return fmt.Sprintf("//%s:%s", loadedModuleDir, loadedModuleName)
1846 }
1847 return filepath.Join(ctx.outputDir, loadedModuleDir, loadedModuleName)
1848}
1849
Sasha Smundak3deb9682021-07-26 18:42:25 -0700[diff] [blame]1850func (ctx *parseContext) addSoongNamespace(ns string) {
1851 if _, ok := ctx.soongNamespaces[ns]; ok {
1852 return
1853 }
1854 ctx.soongNamespaces[ns] = make(map[string]bool)
1855}
1856
1857func (ctx *parseContext) hasSoongNamespace(name string) bool {
1858 _, ok := ctx.soongNamespaces[name]
1859 return ok
1860}
1861
1862func (ctx *parseContext) updateSoongNamespace(replace bool, namespaceName string, varNames []string) {
1863 ctx.addSoongNamespace(namespaceName)
1864 vars := ctx.soongNamespaces[namespaceName]
1865 if replace {
1866 vars = make(map[string]bool)
1867 ctx.soongNamespaces[namespaceName] = vars
1868 }
1869 for _, v := range varNames {
1870 vars[v] = true
1871 }
1872}
1873
1874func (ctx *parseContext) hasNamespaceVar(namespaceName string, varName string) bool {
1875 vars, ok := ctx.soongNamespaces[namespaceName]
1876 if ok {
1877 _, ok = vars[varName]
1878 }
1879 return ok
1880}
1881
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]1882func (ctx *parseContext) errorLocation(node mkparser.Node) ErrorLocation {
1883 return ErrorLocation{ctx.script.mkFile, ctx.script.nodeLocator(node.Pos())}
1884}
1885
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1886func (ss *StarlarkScript) String() string {
1887 return NewGenerateContext(ss).emit()
1888}
1889
1890func (ss *StarlarkScript) SubConfigFiles() []string {
Sasha Smundak6609ba72021-07-22 18:32:56 -0700[diff] [blame]1891
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1892 var subs []string
1893 for _, src := range ss.inherited {
1894 subs = append(subs, src.originalPath)
1895 }
1896 return subs
1897}
1898
1899func (ss *StarlarkScript) HasErrors() bool {
1900 return ss.hasErrors
1901}
1902
1903// Convert reads and parses a makefile. If successful, parsed tree
1904// is returned and then can be passed to String() to get the generated
1905// Starlark file.
1906func Convert(req Request) (*StarlarkScript, error) {
1907 reader := req.Reader
1908 if reader == nil {
1909 mkContents, err := ioutil.ReadFile(req.MkFile)
1910 if err != nil {
1911 return nil, err
1912 }
1913 reader = bytes.NewBuffer(mkContents)
1914 }
1915 parser := mkparser.NewParser(req.MkFile, reader)
1916 nodes, errs := parser.Parse()
1917 if len(errs) > 0 {
1918 for _, e := range errs {
1919 fmt.Fprintln(os.Stderr, "ERROR:", e)
1920 }
1921 return nil, fmt.Errorf("bad makefile %s", req.MkFile)
1922 }
1923 starScript := &StarlarkScript{
Sasha Smundak422b6142021-11-11 18:31:59 -0800[diff] [blame]1924 moduleName: moduleNameForFile(req.MkFile),
1925 mkFile: req.MkFile,
1926 topDir: req.RootDir,
1927 traceCalls: req.TraceCalls,
1928 sourceFS: req.SourceFS,
1929 makefileFinder: req.MakefileFinder,
1930 nodeLocator: func(pos mkparser.Pos) int { return parser.Unpack(pos).Line },
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1931 }
1932 ctx := newParseContext(starScript, nodes)
1933 ctx.outputSuffix = req.OutputSuffix
1934 ctx.outputDir = req.OutputDir
1935 ctx.errorLogger = req.ErrorLogger
1936 if len(req.TracedVariables) > 0 {
1937 ctx.tracedVariables = make(map[string]bool)
1938 for _, v := range req.TracedVariables {
1939 ctx.tracedVariables[v] = true
1940 }
1941 }
1942 ctx.pushReceiver(starScript)
1943 for ctx.hasNodes() && ctx.fatalError == nil {
Cole Faust591a1fe2021-11-08 15:37:57 -0800[diff] [blame]1944 ctx.handleSimpleStatement(ctx.getNode())
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1945 }
1946 if ctx.fatalError != nil {
1947 return nil, ctx.fatalError
1948 }
1949 return starScript, nil
1950}
1951
Cole Faust864028a2021-12-01 13:43:17 -0800[diff] [blame]1952func Launcher(mainModuleUri, inputVariablesUri, mainModuleName string) string {
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1953 var buf bytes.Buffer
1954 fmt.Fprintf(&buf, "load(%q, %q)\n", baseUri, baseName)
Cole Faust864028a2021-12-01 13:43:17 -0800[diff] [blame]1955 fmt.Fprintf(&buf, "load(%q, input_variables_init = \"init\")\n", inputVariablesUri)
Sasha Smundakd7d07ad2021-09-10 15:42:34 -0700[diff] [blame]1956 fmt.Fprintf(&buf, "load(%q, \"init\")\n", mainModuleUri)
Cole Faust864028a2021-12-01 13:43:17 -0800[diff] [blame]1957 fmt.Fprintf(&buf, "%s(%s(%q, init, input_variables_init))\n", cfnPrintVars, cfnMain, mainModuleName)
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1958 return buf.String()
1959}
1960
Cole Faust6ed7cb42021-10-07 17:08:46 -0700[diff] [blame]1961func BoardLauncher(mainModuleUri string, inputVariablesUri string) string {
1962 var buf bytes.Buffer
1963 fmt.Fprintf(&buf, "load(%q, %q)\n", baseUri, baseName)
1964 fmt.Fprintf(&buf, "load(%q, \"init\")\n", mainModuleUri)
1965 fmt.Fprintf(&buf, "load(%q, input_variables_init = \"init\")\n", inputVariablesUri)
1966 fmt.Fprintf(&buf, "globals, cfg, globals_base = %s(init, input_variables_init)\n", cfnBoardMain)
1967 fmt.Fprintf(&buf, "# TODO: Some product config variables need to be printed, but most are readonly so we can't just print cfg here.\n")
Cole Faust3c1868b2021-11-22 16:34:11 -0800[diff] [blame]1968 fmt.Fprintf(&buf, "%s((globals, cfg, globals_base))\n", cfnPrintVars)
Cole Faust6ed7cb42021-10-07 17:08:46 -0700[diff] [blame]1969 return buf.String()
1970}
1971
Sasha Smundakb051c4e2020-11-05 20:45:07 -0800[diff] [blame]1972func MakePath2ModuleName(mkPath string) string {
1973 return strings.TrimSuffix(mkPath, filepath.Ext(mkPath))
1974}