dep/solve_failures.go

493 строки
14 KiB
Go
Исходник Обычный вид История

package gps
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import (
"bytes"
"fmt"
"sort"
"strings"
)
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type errorLevel uint8
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// TODO(sdboyer) consistent, sensible way of handling 'type' and 'severity' - or figure
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// out that they're not orthogonal and collapse into just 'type'
const (
warning errorLevel = 1 << iota
mustResolve
cannotResolve
)
func a2vs(a atom) string {
if a.v == rootRev || a.v == nil {
return "(root)"
}
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return fmt.Sprintf("%s@%s", a.id.errString(), a.v)
}
type traceError interface {
traceString() string
}
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type noVersionError struct {
pn ProjectIdentifier
fails []failedVersion
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}
func (e *noVersionError) Error() string {
if len(e.fails) == 0 {
return fmt.Sprintf("No versions found for project %q.", e.pn.ProjectRoot)
}
var buf bytes.Buffer
fmt.Fprintf(&buf, "No versions of %s met constraints:", e.pn.ProjectRoot)
for _, f := range e.fails {
fmt.Fprintf(&buf, "\n\t%s: %s", f.v, f.f.Error())
}
return buf.String()
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}
func (e *noVersionError) traceString() string {
if len(e.fails) == 0 {
return fmt.Sprintf("No versions found")
}
var buf bytes.Buffer
fmt.Fprintf(&buf, "No versions of %s met constraints:", e.pn.ProjectRoot)
for _, f := range e.fails {
if te, ok := f.f.(traceError); ok {
fmt.Fprintf(&buf, "\n %s: %s", f.v, te.traceString())
} else {
fmt.Fprintf(&buf, "\n %s: %s", f.v, f.f.Error())
}
}
return buf.String()
}
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// disjointConstraintFailure occurs when attempting to introduce an atom that
// itself has an acceptable version, but one of its dependency constraints is
// disjoint with one or more dependency constraints already active for that
// identifier.
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type disjointConstraintFailure struct {
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// goal is the dependency with the problematic constraint, forcing us to
// reject the atom that introduces it.
goal dependency
// failsib is the list of active dependencies that are disjoint with the
// goal dependency. This will be at least one, but may not be all of the
// active dependencies.
failsib []dependency
// nofailsib is the list of active dependencies that are NOT disjoint with
// the goal dependency. The total of nofailsib and failsib will always be
// the total number of active dependencies on target identifier.
nofailsib []dependency
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// c is the current constraint on the target identifier. It is intersection
// of all the active dependencies' constraints.
c Constraint
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}
func (e *disjointConstraintFailure) Error() string {
if len(e.failsib) == 1 {
str := "Could not introduce %s, as it has a dependency on %s with constraint %s, which has no overlap with existing constraint %s from %s"
return fmt.Sprintf(str, a2vs(e.goal.depender), e.goal.dep.Ident.errString(), e.goal.dep.Constraint.String(), e.failsib[0].dep.Constraint.String(), a2vs(e.failsib[0].depender))
}
var buf bytes.Buffer
var sibs []dependency
if len(e.failsib) > 1 {
sibs = e.failsib
str := "Could not introduce %s, as it has a dependency on %s with constraint %s, which has no overlap with the following existing constraints:\n"
fmt.Fprintf(&buf, str, a2vs(e.goal.depender), e.goal.dep.Ident.errString(), e.goal.dep.Constraint.String())
} else {
sibs = e.nofailsib
str := "Could not introduce %s, as it has a dependency on %s with constraint %s, which does not overlap with the intersection of existing constraints from other currently selected packages:\n"
fmt.Fprintf(&buf, str, a2vs(e.goal.depender), e.goal.dep.Ident.errString(), e.goal.dep.Constraint.String())
}
for _, c := range sibs {
fmt.Fprintf(&buf, "\t%s from %s\n", c.dep.Constraint.String(), a2vs(c.depender))
}
return buf.String()
}
func (e *disjointConstraintFailure) traceString() string {
var buf bytes.Buffer
fmt.Fprintf(&buf, "constraint %s on %s disjoint with other dependers:\n", e.goal.dep.Constraint.String(), e.goal.dep.Ident.errString())
for _, f := range e.failsib {
fmt.Fprintf(
&buf,
"%s from %s (no overlap)\n",
f.dep.Constraint.String(),
a2vs(f.depender),
)
}
for _, f := range e.nofailsib {
fmt.Fprintf(
&buf,
"%s from %s (some overlap)\n",
f.dep.Constraint.String(),
a2vs(f.depender),
)
}
return buf.String()
}
// Indicates that an atom could not be introduced because one of its dep
// constraints does not admit the currently-selected version of the target
// project.
type constraintNotAllowedFailure struct {
// The dependency with the problematic constraint that could not be
// introduced.
goal dependency
// The (currently selected) version of the target project that was not
// admissible by the goal dependency.
v Version
}
func (e *constraintNotAllowedFailure) Error() string {
return fmt.Sprintf(
"Could not introduce %s, as it has a dependency on %s with constraint %s, which does not allow the currently selected version of %s",
a2vs(e.goal.depender),
e.goal.dep.Ident.errString(),
e.goal.dep.Constraint,
e.v,
)
}
func (e *constraintNotAllowedFailure) traceString() string {
return fmt.Sprintf(
"%s depends on %s with %s, but that's already selected at %s",
a2vs(e.goal.depender),
e.goal.dep.Ident.ProjectRoot,
e.goal.dep.Constraint,
e.v,
)
}
// versionNotAllowedFailure describes a failure where an atom is rejected
// because its version is not allowed by current constraints.
//
// (This is one of the more straightforward types of failures)
type versionNotAllowedFailure struct {
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// goal is the atom that was rejected by current constraints.
goal atom
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// failparent is the list of active dependencies that caused the atom to be
// rejected. Note that this only includes dependencies that actually
// rejected the atom, which will be at least one, but may not be all the
// active dependencies on the atom's identifier.
failparent []dependency
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// c is the current constraint on the atom's identifier. This is the intersection
// of all active dependencies' constraints.
c Constraint
}
func (e *versionNotAllowedFailure) Error() string {
if len(e.failparent) == 1 {
return fmt.Sprintf(
"Could not introduce %s, as it is not allowed by constraint %s from project %s.",
a2vs(e.goal),
e.failparent[0].dep.Constraint.String(),
e.failparent[0].depender.id.errString(),
)
}
var buf bytes.Buffer
fmt.Fprintf(&buf, "Could not introduce %s, as it is not allowed by constraints from the following projects:\n", a2vs(e.goal))
for _, f := range e.failparent {
fmt.Fprintf(&buf, "\t%s from %s\n", f.dep.Constraint.String(), a2vs(f.depender))
}
return buf.String()
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}
func (e *versionNotAllowedFailure) traceString() string {
var buf bytes.Buffer
fmt.Fprintf(&buf, "%s not allowed by constraint %s:\n", a2vs(e.goal), e.c.String())
for _, f := range e.failparent {
fmt.Fprintf(&buf, " %s from %s\n", f.dep.Constraint.String(), a2vs(f.depender))
}
return buf.String()
}
type missingSourceFailure struct {
goal ProjectIdentifier
prob string
}
func (e *missingSourceFailure) Error() string {
return fmt.Sprintf(e.prob, e.goal)
}
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type badOptsFailure string
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func (e badOptsFailure) Error() string {
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return string(e)
}
type sourceMismatchFailure struct {
// The ProjectRoot over which there is disagreement about where it should be
// sourced from
shared ProjectRoot
// The current value for the network source
current string
// The mismatched value for the network source
mismatch string
// The currently selected dependencies which have agreed upon/established
// the given network source
sel []dependency
// The atom with the constraint that has the new, incompatible network source
prob atom
}
func (e *sourceMismatchFailure) Error() string {
var cur []string
for _, c := range e.sel {
cur = append(cur, string(c.depender.id.ProjectRoot))
}
str := "Could not introduce %s, as it depends on %s from %s, but %s is already marked as coming from %s by %s"
return fmt.Sprintf(str, a2vs(e.prob), e.shared, e.mismatch, e.shared, e.current, strings.Join(cur, ", "))
}
func (e *sourceMismatchFailure) traceString() string {
var buf bytes.Buffer
fmt.Fprintf(&buf, "disagreement on network addr for %s:\n", e.shared)
fmt.Fprintf(&buf, " %s from %s\n", e.mismatch, e.prob.id.errString())
for _, dep := range e.sel {
fmt.Fprintf(&buf, " %s from %s\n", e.current, dep.depender.id.errString())
}
return buf.String()
}
type errDeppers struct {
err error
deppers []atom
}
// checkeeHasProblemPackagesFailure indicates that the goal atom was rejected
// because one or more of the packages required by its deppers had errors.
//
// "errors" includes package nonexistence, which is indicated by a nil err in
// the corresponding errDeppers failpkg map value.
//
// checkeeHasProblemPackagesFailure complements depHasProblemPackagesFailure;
// one or the other could appear to describe the same fundamental issue,
// depending on the order in which dependencies were visited.
type checkeeHasProblemPackagesFailure struct {
// goal is the atom that was rejected due to problematic packages.
goal atom
// failpkg is a map of package names to the error describing the problem
// with them, plus a list of the selected atoms that require that package.
failpkg map[string]errDeppers
}
func (e *checkeeHasProblemPackagesFailure) Error() string {
var buf bytes.Buffer
indent := ""
if len(e.failpkg) > 1 {
indent = "\t"
fmt.Fprintf(
&buf, "Could not introduce %s due to multiple problematic subpackages:\n",
a2vs(e.goal),
)
}
for pkg, errdep := range e.failpkg {
var cause string
if errdep.err == nil {
cause = "is missing"
} else {
cause = fmt.Sprintf("does not contain usable Go code (%T).", errdep.err)
}
if len(e.failpkg) == 1 {
fmt.Fprintf(
&buf, "Could not introduce %s, as its subpackage %s %s.",
a2vs(e.goal),
pkg,
cause,
)
} else {
fmt.Fprintf(&buf, "\tSubpackage %s %s.", pkg, cause)
}
if len(errdep.deppers) == 1 {
fmt.Fprintf(
&buf, " (Package is required by %s.)",
a2vs(errdep.deppers[0]),
)
} else {
fmt.Fprintf(&buf, " Package is required by:")
for _, pa := range errdep.deppers {
fmt.Fprintf(&buf, "\n%s\t%s", indent, a2vs(pa))
}
}
}
return buf.String()
}
func (e *checkeeHasProblemPackagesFailure) traceString() string {
var buf bytes.Buffer
fmt.Fprintf(&buf, "%s at %s has problem subpkg(s):\n", e.goal.id.ProjectRoot, e.goal.v)
for pkg, errdep := range e.failpkg {
if errdep.err == nil {
fmt.Fprintf(&buf, "\t%s is missing; ", pkg)
} else {
fmt.Fprintf(&buf, "\t%s has err (%T); ", pkg, errdep.err)
}
if len(errdep.deppers) == 1 {
fmt.Fprintf(&buf, "required by %s.", a2vs(errdep.deppers[0]))
} else {
fmt.Fprintf(&buf, " required by:")
for _, pa := range errdep.deppers {
fmt.Fprintf(&buf, "\n\t\t%s at %s", pa.id.errString(), pa.v)
}
}
}
return buf.String()
}
// depHasProblemPackagesFailure indicates that the goal dependency was rejected
// because there were problems with one or more of the packages the dependency
// requires in the atom currently selected for that dependency. (This failure
// can only occur if the target dependency is already selected.)
//
// "errors" includes package nonexistence, which is indicated by a nil err as
// the corresponding prob map value.
//
// depHasProblemPackagesFailure complements checkeeHasProblemPackagesFailure;
// one or the other could appear to describe the same fundamental issue,
// depending on the order in which dependencies were visited.
type depHasProblemPackagesFailure struct {
// goal is the dependency that was rejected due to the atom currently
// selected for the dependency's target id having errors (including, and
// probably most commonly,
// nonexistence) in one or more packages named by the dependency.
goal dependency
// v is the version of the currently selected atom targeted by the goal
// dependency.
v Version
// prob is a map of problem packages to their specific error. It does not
// include missing packages.
prob map[string]error
}
func (e *depHasProblemPackagesFailure) Error() string {
fcause := func(pkg string) string {
if err := e.prob[pkg]; err != nil {
return fmt.Sprintf("does not contain usable Go code (%T).", err)
}
return "is missing."
}
if len(e.prob) == 1 {
var pkg string
for pkg = range e.prob {
}
return fmt.Sprintf(
"Could not introduce %s, as it requires package %s from %s, but in version %s that package %s",
a2vs(e.goal.depender),
pkg,
e.goal.dep.Ident.errString(),
e.v,
fcause(pkg),
)
}
var buf bytes.Buffer
fmt.Fprintf(
&buf, "Could not introduce %s, as it requires problematic packages from %s (current version %s):",
a2vs(e.goal.depender),
e.goal.dep.Ident.errString(),
e.v,
)
pkgs := make([]string, len(e.prob))
k := 0
for pkg := range e.prob {
pkgs[k] = pkg
k++
}
sort.Strings(pkgs)
for _, pkg := range pkgs {
fmt.Fprintf(&buf, "\t%s %s", pkg, fcause(pkg))
}
return buf.String()
}
func (e *depHasProblemPackagesFailure) traceString() string {
var buf bytes.Buffer
fcause := func(pkg string) string {
if err := e.prob[pkg]; err != nil {
return fmt.Sprintf("has parsing err (%T).", err)
}
return "is missing"
}
fmt.Fprintf(
&buf, "%s depping on %s at %s has problem subpkg(s):",
a2vs(e.goal.depender),
e.goal.dep.Ident.errString(),
e.v,
)
pkgs := make([]string, len(e.prob))
k := 0
for pkg := range e.prob {
pkgs[k] = pkg
k++
}
sort.Strings(pkgs)
for _, pkg := range pkgs {
fmt.Fprintf(&buf, "\t%s %s", pkg, fcause(pkg))
}
return buf.String()
}
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// nonexistentRevisionFailure indicates that a revision constraint was specified
// for a given project, but that that revision does not exist in the source
// repository.
type nonexistentRevisionFailure struct {
goal dependency
r Revision
}
func (e *nonexistentRevisionFailure) Error() string {
return fmt.Sprintf(
"Could not introduce %s, as it requires %s at revision %s, but that revision does not exist",
a2vs(e.goal.depender),
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e.goal.dep.Ident.errString(),
e.r,
)
}
func (e *nonexistentRevisionFailure) traceString() string {
return fmt.Sprintf(
"%s wants missing rev %s of %s",
a2vs(e.goal.depender),
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e.r,
e.goal.dep.Ident.errString(),
)
}