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ash_graphql/lib/graphql/resolver.ex
Zach Daniel 019632c420 fix: properly set actor on bulk action calls
2024-04-27 09:27:00 -04:00

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defmodule AshGraphql.Graphql.Resolver do
@moduledoc false
require Logger
import Ash.Expr
import AshGraphql.TraceHelpers
import AshGraphql.ContextHelpers
def resolve(%Absinthe.Resolution{state: :resolved} = resolution, _),
do: resolution
def resolve(
%{arguments: arguments, context: context} = resolution,
{domain, resource, %AshGraphql.Resource.Action{name: query_name, action: action}, input?}
) do
arguments =
if input? do
arguments[:input] || %{}
else
arguments
end
action = Ash.Resource.Info.action(resource, action)
case handle_arguments(resource, action, arguments) do
{:ok, arguments} ->
metadata = %{
domain: domain,
resource: resource,
resource_short_name: Ash.Resource.Info.short_name(resource),
actor: Map.get(context, :actor),
tenant: Map.get(context, :tenant),
action: action,
source: :graphql,
query: query_name,
authorize?: AshGraphql.Domain.Info.authorize?(domain)
}
trace domain,
resource,
:gql_query,
query_name,
metadata do
opts = [
actor: Map.get(context, :actor),
domain: domain,
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tenant: Map.get(context, :tenant)
]
result =
%Ash.ActionInput{domain: domain, resource: resource}
|> Ash.ActionInput.set_context(get_context(context))
|> Ash.ActionInput.for_action(action.name, arguments)
|> Ash.run_action(opts)
|> case do
{:ok, result} ->
load_opts =
[
actor: Map.get(context, :actor),
action: action,
domain: domain,
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tenant: Map.get(context, :tenant)
]
if Ash.Type.can_load?(action.returns, action.constraints) do
{fields, path} = nested_fields_and_path(resolution, [], [])
loads =
type_loads(
fields,
context,
action.returns,
action.constraints,
load_opts,
resource,
action.name,
resolution,
path,
hd(resolution.path),
nil
)
case loads do
[] ->
{:ok, result}
loads ->
Ash.Type.load(
action.returns,
result,
loads,
action.constraints,
Map.new(load_opts)
)
end
else
{:ok, result}
end
{:error, error} ->
{:error, error}
end
resolution
|> Absinthe.Resolution.put_result(
to_resolution(
result,
context,
domain
)
)
|> add_root_errors(domain, result)
end
{:error, error} ->
{:error, error}
end
rescue
e ->
if AshGraphql.Domain.Info.show_raised_errors?(domain) do
error = Ash.Error.to_ash_error([e], __STACKTRACE__)
Absinthe.Resolution.put_result(
resolution,
to_resolution({:error, error}, context, domain)
)
else
something_went_wrong(resolution, e, domain, __STACKTRACE__)
end
end
def resolve(
%{arguments: arguments, context: context} = resolution,
{domain, resource,
%{
name: query_name,
type: :get,
action: action,
identity: identity,
type_name: type_name,
modify_resolution: modify
} = gql_query, relay_ids?}
) do
case handle_arguments(resource, action, arguments) do
{:ok, arguments} ->
metadata = %{
domain: domain,
resource: resource,
resource_short_name: Ash.Resource.Info.short_name(resource),
actor: Map.get(context, :actor),
tenant: Map.get(context, :tenant),
action: action,
source: :graphql,
query: query_name,
authorize?: AshGraphql.Domain.Info.authorize?(domain)
}
trace domain,
resource,
:gql_query,
query_name,
metadata do
opts = [
actor: Map.get(context, :actor),
action: action,
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tenant: Map.get(context, :tenant)
]
filter = identity_filter(identity, resource, arguments, relay_ids?)
query =
resource
|> Ash.Query.new()
|> Ash.Query.set_tenant(Map.get(context, :tenant))
|> Ash.Query.set_context(get_context(context))
|> set_query_arguments(action, arguments)
|> select_fields(resource, resolution, type_name)
{result, modify_args} =
case filter do
{:ok, filter} ->
query =
query
|> Ash.Query.do_filter(filter)
|> load_fields(
[
domain: domain,
tenant: Map.get(context, :tenant),
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tracer: AshGraphql.Domain.Info.tracer(domain),
actor: Map.get(context, :actor)
],
resource,
resolution,
resolution.path,
context
)
result =
query
|> Ash.Query.for_read(action, %{},
actor: opts[:actor],
authorize?: AshGraphql.Domain.Info.authorize?(domain)
)
|> Ash.read_one(opts)
{result, [query, result]}
{:error, error} ->
query =
resource
|> Ash.Query.new()
|> Ash.Query.set_tenant(Map.get(context, :tenant))
|> Ash.Query.set_context(get_context(context))
|> set_query_arguments(action, arguments)
|> select_fields(resource, resolution, type_name)
|> load_fields(
[
domain: domain,
tenant: Map.get(context, :tenant),
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tracer: AshGraphql.Domain.Info.tracer(domain),
actor: Map.get(context, :actor)
],
resource,
resolution,
resolution.path,
context
)
{{:error, error}, [query, {:error, error}]}
end
case {result, gql_query.allow_nil?} do
{{:ok, nil}, false} ->
{:ok, filter} = filter
error =
Ash.Error.Query.NotFound.exception(
primary_key: Map.new(filter || []),
resource: resource
)
resolution
|> Absinthe.Resolution.put_result({:error, to_errors([error], context, domain)})
|> add_root_errors(domain, result)
{result, _} ->
resolution
|> Absinthe.Resolution.put_result(
to_resolution(
result
|> add_read_metadata(
gql_query,
Ash.Resource.Info.action(query.resource, action)
),
context,
domain
)
)
|> add_root_errors(domain, result)
|> modify_resolution(modify, modify_args)
end
end
{:error, error} ->
{:error, error}
end
rescue
e ->
if AshGraphql.Domain.Info.show_raised_errors?(domain) do
error = Ash.Error.to_ash_error([e], __STACKTRACE__)
Absinthe.Resolution.put_result(
resolution,
to_resolution({:error, error}, context, domain)
)
else
something_went_wrong(resolution, e, domain, __STACKTRACE__)
end
end
def resolve(
%{arguments: args, context: context} = resolution,
{domain, resource,
%{
name: query_name,
type: :read_one,
action: action,
modify_resolution: modify,
type_name: type_name
} =
gql_query, _relay_ids?}
) do
metadata = %{
domain: domain,
resource: resource,
resource_short_name: Ash.Resource.Info.short_name(resource),
actor: Map.get(context, :actor),
tenant: Map.get(context, :tenant),
action: action,
source: :graphql,
query: query_name,
authorize?: AshGraphql.Domain.Info.authorize?(domain)
}
with {:ok, args} <- handle_arguments(resource, action, args),
{:ok, query} <- read_one_query(resource, args) do
trace domain,
resource,
:gql_query,
query_name,
metadata do
opts = [
actor: Map.get(context, :actor),
action: action,
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tenant: Map.get(context, :tenant)
]
query =
query
|> Ash.Query.set_tenant(Map.get(context, :tenant))
|> Ash.Query.set_context(get_context(context))
|> set_query_arguments(action, args)
|> select_fields(resource, resolution, type_name)
|> load_fields(
[
domain: domain,
tenant: Map.get(context, :tenant),
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tracer: AshGraphql.Domain.Info.tracer(domain),
actor: Map.get(context, :actor)
],
resource,
resolution,
resolution.path,
context
)
result =
query
|> Ash.Query.for_read(action, %{},
actor: opts[:actor],
domain: domain,
authorize?: AshGraphql.Domain.Info.authorize?(domain)
)
|> Ash.read_one(opts)
result =
add_read_metadata(
result,
gql_query,
Ash.Resource.Info.action(query.resource, action)
)
resolution
|> Absinthe.Resolution.put_result(to_resolution(result, context, domain))
|> add_root_errors(domain, result)
|> modify_resolution(modify, [query, args])
end
else
{:error, error} ->
resolution
|> Absinthe.Resolution.put_result(to_resolution({:error, error}, context, domain))
end
rescue
e ->
if AshGraphql.Domain.Info.show_raised_errors?(domain) do
error = Ash.Error.to_ash_error([e], __STACKTRACE__)
Absinthe.Resolution.put_result(
resolution,
to_resolution({:error, error}, context, domain)
)
else
something_went_wrong(resolution, e, domain, __STACKTRACE__)
end
end
def resolve(
%{arguments: args, context: context} = resolution,
{domain, resource,
%{
name: query_name,
type: :list,
relay?: relay?,
action: action,
type_name: type_name,
modify_resolution: modify
} = gql_query, _relay_ids?}
) do
case handle_arguments(resource, action, args) do
{:ok, args} ->
metadata = %{
domain: domain,
resource: resource,
resource_short_name: Ash.Resource.Info.short_name(resource),
actor: Map.get(context, :actor),
tenant: Map.get(context, :tenant),
action: action,
source: :graphql,
query: query_name,
authorize?: AshGraphql.Domain.Info.authorize?(domain)
}
trace domain,
resource,
:gql_query,
query_name,
metadata do
opts = [
actor: Map.get(context, :actor),
action: action,
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tenant: Map.get(context, :tenant)
]
pagination = Ash.Resource.Info.action(resource, action).pagination
query = apply_load_arguments(args, Ash.Query.new(resource), true)
{result, modify_args} =
with {:ok, opts} <-
validate_resolve_opts(
resolution,
resource,
pagination,
relay?,
opts,
args,
gql_query,
action
),
result_fields <-
get_result_fields(
AshGraphql.Resource.pagination_strategy(
gql_query,
Ash.Resource.Info.action(resource, action)
),
relay?
),
initial_query <-
query
|> Ash.Query.set_tenant(Map.get(context, :tenant))
|> Ash.Query.set_context(get_context(context))
|> set_query_arguments(action, args)
|> select_fields(resource, resolution, type_name, result_fields),
query <-
load_fields(
initial_query,
[
domain: domain,
tenant: Map.get(context, :tenant),
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tracer: AshGraphql.Domain.Info.tracer(domain),
actor: Map.get(context, :actor)
],
resource,
resolution,
resolution.path,
context,
result_fields
),
{:ok, page} <-
query
|> Ash.Query.for_read(action, %{},
actor: Map.get(context, :actor),
domain: domain,
authorize?: AshGraphql.Domain.Info.authorize?(domain)
)
|> Ash.read(opts) do
result = paginate(resource, gql_query, action, page, relay?)
{result, [query, result]}
else
{:error, error} ->
{{:error, error}, [query, {:error, error}]}
end
result =
add_read_metadata(result, gql_query, Ash.Resource.Info.action(query.resource, action))
resolution
|> Absinthe.Resolution.put_result(to_resolution(result, context, domain))
|> add_root_errors(domain, modify_args)
|> modify_resolution(modify, modify_args)
end
{:error, error} ->
{:error, error}
end
rescue
e ->
if AshGraphql.Domain.Info.show_raised_errors?(domain) do
error = Ash.Error.to_ash_error([e], __STACKTRACE__)
Absinthe.Resolution.put_result(
resolution,
to_resolution({:error, error}, context, domain)
)
else
something_went_wrong(resolution, e, domain, __STACKTRACE__)
end
end
defp read_one_query(resource, args) do
case Map.fetch(args, :filter) do
{:ok, filter} when filter != %{} ->
case Ash.Filter.parse_input(resource, filter) do
{:ok, parsed} ->
{:ok, Ash.Query.do_filter(resource, parsed)}
{:error, error} ->
{:error, error}
end
_ ->
{:ok, Ash.Query.new(resource)}
end
end
defp handle_arguments(_resource, nil, argument_values) do
{:ok, argument_values}
end
defp handle_arguments(resource, action, argument_values) when is_atom(action) do
action = Ash.Resource.Info.action(resource, action)
handle_arguments(resource, action, argument_values)
end
defp handle_arguments(resource, action, argument_values) do
action_arguments = action.arguments
attributes =
resource
|> Ash.Resource.Info.attributes()
argument_values
|> Enum.reduce_while({:ok, %{}}, fn {key, value}, {:ok, arguments} ->
argument =
Enum.find(action_arguments, &(&1.name == key)) || Enum.find(attributes, &(&1.name == key))
if argument do
%{type: type, name: name, constraints: constraints} = argument
case handle_argument(resource, action, type, constraints, value, name) do
{:ok, value} ->
{:cont, {:ok, Map.put(arguments, name, value)}}
{:error, error} ->
{:halt, {:error, error}}
end
else
{:cont, {:ok, Map.put(arguments, key, value)}}
end
end)
end
defp handle_argument(resource, action, {:array, type}, constraints, value, name)
when is_list(value) do
value
|> Enum.reduce_while({:ok, []}, fn value, {:ok, acc} ->
case handle_argument(resource, action, type, constraints[:items], value, name) do
{:ok, value} ->
{:cont, {:ok, [value | acc]}}
{:error, error} ->
{:halt, {:error, error}}
end
end)
|> case do
{:ok, value} -> {:ok, Enum.reverse(value)}
{:error, error} -> {:error, error}
end
end
defp handle_argument(_resource, _action, Ash.Type.Union, constraints, value, name) do
handle_union_type(value, constraints, name)
end
defp handle_argument(resource, action, type, constraints, value, name) do
cond do
AshGraphql.Resource.Info.managed_relationship(resource, action, %{name: name, type: type}) &&
is_map(value) ->
managed_relationship =
AshGraphql.Resource.Info.managed_relationship(resource, action, %{
name: name,
type: type
})
opts = AshGraphql.Resource.find_manage_change(%{name: name, type: type}, action, resource)
relationship =
Ash.Resource.Info.relationship(resource, opts[:relationship]) ||
raise """
No relationship found when building managed relationship input: #{opts[:relationship]}
"""
manage_opts_schema =
if opts[:opts][:type] do
defaults = Ash.Changeset.manage_relationship_opts(opts[:opts][:type])
Enum.reduce(defaults, Ash.Changeset.manage_relationship_schema(), fn {key, value},
manage_opts ->
Spark.Options.Helpers.set_default!(manage_opts, key, value)
end)
else
Ash.Changeset.manage_relationship_schema()
end
manage_opts = Spark.Options.validate!(opts[:opts], manage_opts_schema)
fields =
manage_opts
|> AshGraphql.Resource.manage_fields(
managed_relationship,
relationship,
__MODULE__
)
|> Enum.reject(fn
{_, :__primary_key, _} ->
true
{_, {:identity, _}, _} ->
true
_ ->
false
end)
|> Map.new(fn {_, _, %{identifier: identifier}} = field ->
{identifier, field}
end)
Enum.reduce_while(value, {:ok, %{}}, fn {key, value}, {:ok, acc} ->
field_name =
resource
|> AshGraphql.Resource.Info.field_names()
|> Enum.map(fn {l, r} -> {r, l} end)
|> Keyword.get(key, key)
case Map.get(fields, field_name) do
nil ->
{:cont, {:ok, Map.put(acc, key, value)}}
{resource, action, _} ->
action = Ash.Resource.Info.action(resource, action)
attributes = Ash.Resource.Info.public_attributes(resource)
argument =
Enum.find(action.arguments, &(&1.name == field_name)) ||
Enum.find(attributes, &(&1.name == field_name))
if argument do
%{type: type, name: name, constraints: constraints} = argument
case handle_argument(resource, action, type, constraints, value, name) do
{:ok, value} ->
{:cont, {:ok, Map.put(acc, key, value)}}
{:error, error} ->
{:halt, {:error, error}}
end
else
{:cont, {:ok, Map.put(acc, key, value)}}
end
end
end)
Ash.Type.NewType.new_type?(type) ->
handle_argument(
resource,
action,
Ash.Type.NewType.subtype_of(type),
Ash.Type.NewType.constraints(type, constraints),
value,
name
)
AshGraphql.Resource.embedded?(type) and is_map(value) ->
create_action =
if constraints[:create_action] do
Ash.Resource.Info.action(type, constraints[:create_action]) ||
Ash.Resource.Info.primary_action(type, :create)
else
Ash.Resource.Info.primary_action(type, :create)
end
update_action =
if constraints[:update_action] do
Ash.Resource.Info.action(type, constraints[:update_action]) ||
Ash.Resource.Info.primary_action(type, :update)
else
Ash.Resource.Info.primary_action(type, :update)
end
attributes = Ash.Resource.Info.public_attributes(type)
fields =
cond do
create_action && update_action ->
create_action.arguments ++ update_action.arguments ++ attributes
update_action ->
update_action.arguments ++ attributes
create_action ->
create_action.arguments ++ attributes
true ->
attributes
end
value
|> Enum.reduce_while({:ok, %{}}, fn {key, value}, {:ok, acc} ->
field =
Enum.find(fields, fn field ->
field.name == key
end)
if field do
case handle_argument(
resource,
action,
field.type,
field.constraints,
value,
"#{name}.#{key}"
) do
{:ok, value} ->
{:cont, {:ok, Map.put(acc, key, value)}}
{:error, error} ->
{:halt, {:error, error}}
end
else
{:cont, {:ok, Map.put(acc, key, value)}}
end
end)
true ->
{:ok, value}
end
end
defp handle_union_type(value, constraints, name) do
value
|> Enum.reject(fn {_key, value} ->
is_nil(value)
end)
|> case do
[] ->
{:ok, nil}
[{key, value}] ->
config = constraints[:types][key]
if config[:tag] && is_map(value) do
{:ok,
%Ash.Union{type: key, value: Map.put_new(value, config[:tag], config[:tag_value])}}
else
{:ok, %Ash.Union{type: key, value: value}}
end
key_vals ->
keys = Enum.map_join(key_vals, ", ", fn {key, _} -> to_string(key) end)
{:error,
%{message: "Only one key can be specified, but got #{keys}", fields: ["#{name}"]}}
end
end
def validate_resolve_opts(resolution, resource, pagination, relay?, opts, args, query, action) do
action = Ash.Resource.Info.action(resource, action)
case AshGraphql.Resource.pagination_strategy(query, action) do
nil ->
{:ok, opts}
strategy ->
with page_opts <-
args
|> Map.take([:limit, :offset, :first, :after, :before, :last])
|> Enum.reject(fn {_, val} -> is_nil(val) end),
{:ok, page_opts} <- validate_offset_opts(page_opts, strategy, pagination),
{:ok, page_opts} <- validate_keyset_opts(page_opts, strategy, pagination) do
type = page_type(resource, strategy, relay?)
field_names = resolution |> fields([], type) |> names_only()
page =
if Enum.any?(field_names, &(&1 == :count)) do
Keyword.put(page_opts, :count, true)
else
page_opts
end
{:ok, Keyword.put(opts, :page, page)}
else
error ->
error
end
end
end
defp validate_offset_opts(opts, :offset, %{max_page_size: max_page_size}) do
limit =
case opts |> Keyword.take([:limit]) |> Enum.into(%{}) do
%{limit: limit} ->
min(limit, max_page_size)
_ ->
max_page_size
end
{:ok, Keyword.put(opts, :limit, limit)}
end
defp validate_offset_opts(opts, _, _) do
{:ok, opts}
end
defp validate_keyset_opts(opts, :keyset, %{max_page_size: max_page_size}) do
case opts |> Keyword.take([:first, :last, :after, :before]) |> Enum.into(%{}) do
%{first: _first, last: _last} ->
{:error,
%Ash.Error.Query.InvalidQuery{
message: "You can pass either `first` or `last`, not both",
field: :first
}}
%{first: _first, before: _before} ->
{:error,
%Ash.Error.Query.InvalidQuery{
message:
"You can pass either `first` and `after` cursor, or `last` and `before` cursor",
field: :first
}}
%{last: _last, after: _after} ->
{:error,
%Ash.Error.Query.InvalidQuery{
message:
"You can pass either `first` and `after` cursor, or `last` and `before` cursor",
field: :last
}}
%{first: first} ->
{:ok, opts |> Keyword.delete(:first) |> Keyword.put(:limit, min(first, max_page_size))}
%{last: last, before: before} when not is_nil(before) ->
{:ok, opts |> Keyword.delete(:last) |> Keyword.put(:limit, min(last, max_page_size))}
%{last: _last} ->
{:error,
%Ash.Error.Query.InvalidQuery{
message: "You can pass `last` only with `before` cursor",
field: :last
}}
_ ->
{:ok, Keyword.put(opts, :limit, max_page_size)}
end
end
defp validate_keyset_opts(opts, _, _) do
{:ok, opts}
end
defp get_result_fields(:keyset, true) do
["edges", "node"]
end
defp get_result_fields(:keyset, false) do
["results"]
end
defp get_result_fields(:offset, _) do
["results"]
end
defp get_result_fields(_pagination, _) do
[]
end
defp paginate(
_resource,
_gql_query,
_action,
%Ash.Page.Keyset{
results: results,
more?: more,
after: after_cursor,
before: before_cursor,
count: count
},
relay?
) do
{start_cursor, end_cursor} =
case results do
[] ->
{nil, nil}
[first] ->
{first.__metadata__.keyset, first.__metadata__.keyset}
[first | rest] ->
last = List.last(rest)
{first.__metadata__.keyset, last.__metadata__.keyset}
end
{has_previous_page, has_next_page} =
case {after_cursor, before_cursor} do
{nil, nil} ->
{false, more}
{_, nil} ->
{true, more}
{nil, _} ->
# https://github.com/ash-project/ash_graphql/pull/36#issuecomment-1243892511
{more, not Enum.empty?(results)}
end
if relay? do
{
:ok,
%{
page_info: %{
start_cursor: start_cursor,
end_cursor: end_cursor,
has_next_page: has_next_page,
has_previous_page: has_previous_page
},
count: count,
edges:
Enum.map(results, fn result ->
%{
cursor: result.__metadata__.keyset,
node: result
}
end)
}
}
else
{:ok, %{results: results, count: count, start_keyset: start_cursor, end_keyset: end_cursor}}
end
end
defp paginate(
_resource,
_gql_query,
_action,
%Ash.Page.Offset{results: results, count: count, more?: more},
true
) do
{start_cursor, end_cursor} =
case results do
[] ->
{nil, nil}
[first] ->
{first.__metadata__.keyset, first.__metadata__.keyset}
[first | rest] ->
last = List.last(rest)
{first.__metadata__.keyset, last.__metadata__.keyset}
end
has_previous_page = false
has_next_page = more
{
:ok,
%{
page_info: %{
start_cursor: start_cursor,
end_cursor: end_cursor,
has_next_page: has_next_page,
has_previous_page: has_previous_page
},
count: count,
edges:
Enum.map(results, fn result ->
%{
cursor: result.__metadata__.keyset,
node: result
}
end)
}
}
end
defp paginate(
_resource,
_gql_query,
_action,
%Ash.Page.Offset{results: results, count: count, more?: more?},
_
) do
{:ok, %{results: results, count: count, more?: more?}}
end
defp paginate(resource, query, action, page, relay?) do
action =
if is_atom(action) do
Ash.Resource.Info.action(resource, action)
else
action
end
case AshGraphql.Resource.pagination_strategy(query, action) do
nil ->
{:ok, page}
:offset ->
paginate(
resource,
query,
action,
%Ash.Page.Offset{results: page, count: Enum.count(page), more?: false},
relay?
)
:keyset ->
paginate(
resource,
query,
action,
%Ash.Page.Keyset{
results: page,
more?: false,
after: nil,
before: nil
},
relay?
)
_ ->
{:ok, page}
end
end
def mutate(%Absinthe.Resolution{state: :resolved} = resolution, _),
do: resolution
def mutate(
%{arguments: arguments, context: context} = resolution,
{domain, resource,
%{
type: :create,
name: mutation_name,
action: action,
upsert?: upsert?,
upsert_identity: upsert_identity,
modify_resolution: modify
}, _relay_ids?}
) do
input = arguments[:input] || %{}
case handle_arguments(resource, action, input) do
{:ok, input} ->
metadata = %{
domain: domain,
resource: resource,
resource_short_name: Ash.Resource.Info.short_name(resource),
actor: Map.get(context, :actor),
tenant: Map.get(context, :tenant),
action: action,
source: :graphql,
mutation_name: mutation_name,
authorize?: AshGraphql.Domain.Info.authorize?(domain)
}
trace domain,
resource,
:gql_mutation,
mutation_name,
metadata do
opts = [
actor: Map.get(context, :actor),
action: action,
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tenant: Map.get(context, :tenant),
upsert?: upsert?
]
opts =
if upsert? && upsert_identity do
Keyword.put(opts, :upsert_identity, upsert_identity)
else
opts
end
type_name = mutation_result_type(mutation_name)
changeset =
resource
|> Ash.Changeset.new()
|> Ash.Changeset.set_tenant(Map.get(context, :tenant))
|> Ash.Changeset.set_context(get_context(context))
|> Ash.Changeset.for_create(action, input,
actor: Map.get(context, :actor),
authorize?: AshGraphql.Domain.Info.authorize?(domain)
)
|> select_fields(resource, resolution, type_name, ["result"])
|> load_fields(
[
domain: domain,
tenant: Map.get(context, :tenant),
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tracer: AshGraphql.Domain.Info.tracer(domain),
actor: Map.get(context, :actor)
],
resource,
resolution,
resolution.path,
context,
["result"]
)
{result, modify_args} =
changeset
|> Ash.create(opts)
|> case do
{:ok, value} ->
{{:ok, add_metadata(%{result: value, errors: []}, value, changeset.action)},
[changeset, {:ok, value}]}
{:error, %{changeset: changeset} = error} ->
{{:ok, %{result: nil, errors: to_errors(changeset.errors, context, domain)}},
[changeset, {:error, error}]}
end
resolution
|> Absinthe.Resolution.put_result(to_resolution(result, context, domain))
|> add_root_errors(domain, modify_args)
|> modify_resolution(modify, modify_args)
end
{:error, error} ->
{:error, error}
end
rescue
e ->
if AshGraphql.Domain.Info.show_raised_errors?(domain) do
error = Ash.Error.to_ash_error([e], __STACKTRACE__)
if AshGraphql.Domain.Info.root_level_errors?(domain) do
Absinthe.Resolution.put_result(
resolution,
to_resolution({:error, error}, context, domain)
)
else
Absinthe.Resolution.put_result(
resolution,
to_resolution(
{:ok, %{result: nil, errors: to_errors(error, context, domain)}},
context,
domain
)
)
end
else
something_went_wrong(resolution, e, domain, __STACKTRACE__)
end
end
def mutate(
%{arguments: arguments, context: context} = resolution,
{domain, resource,
%{
name: mutation_name,
type: :update,
action: action,
identity: identity,
read_action: read_action,
modify_resolution: modify
}, relay_ids?}
) do
read_action = read_action || Ash.Resource.Info.primary_action!(resource, :read).name
input = arguments[:input] || %{}
args_result =
with {:ok, input} <- handle_arguments(resource, action, input),
{:ok, read_action_input} <-
handle_arguments(resource, read_action, Map.delete(arguments, :input)) do
{:ok, input, read_action_input}
end
case args_result do
{:ok, input, read_action_input} ->
metadata = %{
domain: domain,
resource: resource,
resource_short_name: Ash.Resource.Info.short_name(resource),
actor: Map.get(context, :actor),
tenant: Map.get(context, :tenant),
action: action,
mutation: mutation_name,
source: :graphql,
authorize?: AshGraphql.Domain.Info.authorize?(domain)
}
trace domain,
resource,
:gql_mutation,
mutation_name,
metadata do
filter = identity_filter(identity, resource, arguments, relay_ids?)
case filter do
{:ok, filter} ->
query =
resource
|> Ash.Query.do_filter(filter)
|> Ash.Query.set_tenant(Map.get(context, :tenant))
|> Ash.Query.set_context(get_context(context))
|> set_query_arguments(read_action, read_action_input)
|> Ash.Query.limit(1)
{result, modify_args} =
query
|> Ash.bulk_update(action, input,
return_errors?: true,
notify?: true,
strategy: [:atomic, :stream, :atomic_batches],
allow_stream_with: :full_read,
return_records?: true,
tenant: Map.get(context, :tenant),
context: get_context(context) || %{},
authorize?: AshGraphql.Domain.Info.authorize?(domain),
domain: domain,
actor: Map.get(context, :actor),
select:
get_select(resource, resolution, mutation_result_type(mutation_name), [
"result"
]),
load:
get_loads(
[
domain: domain,
tenant: Map.get(context, :tenant),
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tracer: AshGraphql.Domain.Info.tracer(domain),
actor: Map.get(context, :actor)
],
resource,
resolution,
resolution.path,
context,
["result"]
)
)
|> case do
%Ash.BulkResult{status: :success, records: [value]} ->
action = Ash.Resource.Info.action(resource, action)
{{:ok, add_metadata(%{result: value, errors: []}, value, action)},
[query, {:ok, value}]}
%Ash.BulkResult{status: :success, records: []} ->
{{:ok,
%{
result: nil,
errors:
to_errors(
[
Ash.Error.Query.NotFound.exception(
primary_key: Map.new(filter),
resource: resource
)
],
context,
domain
)
}},
[
query,
{:error,
Ash.Error.Query.NotFound.exception(
primary_key: Map.new(filter),
resource: resource
)}
]}
%Ash.BulkResult{status: :error, errors: errors} ->
{{:ok, %{result: nil, errors: to_errors(errors, context, domain)}},
[query, {:error, errors}]}
end
resolution
|> Absinthe.Resolution.put_result(to_resolution(result, context, domain))
|> add_root_errors(domain, modify_args)
|> modify_resolution(modify, modify_args)
{:error, error} ->
Absinthe.Resolution.put_result(
resolution,
to_resolution({:error, error}, context, domain)
)
end
end
{:error, error} ->
{:error, error}
end
rescue
e ->
if AshGraphql.Domain.Info.show_raised_errors?(domain) do
error = Ash.Error.to_ash_error([e], __STACKTRACE__)
if AshGraphql.Domain.Info.root_level_errors?(domain) do
Absinthe.Resolution.put_result(
resolution,
to_resolution({:error, error}, context, domain)
)
else
Absinthe.Resolution.put_result(
resolution,
to_resolution(
{:ok, %{result: nil, errors: to_errors(error, context, domain)}},
context,
domain
)
)
end
else
something_went_wrong(resolution, e, domain, __STACKTRACE__)
end
end
def mutate(
%{arguments: arguments, context: context} = resolution,
{domain, resource,
%{
name: mutation_name,
type: :destroy,
action: action,
identity: identity,
read_action: read_action,
modify_resolution: modify
}, relay_ids?}
) do
read_action = read_action || Ash.Resource.Info.primary_action!(resource, :read).name
input = arguments[:input] || %{}
args_result =
with {:ok, input} <- handle_arguments(resource, action, input),
{:ok, read_action_input} <-
handle_arguments(resource, read_action, Map.delete(arguments, :input)) do
{:ok, input, read_action_input}
end
case args_result do
{:ok, input, read_action_input} ->
metadata = %{
domain: domain,
resource: resource,
resource_short_name: Ash.Resource.Info.short_name(resource),
actor: Map.get(context, :actor),
tenant: Map.get(context, :tenant),
action: action,
source: :graphql,
mutation: mutation_name,
authorize?: AshGraphql.Domain.Info.authorize?(domain)
}
trace domain,
resource,
:gql_mutation,
mutation_name,
metadata do
filter = identity_filter(identity, resource, arguments, relay_ids?)
case filter do
{:ok, filter} ->
query =
resource
|> Ash.Query.do_filter(filter)
|> Ash.Query.set_tenant(Map.get(context, :tenant))
|> Ash.Query.set_context(get_context(context))
|> set_query_arguments(read_action, read_action_input)
|> Ash.Query.limit(1)
{result, modify_args} =
query
|> Ash.bulk_destroy(action, input,
return_errors?: true,
notify?: true,
strategy: [:atomic, :stream, :atomic_batches],
allow_stream_with: :full_read,
return_records?: true,
tenant: Map.get(context, :tenant),
context: get_context(context) || %{},
authorize?: AshGraphql.Domain.Info.authorize?(domain),
actor: Map.get(context, :actor),
domain: domain,
select:
get_select(resource, resolution, mutation_result_type(mutation_name), [
"result"
]),
load:
get_loads(
[
domain: domain,
tenant: Map.get(context, :tenant),
authorize?: AshGraphql.Domain.Info.authorize?(domain),
tracer: AshGraphql.Domain.Info.tracer(domain),
actor: Map.get(context, :actor)
],
resource,
resolution,
resolution.path,
context,
["result"]
)
)
|> case do
%Ash.BulkResult{status: :success, records: [value]} ->
action = Ash.Resource.Info.action(resource, action)
{{:ok, add_metadata(%{result: value, errors: []}, value, action)},
[query, {:ok, value}]}
%Ash.BulkResult{status: :success, records: []} ->
{{:ok,
%{
result: nil,
errors:
to_errors(
[
Ash.Error.Query.NotFound.exception(
primary_key: Map.new(filter),
resource: resource
)
],
context,
domain
)
}},
[
query,
{:error,
Ash.Error.Query.NotFound.exception(
primary_key: Map.new(filter),
resource: resource
)}
]}
%Ash.BulkResult{status: :error, errors: errors} ->
{{:ok, %{result: nil, errors: to_errors(errors, context, domain)}},
[query, {:error, errors}]}
end
resolution
|> Absinthe.Resolution.put_result(to_resolution(result, context, domain))
|> add_root_errors(domain, modify_args)
|> modify_resolution(modify, modify_args)
{:error, error} ->
Absinthe.Resolution.put_result(
resolution,
to_resolution({:error, error}, context, domain)
)
end
end
{:error, error} ->
{:error, error}
end
rescue
e ->
if AshGraphql.Domain.Info.show_raised_errors?(domain) do
error = Ash.Error.to_ash_error([e], __STACKTRACE__)
if AshGraphql.Domain.Info.root_level_errors?(domain) do
Absinthe.Resolution.put_result(
resolution,
to_resolution({:error, error}, context, domain)
)
else
Absinthe.Resolution.put_result(
resolution,
to_resolution(
{:ok, %{result: nil, errors: to_errors(error, context, domain)}},
context,
domain
)
)
end
else
something_went_wrong(resolution, e, domain, __STACKTRACE__)
end
end
defp log_exception(e, stacktrace) do
uuid = Ash.UUID.generate()
Logger.error("""
#{uuid}: Exception raised while resolving query.
#{String.slice(Exception.format(:error, e), 0, 2000)}
#{Exception.format_stacktrace(stacktrace)}
""")
uuid
end
defp something_went_wrong(resolution, e, domain, stacktrace) do
tracer = AshGraphql.Domain.Info.tracer(domain)
Ash.Tracer.set_error(tracer, e)
uuid = log_exception(e, stacktrace)
Absinthe.Resolution.put_result(
resolution,
{:error,
[
%{
message: "Something went wrong. Unique error id: `#{uuid}`",
code: "something_went_wrong",
vars: %{},
fields: [],
short_message: "Something went wrong."
}
]}
)
end
defp modify_resolution(resolution, nil, _), do: resolution
defp modify_resolution(resolution, {m, f, a}, args) do
apply(m, f, [resolution | args] ++ a)
end
def identity_filter(false, _resource, _arguments, _relay_ids?) do
{:ok, nil}
end
def identity_filter(nil, resource, arguments, relay_ids?) do
if relay_ids? or AshGraphql.Resource.Info.encode_primary_key?(resource) do
case AshGraphql.Resource.decode_id(
resource,
Map.get(arguments, :id) || "",
relay_ids?
) do
{:ok, value} ->
{:ok, value}
{:error, error} ->
{:error, error}
end
else
resource
|> Ash.Resource.Info.primary_key()
|> Enum.reduce_while({:ok, nil}, fn key, {:ok, expr} ->
value = Map.get(arguments, key)
if value do
if expr do
{:cont, {:ok, Ash.Expr.expr(^expr and ^ref(key) == ^value)}}
else
{:cont, {:ok, Ash.Expr.expr(^ref(key) == ^value)}}
end
else
{:halt, {:error, "Required key not present"}}
end
end)
end
end
def identity_filter(identity, resource, arguments, _relay_ids?) do
{:ok,
resource
|> Ash.Resource.Info.identities()
|> Enum.find(&(&1.name == identity))
|> Map.get(:keys)
|> Enum.map(fn key ->
{key, Map.get(arguments, key)}
end)}
end
defp massage_filter(_resource, nil), do: nil
defp massage_filter(resource, filter) when is_map(filter) do
Map.new(filter, fn {key, value} ->
cond do
rel = Ash.Resource.Info.relationship(resource, key) ->
{key, massage_filter(rel.destination, value)}
Ash.Resource.Info.calculation(resource, key) ->
calc_input(key, value)
true ->
{key, value}
end
end)
end
defp massage_filter(_resource, other), do: other
defp calc_input(key, value) do
case Map.fetch(value, :input) do
{:ok, input} ->
{key, {input, Map.delete(value, :input)}}
:error ->
{key, value}
end
end
@doc false
def load_fields(
query_or_changeset,
load_opts,
resource,
resolution,
path,
context,
nested \\ []
) do
load = get_loads(load_opts, resource, resolution, path, context, nested)
case query_or_changeset do
%Ash.Query{} = query ->
Ash.Query.load(query, load)
%Ash.Changeset{} = changeset ->
Ash.Changeset.load(changeset, load)
end
end
@doc false
def get_loads(
load_opts,
resource,
resolution,
path,
context,
nested \\ []
) do
{fields, path} = nested_fields_and_path(resolution, path, nested)
resource_loads(fields, resource, resolution, load_opts, path, context)
end
defp nested_fields_and_path(resolution, path, []) do
base = Enum.at(path, 0) || resolution
selections =
case base do
%Absinthe.Resolution{} ->
Absinthe.Resolution.project(resolution)
%Absinthe.Blueprint.Document.Field{selections: selections} ->
{fields, _} =
selections
|> Absinthe.Resolution.Projector.project(
Absinthe.Schema.lookup_type(resolution.schema, base.schema_node.type),
path,
%{},
resolution
)
fields
end
{selections, path}
end
defp nested_fields_and_path(resolution, path, [nested | rest]) do
base = Enum.at(path, 0) || resolution
selections =
case base do
%Absinthe.Resolution{} ->
Absinthe.Resolution.project(resolution)
%Absinthe.Blueprint.Document.Field{selections: selections} ->
{fields, _} =
selections
|> Absinthe.Resolution.Projector.project(
Absinthe.Schema.lookup_type(resolution.schema, base.schema_node.type),
path,
%{},
resolution
)
fields
end
selection = Enum.find(selections, &(&1.name == nested))
if selection do
nested_fields_and_path(resolution, [selection | path], rest)
else
{[], path}
end
end
defp resource_loads(fields, resource, resolution, load_opts, path, context) do
Enum.flat_map(fields, fn selection ->
cond do
aggregate = Ash.Resource.Info.aggregate(resource, selection.schema_node.identifier) ->
[aggregate.name]
calculation = Ash.Resource.Info.calculation(resource, selection.schema_node.identifier) ->
arguments =
selection.arguments
|> Map.new(fn argument ->
{argument.schema_node.identifier, argument.input_value.data}
end)
|> then(fn args ->
if selection.alias do
Map.put(args, :as, {:__ash_graphql_calculation__, selection.alias})
else
args
end
end)
if Ash.Type.can_load?(calculation.type, calculation.constraints) do
loads =
type_loads(
selection.selections,
context,
calculation.type,
calculation.constraints,
load_opts,
resource,
calculation.name,
resolution,
[selection | path],
selection,
AshGraphql.Resource.Info.type(resource)
)
case loads do
[] ->
[{calculation.name, arguments}]
loads ->
[{calculation.name, {arguments, loads}}]
end
else
[{calculation.name, arguments}]
end
attribute = Ash.Resource.Info.attribute(resource, selection.schema_node.identifier) ->
if Ash.Type.can_load?(attribute.type, attribute.constraints) do
loads =
type_loads(
selection.selections,
context,
attribute.type,
attribute.constraints,
load_opts,
resource,
attribute.name,
resolution,
[selection | path],
selection,
AshGraphql.Resource.Info.type(resource)
)
case loads do
[] ->
if selection.alias do
{:ok, calc} =
Ash.Query.Calculation.new(
{:__ash_graphql_attribute__, selection.alias},
Ash.Resource.Calculation.LoadAttribute,
Keyword.put(load_opts, :attribute, attribute.name),
attribute.type,
attribute.constraints
)
[
calc
]
else
[attribute.name]
end
loads ->
if selection.alias do
{:ok, calc} =
Ash.Query.Calculation.new(
{:__ash_graphql_attribute__, selection.alias},
Ash.Resource.Calculation.LoadAttribute,
Keyword.merge(load_opts, load: loads, attribute: attribute.name),
attribute.type,
attribute.constraints
)
[
calc
]
else
[{attribute.name, loads}]
end
end
else
[attribute.name]
end
relationship = Ash.Resource.Info.relationship(resource, selection.schema_node.identifier) ->
read_action =
case relationship.read_action do
nil ->
Ash.Resource.Info.primary_action!(relationship.destination, :read)
read_action ->
Ash.Resource.Info.action(relationship.destination, read_action)
end
args =
Map.new(selection.arguments, fn argument ->
{argument.schema_node.identifier, argument.input_value.data}
end)
related_query =
relationship.destination
|> Ash.Query.new()
|> Ash.Query.set_tenant(Map.get(context, :tenant))
|> Ash.Query.set_context(get_context(context))
related_query =
args
|> apply_load_arguments(related_query)
|> set_query_arguments(read_action, args)
|> select_fields(
relationship.destination,
resolution,
nil,
Enum.map(Enum.reverse([selection | path]), & &1.name)
)
|> load_fields(
load_opts,
relationship.destination,
resolution,
[
selection | path
],
context
)
if selection.alias do
{type, constraints} =
case relationship.cardinality do
:many ->
{{:array, :struct}, items: [instance_of: relationship.destination]}
:one ->
{:struct, instance_of: relationship.destination}
end
{:ok, calc} =
Ash.Query.Calculation.new(
{:__ash_graphql_relationship__, selection.alias},
Ash.Resource.Calculation.LoadRelationship,
Keyword.merge(load_opts, relationship: relationship.name, query: related_query),
type,
constraints
)
[
calc
]
else
[{relationship.name, related_query}]
end
true ->
[]
end
end)
end
defp type_loads(
selections,
context,
type,
constraints,
load_opts,
resource,
field_name,
resolution,
path,
selection,
parent_type_name,
original_type \\ nil,
already_expanded? \\ false
)
defp type_loads(
selections,
context,
{:array, type},
constraints,
load_opts,
resource,
field_name,
resolution,
path,
selection,
parent_type_name,
original_type,
already_expanded?
) do
type_loads(
selections,
context,
type,
constraints[:items] || [],
load_opts,
resource,
field_name,
resolution,
path,
selection,
parent_type_name,
original_type,
already_expanded?
)
end
defp type_loads(
selections,
context,
type,
constraints,
load_opts,
resource,
field_name,
resolution,
path,
selection,
parent_type_name,
original_type,
already_expanded?
) do
cond do
Ash.Type.NewType.new_type?(type) ->
subtype_constraints = Ash.Type.NewType.constraints(type, constraints)
subtype_of = Ash.Type.NewType.subtype_of(type)
type_loads(
selections,
context,
subtype_of,
subtype_constraints,
load_opts,
resource,
field_name,
resolution,
path,
selection,
parent_type_name,
{type, constraints},
already_expanded?
)
AshGraphql.Resource.embedded?(type) || Ash.Resource.Info.resource?(type) ||
(type in [Ash.Type.Struct, :struct] && constraints[:instance_of] &&
(AshGraphql.Resource.embedded?(constraints[:instance_of]) ||
Ash.Resource.Info.resource?(constraints[:instance_of]))) ->
type =
if type in [:struct, Ash.Type.Struct] do
constraints[:instance_of]
else
type
end
fields =
if already_expanded? do
selections
else
value_type =
Absinthe.Schema.lookup_type(resolution.schema, selection.schema_node.type)
{fields, _} =
Absinthe.Resolution.Projector.project(
selections,
value_type,
path,
%{},
resolution
)
fields
end
resource_loads(fields, type, resolution, load_opts, path, context)
type == Ash.Type.Union ->
{global_selections, fragments} =
Enum.split_with(selections, fn
%Absinthe.Blueprint.Document.Field{} ->
true
_ ->
false
end)
loads =
case global_selections do
[] ->
[]
global_selections ->
first_type_config =
constraints[:types]
|> Enum.at(0)
|> elem(1)
first_type = first_type_config[:type]
first_constraints = first_type_config[:constraints]
type_loads(
global_selections,
context,
first_type,
first_constraints,
load_opts,
resource,
field_name,
resolution,
path,
selection,
parent_type_name,
original_type
)
end
{graphql_unnested_unions, configured_type_name} =
case original_type do
{type, constraints} ->
configured_type_name =
if function_exported?(type, :graphql_type, 1) do
type.graphql_type(constraints)
end
unnested_unions =
if function_exported?(type, :graphql_unnested_unions, 1) do
type.graphql_unnested_unions(constraints)
else
[]
end
{unnested_unions, configured_type_name}
_ ->
{[], nil}
end
constraints[:types]
|> Enum.filter(fn {_, config} ->
Ash.Type.can_load?(config[:type], config[:constraints])
end)
|> Enum.reduce(loads, fn {type_name, config}, acc ->
{gql_type_name, nested?} =
if type_name in graphql_unnested_unions do
{AshGraphql.Resource.field_type(
config[:type],
%Ash.Resource.Attribute{
name: configured_type_name,
type: config[:type],
constraints: config[:constraints]
},
resource
), false}
else
{AshGraphql.Resource.nested_union_type_name(
%{name: configured_type_name || "#{parent_type_name}_#{field_name}"},
type_name,
true
), true}
end
gql_type = Absinthe.Schema.lookup_type(resolution.schema, gql_type_name)
if !gql_type do
raise Ash.Error.Framework.AssumptionFailed,
message: "Could not find a corresponding graphql type for #{inspect(gql_type_name)}"
end
if nested? do
{fields, _} =
Absinthe.Resolution.Projector.project(
fragments,
gql_type,
path,
%{},
resolution
)
if selection = Enum.find(fields, &(&1.schema_node.identifier == :value)) do
Keyword.put(
acc,
type_name,
type_loads(
selection.selections,
context,
config[:type],
config[:constraints],
load_opts,
resource,
gql_type_name,
resolution,
[selection | path],
selection,
gql_type_name,
original_type
)
)
else
acc
end
else
{fields, _} =
Absinthe.Resolution.Projector.project(
fragments,
gql_type,
path,
%{},
resolution
)
Keyword.put(
acc,
type_name,
type_loads(
fields,
context,
config[:type],
config[:constraints],
load_opts,
resource,
gql_type_name,
resolution,
path,
selection,
gql_type_name,
original_type,
true
)
)
end
end)
true ->
[]
end
end
# sobelow_skip ["DOS.StringToAtom"]
defp mutation_result_type(mutation_name) do
String.to_atom("#{mutation_name}_result")
end
# sobelow_skip ["DOS.StringToAtom"]
defp page_type(resource, strategy, relay?) do
type = AshGraphql.Resource.Info.type(resource)
cond do
relay? ->
String.to_atom("#{type}_connection")
strategy == :keyset ->
String.to_atom("keyset_page_of_#{type}")
strategy == :offset ->
String.to_atom("page_of_#{type}")
end
end
@doc false
def select_fields(query_or_changeset, resource, resolution, type_override, nested \\ []) do
subfields = get_select(resource, resolution, type_override, nested)
case query_or_changeset do
%Ash.Query{} = query ->
query |> Ash.Query.select(subfields)
%Ash.Changeset{} = changeset ->
changeset |> Ash.Changeset.select(subfields)
end
end
defp get_select(resource, resolution, type_override, nested) do
type = type_override || AshGraphql.Resource.Info.type(resource)
resolution
|> fields(nested, type)
|> names_only()
|> Enum.map(&field_or_relationship(resource, &1))
|> Enum.filter(& &1)
|> Enum.map(& &1.name)
end
defp field_or_relationship(resource, identifier) do
case Ash.Resource.Info.attribute(resource, identifier) do
nil ->
case Ash.Resource.Info.relationship(resource, identifier) do
nil ->
nil
rel ->
Ash.Resource.Info.attribute(resource, rel.source_attribute)
end
attr ->
attr
end
end
defp fields(%Absinthe.Resolution{} = resolution, [], type) do
resolution
|> Absinthe.Resolution.project(type)
end
defp fields(%Absinthe.Resolution{} = resolution, names, _type) do
# Here we don't pass the type to project because the Enum.reduce below already
# takes care of projecting the nested fields using the correct type
project =
resolution
|> Absinthe.Resolution.project()
cache = resolution.fields_cache
Enum.reduce(names, {project, cache}, fn name, {fields, cache} ->
case fields |> Enum.find(&(&1.name == name)) do
nil ->
{fields, cache}
selection ->
type = Absinthe.Schema.lookup_type(resolution.schema, selection.schema_node.type)
selection
|> Map.get(:selections)
|> Absinthe.Resolution.Projector.project(
type,
[selection | resolution.path],
cache,
resolution
)
end
end)
|> elem(0)
end
defp names_only(fields) do
Enum.map(fields, & &1.schema_node.identifier)
end
@doc false
def set_query_arguments(query, action, arg_values) do
action =
if is_atom(action) do
Ash.Resource.Info.action(query.resource, action)
else
action
end
action.arguments
|> Enum.filter(& &1.public?)
|> Enum.reduce(query, fn argument, query ->
case Map.fetch(arg_values, argument.name) do
{:ok, value} ->
Ash.Query.set_argument(query, argument.name, value)
_ ->
query
end
end)
end
defp add_root_errors(resolution, domain, {:error, error_or_errors}) do
do_root_errors(domain, resolution, error_or_errors)
end
defp add_root_errors(resolution, domain, [_, {:error, error_or_errors}]) do
do_root_errors(domain, resolution, error_or_errors)
end
defp add_root_errors(resolution, domain, [_, {:ok, %{errors: errors}}])
when errors not in [nil, []] do
do_root_errors(domain, resolution, errors, false)
end
defp add_root_errors(resolution, domain, {:ok, %{errors: errors}})
when errors not in [nil, []] do
do_root_errors(domain, resolution, errors, false)
end
defp add_root_errors(resolution, _domain, _other_thing) do
resolution
end
defp do_root_errors(domain, resolution, error_or_errors, to_errors? \\ true) do
if AshGraphql.Domain.Info.root_level_errors?(domain) do
Map.update!(resolution, :errors, fn current_errors ->
if to_errors? do
Enum.concat(
current_errors || [],
List.wrap(to_errors(error_or_errors, resolution.context, domain))
)
else
Enum.concat(current_errors || [], List.wrap(error_or_errors))
end
end)
else
resolution
end
end
defp add_read_metadata({:error, error}, _, _) do
{:error, error}
end
defp add_read_metadata({:ok, result}, query, action) do
{:ok, add_read_metadata(result, query, action)}
end
defp add_read_metadata(nil, _, _), do: nil
defp add_read_metadata(result, query, action) when is_list(result) do
show_metadata = query.show_metadata || Enum.map(Map.get(action, :metadata, []), & &1.name)
Enum.map(result, fn record ->
do_add_read_metadata(record, show_metadata)
end)
end
defp add_read_metadata(result, query, action) do
show_metadata = query.show_metadata || Enum.map(Map.get(action, :metadata, []), & &1.name)
do_add_read_metadata(result, show_metadata)
end
defp do_add_read_metadata(record, show_metadata) do
Enum.reduce(show_metadata, record, fn key, record ->
Map.put(record, key, Map.get(record.__metadata__ || %{}, key))
end)
end
defp add_metadata(result, action_result, action) do
metadata = Map.get(action, :metadata, [])
if Enum.empty?(metadata) do
result
else
metadata =
Map.new(action.metadata, fn metadata ->
{metadata.name, Map.get(action_result.__metadata__ || %{}, metadata.name)}
end)
Map.put(result, :metadata, metadata)
end
end
@doc false
def unwrap_errors([]), do: []
def unwrap_errors(errors) do
errors
|> List.wrap()
|> Enum.flat_map(fn
%class{errors: errors} when class in [Ash.Error.Invalid, Ash.Error.Forbidden] ->
unwrap_errors(List.wrap(errors))
errors ->
List.wrap(errors)
end)
end
defp to_errors(errors, context, domain) do
AshGraphql.Errors.to_errors(errors, context, domain)
end
def resolve_calculation(%Absinthe.Resolution{state: :resolved} = resolution, _),
do: resolution
def resolve_calculation(
%Absinthe.Resolution{
source: parent,
context: context
} = resolution,
{domain, resource, calculation}
) do
domain = domain || context[:domain]
result =
if resolution.definition.alias do
Map.get(parent.calculations, {:__ash_graphql_calculation__, resolution.definition.alias})
else
Map.get(parent, calculation.name)
end
case result do
%struct{} when struct == Ash.ForbiddenField ->
Absinthe.Resolution.put_result(
resolution,
to_resolution(
{:error,
Ash.Error.Forbidden.ForbiddenField.exception(
resource: resource,
field: resolution.definition.name
)},
context,
domain
)
)
result ->
{type, constraints} =
unwrap_type_and_constraints(calculation.type, calculation.constraints)
result =
if Ash.Type.NewType.new_type?(type) &&
Ash.Type.NewType.subtype_of(type) == Ash.Type.Union &&
function_exported?(type, :graphql_unnested_unions, 1) do
unnested_types = type.graphql_unnested_unions(calculation.constraints)
calculation = %{calculation | type: type, constraints: constraints}
resolve_union_result(
result,
{calculation.name, calculation.type, calculation, resource, unnested_types, domain}
)
else
result
end
Absinthe.Resolution.put_result(resolution, to_resolution({:ok, result}, context, domain))
end
end
defp unwrap_type_and_constraints({:array, type}, constraints),
do: unwrap_type_and_constraints(type, constraints[:items] || [])
defp unwrap_type_and_constraints(other, constraints), do: {other, constraints}
def resolve_assoc(%Absinthe.Resolution{state: :resolved} = resolution, _),
do: resolution
def resolve_assoc(
%{source: parent} = resolution,
{_domain, relationship}
) do
value =
if resolution.definition.alias do
Map.get(parent.calculations, {:__ash_graphql_relationship__, resolution.definition.alias})
else
Map.get(parent, relationship.name)
end
Absinthe.Resolution.put_result(resolution, {:ok, value})
end
def resolve_id(%Absinthe.Resolution{state: :resolved} = resolution, _),
do: resolution
def resolve_id(
%{source: parent} = resolution,
{_resource, _field, relay_ids?}
) do
Absinthe.Resolution.put_result(
resolution,
{:ok, AshGraphql.Resource.encode_id(parent, relay_ids?)}
)
end
def resolve_union(%Absinthe.Resolution{state: :resolved} = resolution, _),
do: resolution
def resolve_union(
%{source: parent, context: context} = resolution,
{name, _field_type, _field, resource, _unnested_types, domain} = data
) do
domain = domain || context[:domain]
value =
if resolution.definition.alias do
Map.get(parent.calculations, {:__ash_graphql_attribute__, resolution.definition.alias})
else
Map.get(parent, name)
end
case value do
%struct{} when struct == Ash.ForbiddenField ->
Absinthe.Resolution.put_result(
resolution,
to_resolution(
{:error,
Ash.Error.Forbidden.ForbiddenField.exception(
resource: resource,
field: resolution.definition.name
)},
context,
domain
)
)
value ->
result = resolve_union_result(value, data)
Absinthe.Resolution.put_result(resolution, {:ok, result})
end
end
def resolve_attribute(
%{source: %resource{} = parent, context: context} = resolution,
{name, type, constraints, domain}
) do
domain = domain || context[:domain]
value =
if resolution.definition.alias && Ash.Type.can_load?(type, constraints) do
Map.get(parent.calculations, {:__ash_graphql_attribute__, resolution.definition.alias})
else
Map.get(parent, name)
end
case value do
%struct{} when struct == Ash.ForbiddenField ->
Absinthe.Resolution.put_result(
resolution,
to_resolution(
{:error,
Ash.Error.Forbidden.ForbiddenField.exception(
resource: resource,
field: resolution.definition.name
)},
context,
domain
)
)
value ->
Absinthe.Resolution.put_result(resolution, {:ok, value})
end
end
def resolve_attribute(
%{source: nil} = resolution,
_
) do
Absinthe.Resolution.put_result(resolution, {:ok, nil})
end
def resolve_attribute(
%{source: parent} = resolution,
{name, type, constraints, _domain}
)
when is_map(parent) do
value =
if resolution.definition.alias && Ash.Type.can_load?(type, constraints) do
Map.get(parent.calculations, {:__ash_graphql_attribute__, resolution.definition.alias})
else
Map.get(parent, name)
end
Absinthe.Resolution.put_result(resolution, {:ok, value})
end
def resolve_attribute(
%{source: source},
_
) do
raise "unknown source #{inspect(source)}"
end
defp resolve_union_result(value, data) when is_list(value) do
Enum.map(value, &resolve_union_result(&1, data))
end
defp resolve_union_result(
value,
{_name, field_type, field, resource, unnested_types, _domain}
) do
case value do
%Ash.Union{type: type, value: value} = union ->
constraints = Ash.Type.NewType.constraints(field_type, field.constraints)
if type in unnested_types do
if not is_nil(value) do
type =
AshGraphql.Resource.field_type(
constraints[:types][type][:type],
%{field | constraints: constraints[:types][type][:constraints]},
resource
)
Map.put(value, :__union_type__, type)
end
else
union
end
other ->
other
end
end
def resolve_keyset(%Absinthe.Resolution{state: :resolved} = resolution, _),
do: resolution
def resolve_keyset(
%{source: parent} = resolution,
_field
) do
Absinthe.Resolution.put_result(resolution, {:ok, Map.get(parent.__metadata__, :keyset)})
end
def resolve_composite_id(%Absinthe.Resolution{state: :resolved} = resolution, _),
do: resolution
def resolve_composite_id(
%{source: parent} = resolution,
{_resource, _fields, relay_ids?}
) do
Absinthe.Resolution.put_result(
resolution,
{:ok, AshGraphql.Resource.encode_id(parent, relay_ids?)}
)
end
def query_complexity(
%{limit: limit},
child_complexity,
_
) do
if child_complexity == 0 do
1
else
limit * child_complexity
end
end
def query_complexity(
_,
child_complexity,
_
) do
child_complexity + 1
end
def resolve_node(%{arguments: %{id: id}} = resolution, type_to_domain_and_resource_map) do
case AshGraphql.Resource.decode_relay_id(id) do
{:ok, %{type: type, id: primary_key}} ->
{domain, resource} = Map.fetch!(type_to_domain_and_resource_map, type)
# We can be sure this returns something since we check this at compile time
query = AshGraphql.Resource.primary_key_get_query(resource)
# We pass relay_ids? as false since we pass the already decoded primary key
put_in(resolution.arguments.id, primary_key)
|> resolve({domain, resource, query, false})
{:error, _reason} = error ->
Absinthe.Resolution.put_result(resolution, error)
end
end
def resolve_node_type(%resource{}, _) do
AshGraphql.Resource.Info.type(resource)
end
defp apply_load_arguments(arguments, query, will_paginate? \\ false) do
Enum.reduce(arguments, query, fn
{:limit, limit}, query when not will_paginate? ->
Ash.Query.limit(query, limit)
{:offset, offset}, query when not will_paginate? ->
Ash.Query.offset(query, offset)
{:filter, value}, query ->
Ash.Query.do_filter(query, massage_filter(query.resource, value))
{:sort, value}, query ->
keyword_sort =
Enum.map(value, fn %{order: order, field: field} = input ->
case Ash.Resource.Info.calculation(query.resource, field) do
%{arguments: [_ | _]} ->
input_name = String.to_existing_atom("#{field}_input")
{field, {input[input_name] || %{}, order}}
_ ->
{field, order}
end
end)
Ash.Query.sort(query, keyword_sort)
_, query ->
query
end)
end
defp to_resolution({:ok, value}, _context, _domain), do: {:ok, value}
defp to_resolution({:error, error}, context, domain) do
{:error,
error
|> unwrap_errors()
|> Enum.map(fn error ->
if AshGraphql.Error.impl_for(error) do
error = AshGraphql.Error.to_error(error)
case AshGraphql.Domain.Info.error_handler(domain) do
nil ->
error
{m, f, a} ->
apply(m, f, [error, context | a])
end
else
uuid = Ash.UUID.generate()
stacktrace =
case error do
%{stacktrace: %{stacktrace: v}} ->
v
_ ->
nil
end
Logger.warning(
"`#{uuid}`: AshGraphql.Error not implemented for error:\n\n#{Exception.format(:error, error, stacktrace)}"
)
if AshGraphql.Domain.Info.show_raised_errors?(domain) do
%{
message: """
Raised error: #{uuid}
#{Exception.format(:error, error, stacktrace)}"
"""
}
else
%{
message: "Something went wrong. Unique error id: `#{uuid}`"
}
end
end
end)}
end
end
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