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use php_ast::ast::{ExprKind, FunctionCallExpr};
use php_ast::Span;
use std::sync::Arc;
use mir_codebase::storage::{Assertion, AssertionKind, FnParam, TemplateParam};
use mir_issues::{IssueKind, Severity};
use mir_types::{Atomic, Union};
use crate::context::Context;
use crate::expr::ExpressionAnalyzer;
use crate::generic::{check_template_bounds, infer_template_bindings};
use crate::symbol::SymbolKind;
use crate::taint::{classify_sink, is_expr_tainted, SinkKind};
use super::args::{
check_args, expr_can_be_passed_by_reference, spread_element_type, CheckArgsParams,
};
use super::CallAnalyzer;
struct ResolvedFn {
fqn: std::sync::Arc<str>,
deprecated: Option<std::sync::Arc<str>>,
params: Vec<FnParam>,
template_params: Vec<TemplateParam>,
assertions: Vec<Assertion>,
return_ty_raw: Union,
throws: Arc<[Arc<str>]>,
}
fn resolve_fn(ea: &ExpressionAnalyzer<'_>, fqn: &str) -> Option<ResolvedFn> {
let db = ea.db;
let node = db.lookup_function_node(fqn).filter(|n| n.active(db))?;
// `inferred_return_type` is the priming-sweep-derived type, published
// on `FunctionNode` via `MirDb::commit_inferred_return_types` after
// each priming sweep returns. Every entry path (batch `analyze`,
// `re_analyze_file`, lazy-load reanalysis sweep, `analyze_source`)
// runs a priming-sweep + commit before the issue-emitting pass.
let inferred = node.inferred_return_type(db);
let return_ty_raw = node
.return_type(db)
.or(inferred)
.map(|t| (*t).clone())
.unwrap_or_else(Union::mixed);
Some(ResolvedFn {
fqn: node.fqn(db),
deprecated: node.deprecated(db),
params: node.params(db).to_vec(),
template_params: node.template_params(db).to_vec(),
assertions: node.assertions(db).to_vec(),
return_ty_raw,
throws: node.throws(db),
})
}
impl CallAnalyzer {
pub fn analyze_function_call<'a, 'arena, 'src>(
ea: &mut ExpressionAnalyzer<'a>,
call: &FunctionCallExpr<'arena, 'src>,
ctx: &mut Context,
span: Span,
) -> Union {
let fn_name = match &call.name.kind {
ExprKind::Identifier(name) => (*name).to_string(),
_ => {
let callee_ty = ea.analyze(call.name, ctx);
for arg in call.args.iter() {
ea.analyze(&arg.value, ctx);
}
for atomic in &callee_ty.types {
match atomic {
Atomic::TClosure { return_type, .. } => return *return_type.clone(),
Atomic::TCallable {
return_type: Some(rt),
..
} => return *rt.clone(),
_ => {}
}
}
return Union::mixed();
}
};
// Taint sink check (M19): before evaluating args so we can inspect raw exprs
if let Some(sink_kind) = classify_sink(&fn_name) {
for arg in call.args.iter() {
if is_expr_tainted(&arg.value, ctx) {
let issue_kind = match sink_kind {
SinkKind::Html => IssueKind::TaintedHtml,
SinkKind::Sql => IssueKind::TaintedSql,
SinkKind::Shell => IssueKind::TaintedShell,
};
ea.emit(issue_kind, Severity::Error, span);
break;
}
}
}
// PHP resolves `foo()` as `\App\Ns\foo` first, then `\foo` if not found.
// A leading `\` means explicit global namespace.
let fn_name = fn_name
.strip_prefix('\\')
.map(|s: &str| s.to_string())
.unwrap_or(fn_name);
let resolved_fn_name: String = {
let imports = ea.db.file_imports(&ea.file);
let qualified = if let Some(imported) = imports.get(fn_name.as_str()) {
imported.clone()
} else if fn_name.contains('\\') {
crate::db::resolve_name_via_db(ea.db, &ea.file, &fn_name)
} else if let Some(ns) = ea.db.file_namespace(&ea.file) {
format!("{}\\{}", ns, fn_name)
} else {
fn_name.clone()
};
let fn_exists = |name: &str| -> bool {
let db = ea.db;
db.lookup_function_node(name).is_some_and(|n| n.active(db))
};
if fn_exists(qualified.as_str()) {
qualified
} else if fn_exists(fn_name.as_str()) {
fn_name.clone()
} else {
qualified
}
};
// Resolve once; reused below for by-ref pre-marking and full analysis.
let resolved = resolve_fn(ea, resolved_fn_name.as_str());
// Pre-mark by-reference parameter variables as defined BEFORE evaluating args
if let Some(ref resolved) = resolved {
for (i, param) in resolved.params.iter().enumerate() {
if param.is_byref {
if param.is_variadic {
for arg in call.args.iter().skip(i) {
if let ExprKind::Variable(name) = &arg.value.kind {
let var_name = name.as_str().trim_start_matches('$');
if !ctx.var_is_defined(var_name) {
ctx.set_var(var_name, Union::mixed());
}
}
}
} else if let Some(arg) = call.args.get(i) {
if let ExprKind::Variable(name) = &arg.value.kind {
let var_name = name.as_str().trim_start_matches('$');
if !ctx.var_is_defined(var_name) {
ctx.set_var(var_name, Union::mixed());
}
}
}
}
}
}
let arg_types: Vec<Union> = call
.args
.iter()
.map(|arg| {
let ty = ea.analyze(&arg.value, ctx);
if arg.unpack {
spread_element_type(&ty)
} else {
ty
}
})
.collect();
let arg_spans: Vec<Span> = call.args.iter().map(|a| a.span).collect();
// When call_user_func / call_user_func_array is called with a bare string
// literal as the callable argument, treat that string as a direct FQN
// reference so the named function is not flagged as dead code.
// Note: 'helper' always resolves to \helper (global) — no namespace
// fallback applies to runtime callable strings.
if matches!(
resolved_fn_name.as_str(),
"call_user_func" | "call_user_func_array"
) {
if let Some(arg) = call.args.first() {
if let ExprKind::String(name) = &arg.value.kind {
let fqn = name.strip_prefix('\\').unwrap_or(name);
if let Some(node) = ea.db.lookup_function_node(fqn).filter(|n| n.active(ea.db))
{
if !ea.inference_only {
let (line, col_start, col_end) = ea.span_to_ref_loc(arg.span);
ea.db.record_reference_location(crate::db::RefLoc {
symbol_key: Arc::from(node.fqn(ea.db).as_ref()),
file: ea.file.clone(),
line,
col_start,
col_end,
});
}
}
}
}
}
// compact() reads variables by string name at runtime; mark each string-literal arg as read
if fn_name == "compact" {
for arg in call.args.iter() {
if let ExprKind::String(name) = &arg.value.kind {
ctx.read_vars.insert((*name).to_string());
}
}
}
if let Some(resolved) = resolved {
if !ea.inference_only {
let (line, col_start, col_end) = ea.span_to_ref_loc(call.name.span);
ea.db.record_reference_location(crate::db::RefLoc {
symbol_key: resolved.fqn.clone(),
file: ea.file.clone(),
line,
col_start,
col_end,
});
}
let deprecated = resolved.deprecated;
let params = resolved.params;
let template_params = resolved.template_params;
let return_ty_raw = resolved.return_ty_raw;
if let Some(msg) = deprecated {
ea.emit(
IssueKind::DeprecatedCall {
name: resolved_fn_name.clone(),
message: Some(msg).filter(|m| !m.is_empty()),
},
Severity::Info,
span,
);
}
check_args(
ea,
CheckArgsParams {
fn_name: &fn_name,
params: ¶ms,
arg_types: &arg_types,
arg_spans: &arg_spans,
arg_names: &call
.args
.iter()
.map(|a| a.name.as_ref().map(|n| n.to_string_repr().into_owned()))
.collect::<Vec<_>>(),
arg_can_be_byref: &call
.args
.iter()
.map(|a| expr_can_be_passed_by_reference(&a.value))
.collect::<Vec<_>>(),
call_span: span,
has_spread: call.args.iter().any(|a| a.unpack),
},
);
match resolved_fn_name.as_str() {
"array_map" => {
super::callable::check_array_map_callback(ea, &arg_types, &arg_spans)
}
"array_filter" => {
super::callable::check_array_filter_callback(ea, &arg_types, &arg_spans)
}
"array_reduce" => {
super::callable::check_array_reduce_callback(ea, &arg_types, &arg_spans)
}
"usort" | "uasort" | "uksort" | "array_walk" | "array_walk_recursive" => {
super::callable::check_sort_callback(
ea,
&resolved_fn_name,
&arg_types,
&arg_spans,
)
}
_ => {}
}
for (i, param) in params.iter().enumerate() {
if param.is_byref {
if param.is_variadic {
for arg in call.args.iter().skip(i) {
if let ExprKind::Variable(name) = &arg.value.kind {
let var_name = name.as_str().trim_start_matches('$');
ctx.set_var(var_name, Union::mixed());
}
}
} else if let Some(arg) = call.args.get(i) {
if let ExprKind::Variable(name) = &arg.value.kind {
let var_name = name.as_str().trim_start_matches('$');
ctx.set_var(var_name, Union::mixed());
}
}
}
}
let template_bindings = if !template_params.is_empty() {
let bindings = infer_template_bindings(&template_params, ¶ms, &arg_types);
for (name, inferred, bound) in check_template_bounds(&bindings, &template_params) {
ea.emit(
IssueKind::InvalidTemplateParam {
name: name.to_string(),
expected_bound: format!("{bound}"),
actual: format!("{inferred}"),
},
Severity::Error,
span,
);
}
Some(bindings)
} else {
None
};
for assertion in resolved
.assertions
.iter()
.filter(|a| a.kind == AssertionKind::Assert)
{
if let Some(index) = params.iter().position(|p| p.name == assertion.param) {
if let Some(arg) = call.args.get(index) {
if let ExprKind::Variable(name) = &arg.value.kind {
let asserted_ty = match &template_bindings {
Some(b) => assertion.ty.substitute_templates(b),
None => assertion.ty.clone(),
};
ctx.set_var(name.as_str().trim_start_matches('$'), asserted_ty);
}
}
}
}
let return_ty = match &template_bindings {
Some(bindings) => return_ty_raw.substitute_templates(bindings),
None => return_ty_raw,
};
// Check inter-procedural throws: if callee declares @throws, check if caller covers them
for callee_throw in resolved.throws.iter() {
if !ctx.fn_declared_throws.iter().any(|declared| {
declared.as_ref() == callee_throw.as_ref()
|| crate::db::extends_or_implements_via_db(
ea.db,
callee_throw.as_ref(),
declared.as_ref(),
)
}) {
ea.emit(
IssueKind::MissingThrowsDocblock {
class: callee_throw.to_string(),
},
Severity::Info,
span,
);
}
}
ea.record_symbol(
call.name.span,
SymbolKind::FunctionCall(resolved.fqn.clone()),
return_ty.clone(),
);
return return_ty;
}
// Soft-fallback: if the build-time stub index recognises this name as
// a PHP built-in, the codebase miss is a stub-loading race rather
// than user error — the auto-discovery scanner missed it, the
// session is in essentials-only mode without auto-discovery, or the
// analyzer is mid-ingest. Suppressing the diagnostic avoids a class
// of false positives that would otherwise plague consumers running
// the lazy-stub setup.
if crate::stubs::stub_path_for_function(&fn_name).is_some() {
return Union::mixed();
}
ea.emit(
IssueKind::UndefinedFunction { name: fn_name },
Severity::Error,
span,
);
Union::mixed()
}
}