tests: add a test for each BTF fix

Signed-off-by: Dave Tucker <dave@dtucker.co.uk>
pull/175/head
Dave Tucker 3 years ago
parent 4efc2061a8
commit 326825aab0

@ -417,15 +417,13 @@ impl Btf {
let mut types = mem::take(&mut self.types);
for i in 0..types.types.len() {
let kind = types.types.get(i).unwrap().kind()?.unwrap_or_default();
// datasec sizes aren't set by llvm
// we need to fix them here before loading the btf to the kernel
match kind {
// Fixup PTR for Rust
// LLVM emits names for Rust pointer types, which the kernel doesn't like
// While I figure out if this needs fixing in the Kernel or LLVM, we'll
// do a fixup here
BtfKind::Ptr => {
if let Some(BtfType::Ptr(mut ty)) = types.types.get_mut(i) {
if let Some(BtfType::Ptr(ty)) = types.types.get_mut(i) {
ty.name_off = 0;
}
}
@ -448,11 +446,12 @@ impl Btf {
offset: member.offset * 8,
})
}
let struct_type = BtfType::new_struct(ty.name_off, members, 0);
types.types[i] = struct_type;
types.types[i] = BtfType::new_struct(ty.name_off, members, 0);
}
}
// Fixup DATASEC
// DATASEC sizes aren't always set by LLVM
// we need to fix them here before loading the btf to the kernel
BtfKind::DataSec if features.btf_datasec => {
if let Some(BtfType::DataSec(ty, data)) = types.types.get(i) {
// Start DataSec Fixups
@ -524,16 +523,14 @@ impl Btf {
}
}
// Sanitize FUNC_PROTO
BtfKind::FuncProto if features.btf_func => {
BtfKind::FuncProto if !features.btf_func => {
if let Some(BtfType::FuncProto(ty, vars)) = types.types.get(i) {
debug!("{}: not supported. replacing with ENUM", kind);
let members: Vec<btf_enum> = vars
.iter()
.map(|p| -> btf_enum {
btf_enum {
.map(|p| btf_enum {
name_off: p.name_off,
val: p.type_ as i32,
}
})
.collect();
let enum_type = BtfType::new_enum(ty.name_off, members);
@ -890,7 +887,9 @@ pub(crate) struct SecInfo<'a> {
#[cfg(test)]
mod tests {
use crate::generated::{btf_param, btf_var_secinfo, BTF_INT_SIGNED, BTF_VAR_STATIC};
use crate::generated::{
btf_param, btf_var_secinfo, BTF_INT_SIGNED, BTF_VAR_GLOBAL_EXTERN, BTF_VAR_STATIC,
};
use super::*;
@ -1008,15 +1007,68 @@ mod tests {
}
#[test]
fn test_sanitize_btf() {
fn test_fixup_ptr() {
let mut btf = Btf::new();
let name_offset = btf.add_string("int".to_string());
let int_type = BtfType::new_int(name_offset, 4, BTF_INT_SIGNED, 0);
let int_type_id = btf.add_type(int_type);
let int_type_id = btf.add_type(BtfType::new_int(name_offset, 4, BTF_INT_SIGNED, 0));
let name_offset = btf.add_string("&mut int".to_string());
let ptr_type_id = btf.add_type(BtfType::new_ptr(name_offset, int_type_id));
let features = Features {
..Default::default()
};
btf.fixup_and_sanitize(&HashMap::new(), &HashMap::new(), &features)
.unwrap();
if let BtfType::Ptr(fixed) = btf.type_by_id(ptr_type_id).unwrap() {
assert!(
fixed.name_off == 0,
"expected offset 0, got {}",
fixed.name_off
)
} else {
panic!("not a ptr")
}
// Ensure we can convert to bytes and back again
let raw = btf.to_bytes();
Btf::parse(&raw, Endianness::default()).unwrap();
}
#[test]
fn test_sanitize_var() {
let mut btf = Btf::new();
let name_offset = btf.add_string("int".to_string());
let int_type_id = btf.add_type(BtfType::new_int(name_offset, 4, BTF_INT_SIGNED, 0));
let name_offset = btf.add_string("&mut int".to_string());
let var_type_id = btf.add_type(BtfType::new_var(name_offset, int_type_id, BTF_VAR_STATIC));
let features = Features {
btf_datasec: false,
..Default::default()
};
btf.fixup_and_sanitize(&HashMap::new(), &HashMap::new(), &features)
.unwrap();
if let BtfType::Int(fixed, _) = btf.type_by_id(var_type_id).unwrap() {
assert!(fixed.name_off == name_offset)
} else {
panic!("not an int")
}
// Ensure we can convert to bytes and back again
let raw = btf.to_bytes();
Btf::parse(&raw, Endianness::default()).unwrap();
}
#[test]
fn test_sanitize_datasec() {
let mut btf = Btf::new();
let name_offset = btf.add_string("int".to_string());
let int_type_id = btf.add_type(BtfType::new_int(name_offset, 4, BTF_INT_SIGNED, 0));
let name_offset = btf.add_string("foo".to_string());
let var_type = BtfType::new_var(name_offset, int_type_id, BTF_VAR_STATIC);
let var_type_id = btf.add_type(var_type);
let var_type_id = btf.add_type(BtfType::new_var(name_offset, int_type_id, BTF_VAR_STATIC));
let name_offset = btf.add_string(".data".to_string());
let variables = vec![btf_var_secinfo {
@ -1024,164 +1076,293 @@ mod tests {
offset: 0,
size: 4,
}];
let datasec_type = BtfType::new_datasec(name_offset, variables, 4);
btf.add_type(datasec_type);
let datasec_type_id = btf.add_type(BtfType::new_datasec(name_offset, variables, 0));
let name_offset = btf.add_string("float".to_string());
let float_type = BtfType::new_float(name_offset, 16);
btf.add_type(float_type);
let features = Features {
btf_datasec: false,
..Default::default()
};
btf.fixup_and_sanitize(&HashMap::new(), &HashMap::new(), &features)
.unwrap();
if let BtfType::Struct(fixed, members) = btf.type_by_id(datasec_type_id).unwrap() {
assert!(fixed.name_off == name_offset);
assert!(members.len() == 1);
assert!(members[0].type_ == var_type_id);
assert!(members[0].offset == 0)
} else {
panic!("not a struct")
}
// Ensure we can convert to bytes and back again
let raw = btf.to_bytes();
Btf::parse(&raw, Endianness::default()).unwrap();
}
#[test]
fn test_fixup_datasec() {
let mut btf = Btf::new();
let name_offset = btf.add_string("int".to_string());
let int_type_id = btf.add_type(BtfType::new_int(name_offset, 4, BTF_INT_SIGNED, 0));
let name_offset = btf.add_string("foo".to_string());
let var_type_id = btf.add_type(BtfType::new_var(
name_offset,
int_type_id,
BTF_VAR_GLOBAL_EXTERN,
));
let name_offset = btf.add_string(".data".to_string());
let variables = vec![btf_var_secinfo {
type_: var_type_id,
offset: 0,
size: 4,
}];
let datasec_type_id = btf.add_type(BtfType::new_datasec(name_offset, variables, 0));
let features = Features {
btf_datasec: true,
..Default::default()
};
btf.fixup_and_sanitize(
&HashMap::from([(".data".to_string(), 32u64)]),
&HashMap::from([("foo".to_string(), 64u64)]),
&features,
)
.unwrap();
if let BtfType::DataSec(fixed, sec_info) = btf.type_by_id(datasec_type_id).unwrap() {
assert!(fixed.name_off == name_offset);
assert!(unsafe { fixed.__bindgen_anon_1.size } == 32);
assert!(sec_info.len() == 1);
assert!(sec_info[0].type_ == var_type_id);
assert!(
sec_info[0].offset == 64,
"expected 64, got {}",
sec_info[0].offset
)
} else {
panic!("not a datasec")
}
// Ensure we can convert to bytes and back again
let raw = btf.to_bytes();
Btf::parse(&raw, Endianness::default()).unwrap();
}
#[test]
fn test_sanitize_func_and_proto() {
let mut btf = Btf::new();
let name_offset = btf.add_string("int".to_string());
let int_type_id = btf.add_type(BtfType::new_int(name_offset, 4, BTF_INT_SIGNED, 0));
let a_name = btf.add_string("a".to_string());
let b_name = btf.add_string("b".to_string());
let params = vec![
btf_param {
name_off: a_name,
name_off: btf.add_string("a".to_string()),
type_: int_type_id,
},
btf_param {
name_off: b_name,
name_off: btf.add_string("b".to_string()),
type_: int_type_id,
},
];
let func_proto = BtfType::new_func_proto(params, int_type_id);
let func_proto_type_id = btf.add_type(func_proto);
let func_proto_type_id = btf.add_type(BtfType::new_func_proto(params, int_type_id));
let inc = btf.add_string("inc".to_string());
let func_type_id = btf.add_type(BtfType::new_func(
inc,
func_proto_type_id,
btf_func_linkage::BTF_FUNC_STATIC,
));
let features = Features {
btf_func: false,
..Default::default()
};
btf.fixup_and_sanitize(&HashMap::new(), &HashMap::new(), &features)
.unwrap();
let add = btf.add_string("static".to_string());
let func = BtfType::new_func(add, func_proto_type_id, btf_func_linkage::BTF_FUNC_STATIC);
btf.add_type(func);
if let BtfType::Enum(fixed, vars) = btf.type_by_id(func_proto_type_id).unwrap() {
assert!(fixed.name_off == 0);
assert!(vars.len() == 2);
assert!(btf.string_at(vars[0].name_off).unwrap() == "a");
assert!(vars[0].val == int_type_id as i32);
assert!(btf.string_at(vars[1].name_off).unwrap() == "b");
assert!(vars[1].val == int_type_id as i32);
} else {
panic!("not an emum")
}
if let BtfType::Typedef(fixed) = btf.type_by_id(func_type_id).unwrap() {
assert!(fixed.name_off == inc);
assert!(unsafe { fixed.__bindgen_anon_1.type_ } == func_proto_type_id);
} else {
panic!("not a typedef")
}
// Ensure we can convert to bytes and back again
let raw = btf.to_bytes();
Btf::parse(&raw, Endianness::default()).unwrap();
}
#[test]
fn test_fixup_func_proto() {
let mut btf = Btf::new();
let name_offset = btf.add_string("int".to_string());
let int_type = BtfType::new_int(name_offset, 4, BTF_INT_SIGNED, 0);
let int_type_id = btf.add_type(int_type);
let c_name = btf.add_string("c".to_string());
let d_name = btf.add_string("d".to_string());
let params = vec![
btf_param {
name_off: c_name,
name_off: 0,
type_: int_type_id,
},
btf_param {
name_off: d_name,
name_off: 0,
type_: int_type_id,
},
];
let func_proto = BtfType::new_func_proto(params, int_type_id);
let func_proto_type_id = btf.add_type(func_proto);
let add = btf.add_string("global".to_string());
let func = BtfType::new_func(add, func_proto_type_id, btf_func_linkage::BTF_FUNC_GLOBAL);
btf.add_type(func);
let cases = HashMap::from([
(
"noop",
Features {
bpf_name: true,
btf: true,
btf_func: true,
btf_func_global: true,
btf_datasec: true,
btf_float: true,
btf_decl_tag: true,
btf_type_tag: true,
},
),
(
"no datasec",
Features {
bpf_name: true,
btf: true,
btf_func: true,
btf_func_global: true,
btf_datasec: false,
btf_float: true,
btf_decl_tag: true,
btf_type_tag: true,
},
),
(
"no float",
Features {
bpf_name: true,
btf: true,
let features = Features {
btf_func: true,
btf_func_global: true,
btf_datasec: true,
btf_float: false,
btf_decl_tag: true,
btf_type_tag: true,
},
),
(
"no func",
Features {
bpf_name: true,
btf: true,
btf_func: false,
btf_func_global: true,
btf_datasec: true,
btf_float: true,
btf_decl_tag: true,
btf_type_tag: true,
},
),
(
"no global func",
Features {
bpf_name: true,
btf: true,
btf_func: true,
btf_func_global: false,
btf_datasec: true,
btf_float: true,
btf_decl_tag: true,
btf_type_tag: true,
..Default::default()
};
btf.fixup_and_sanitize(&HashMap::new(), &HashMap::new(), &features)
.unwrap();
if let BtfType::FuncProto(_, vars) = btf.type_by_id(func_proto_type_id).unwrap() {
assert!(btf.string_at(vars[0].name_off).unwrap() == "param0");
assert!(btf.string_at(vars[1].name_off).unwrap() == "param1");
} else {
panic!("not a func_proto")
}
// Ensure we can convert to bytes and back again
let raw = btf.to_bytes();
Btf::parse(&raw, Endianness::default()).unwrap();
}
#[test]
fn test_sanitize_func_global() {
let mut btf = Btf::new();
let name_offset = btf.add_string("int".to_string());
let int_type_id = btf.add_type(BtfType::new_int(name_offset, 4, BTF_INT_SIGNED, 0));
let params = vec![
btf_param {
name_off: btf.add_string("a".to_string()),
type_: int_type_id,
},
),
(
"no decl tag",
Features {
bpf_name: true,
btf: true,
btf_func: true,
btf_func_global: true,
btf_datasec: true,
btf_float: true,
btf_decl_tag: false,
btf_type_tag: true,
btf_param {
name_off: btf.add_string("b".to_string()),
type_: int_type_id,
},
),
(
"no type tag",
Features {
bpf_name: true,
btf: true,
];
let func_proto_type_id = btf.add_type(BtfType::new_func_proto(params, int_type_id));
let inc = btf.add_string("inc".to_string());
let func_type_id = btf.add_type(BtfType::new_func(
inc,
func_proto_type_id,
btf_func_linkage::BTF_FUNC_GLOBAL,
));
let features = Features {
btf_func: true,
btf_func_global: true,
btf_datasec: true,
btf_float: true,
btf_decl_tag: true,
btf_type_tag: false,
},
),
(
"all off",
Features {
bpf_name: true,
btf: true,
btf_func: false,
btf_func_global: false,
btf_datasec: false,
..Default::default()
};
btf.fixup_and_sanitize(&HashMap::new(), &HashMap::new(), &features)
.unwrap();
if let BtfType::Func(fixed) = btf.type_by_id(func_type_id).unwrap() {
assert!(type_vlen(fixed) == btf_func_linkage::BTF_FUNC_STATIC as usize);
} else {
panic!("not a func")
}
// Ensure we can convert to bytes and back again
let raw = btf.to_bytes();
Btf::parse(&raw, Endianness::default()).unwrap();
}
#[test]
fn test_sanitize_float() {
let mut btf = Btf::new();
let name_offset = btf.add_string("float".to_string());
let float_type_id = btf.add_type(BtfType::new_float(name_offset, 16));
let features = Features {
btf_float: false,
..Default::default()
};
btf.fixup_and_sanitize(&HashMap::new(), &HashMap::new(), &features)
.unwrap();
if let BtfType::Struct(fixed, _) = btf.type_by_id(float_type_id).unwrap() {
assert!(fixed.name_off == 0);
assert!(unsafe { fixed.__bindgen_anon_1.size } == 16);
} else {
panic!("not a struct")
}
// Ensure we can convert to bytes and back again
let raw = btf.to_bytes();
Btf::parse(&raw, Endianness::default()).unwrap();
}
#[test]
fn test_sanitize_decl_tag() {
let mut btf = Btf::new();
let name_offset = btf.add_string("int".to_string());
let int_type_id = btf.add_type(BtfType::new_int(name_offset, 4, BTF_INT_SIGNED, 0));
let name_offset = btf.add_string("foo".to_string());
let var_type_id = btf.add_type(BtfType::new_var(name_offset, int_type_id, BTF_VAR_STATIC));
let name_offset = btf.add_string("decl_tag".to_string());
let decl_tag_type_id = btf.add_type(BtfType::new_decl_tag(name_offset, var_type_id, -1));
let features = Features {
btf_decl_tag: false,
..Default::default()
};
btf.fixup_and_sanitize(&HashMap::new(), &HashMap::new(), &features)
.unwrap();
if let BtfType::Int(fixed, _) = btf.type_by_id(decl_tag_type_id).unwrap() {
assert!(fixed.name_off == name_offset);
assert!(unsafe { fixed.__bindgen_anon_1.size } == 1);
} else {
panic!("not an int")
}
// Ensure we can convert to bytes and back again
let raw = btf.to_bytes();
Btf::parse(&raw, Endianness::default()).unwrap();
}
#[test]
fn test_sanitize_type_tag() {
let mut btf = Btf::new();
let int_type_id = btf.add_type(BtfType::new_int(0, 4, BTF_INT_SIGNED, 0));
let name_offset = btf.add_string("int".to_string());
let type_tag_type = btf.add_type(BtfType::new_type_tag(name_offset, int_type_id));
btf.add_type(BtfType::new_ptr(0, type_tag_type));
let features = Features {
btf_type_tag: false,
},
),
]);
..Default::default()
};
for (name, features) in cases {
println!("[CASE] Sanitize {}", name);
btf.fixup_and_sanitize(&HashMap::new(), &HashMap::new(), &features)
.unwrap();
let raw_new_btf = btf.to_bytes();
Btf::parse(&raw_new_btf, Endianness::default()).unwrap();
if let BtfType::Const(fixed) = btf.type_by_id(type_tag_type).unwrap() {
assert!(unsafe { fixed.__bindgen_anon_1.type_ } == int_type_id);
} else {
panic!("not a const")
}
// Ensure we can convert to bytes and back again
let raw = btf.to_bytes();
Btf::parse(&raw, Endianness::default()).unwrap();
}
}

@ -448,10 +448,10 @@ impl BtfType {
BtfType::TypeTag(btf_type)
}
pub(crate) fn new_ptr(type_: u32) -> BtfType {
pub(crate) fn new_ptr(name_off: u32, type_: u32) -> BtfType {
let info = (BTF_KIND_PTR) << 24;
let mut btf_type = unsafe { std::mem::zeroed::<btf_type>() };
btf_type.name_off = 0;
btf_type.name_off = name_off;
btf_type.info = info;
btf_type.__bindgen_anon_1.type_ = type_;
BtfType::Ptr(btf_type)

@ -710,7 +710,7 @@ pub(crate) fn is_btf_type_tag_supported() -> bool {
let type_tag = BtfType::new_type_tag(name_offset, int_type_id);
let type_tag_type = btf.add_type(type_tag);
btf.add_type(BtfType::new_ptr(type_tag_type));
btf.add_type(BtfType::new_ptr(0, type_tag_type));
let btf_bytes = btf.to_bytes();

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