Compare commits

...

16 Commits

Author SHA1 Message Date
Bananymous 490a28ee7a Kernel/AML: General cleanup and compliance improvements 2024-08-15 23:14:13 +03:00
Bananymous 75884ca6b8 Kernel/AML: Allow calling method through named objects 2024-08-15 23:13:32 +03:00
Bananymous d729d7f570 Kernel: Implement AML storing to Buffer 2024-08-15 23:12:52 +03:00
Bananymous 6408bb2efa Kernel: Add AML API for getting underlying value of nodes 2024-08-15 23:11:59 +03:00
Bananymous d8dabab4fb Kernel: Implement AML CopyObjectOp 2024-08-15 20:55:55 +03:00
Bananymous 4dc107f77a Kernel: Fix AML Register/Reference accesses 2024-08-15 20:55:18 +03:00
Bananymous eaf06d239c Kernel: Cleanup and fix AML Method calls 2024-08-15 20:54:55 +03:00
Bananymous d9b3a4bf77 Kernel: Add more conversions for AML Integer, Register, String 2024-08-15 20:51:04 +03:00
Bananymous cf970d5914 Kernel: Add better conversion for AML Alias, Name and Reference 2024-08-15 20:48:35 +03:00
Bananymous 1cfe3dd4da Kernel: Implement AML BreakOp and ContinueOp 2024-08-15 19:08:00 +03:00
Bananymous 51d1e47bfe Kernel: Fix AML CreateFieldOp to take bit index instead of byte index 2024-08-15 19:05:58 +03:00
Bananymous e0a447bfaf Kernel: Add _GL to ACPI root namespace 2024-08-15 02:28:22 +03:00
Bananymous 3f5ee6f414 Kernel: Rewrite the AML conversion API
This doesn't currently make the interpreter any better, but it will make
further implementation easier to be spec (or hardware...) compliant
2024-08-15 02:25:45 +03:00
Bananymous 44d5c8c4b4 Kernel: Implement AML To{Buffer,Integer,String}Op 2024-08-14 20:28:32 +03:00
Bananymous 17b7e9e772 Kernel: Allow all named objects to fail cleanly if name exists 2024-08-14 20:28:00 +03:00
Bananymous 8a2a444f33 BAN: Make formatting functions inline 2024-08-14 20:26:55 +03:00
40 changed files with 1168 additions and 681 deletions

View File

@ -11,21 +11,21 @@ namespace BAN::Formatter
struct ValueFormat; struct ValueFormat;
template<typename F> template<typename F>
static void print(F putc, const char* format); inline void print(F putc, const char* format);
template<typename F, typename Arg, typename... Args> template<typename F, typename Arg, typename... Args>
static void print(F putc, const char* format, Arg&& arg, Args&&... args); inline void print(F putc, const char* format, Arg&& arg, Args&&... args);
template<typename F, typename... Args> template<typename F, typename... Args>
static void println(F putc, const char* format, Args&&... args); inline void println(F putc, const char* format, Args&&... args);
template<typename F, typename T> template<typename F, typename T>
static void print_argument(F putc, T value, const ValueFormat& format); inline void print_argument(F putc, T value, const ValueFormat& format);
namespace detail namespace detail
{ {
template<typename F, typename T> template<typename F, typename T>
static size_t parse_format_and_print_argument(F putc, const char* format, T&& arg); inline size_t parse_format_and_print_argument(F putc, const char* format, T&& arg);
} }
/* /*
@ -44,7 +44,7 @@ namespace BAN::Formatter
}; };
template<typename F> template<typename F>
void print(F putc, const char* format) inline void print(F putc, const char* format)
{ {
while (*format) while (*format)
{ {
@ -54,7 +54,7 @@ namespace BAN::Formatter
} }
template<typename F, typename Arg, typename... Args> template<typename F, typename Arg, typename... Args>
void print(F putc, const char* format, Arg&& arg, Args&&... args) inline void print(F putc, const char* format, Arg&& arg, Args&&... args)
{ {
while (*format && *format != '{') while (*format && *format != '{')
{ {
@ -72,7 +72,7 @@ namespace BAN::Formatter
} }
template<typename F, typename... Args> template<typename F, typename... Args>
void println(F putc, const char* format, Args&&... args) inline void println(F putc, const char* format, Args&&... args)
{ {
print(putc, format, args...); print(putc, format, args...);
putc('\n'); putc('\n');
@ -82,7 +82,7 @@ namespace BAN::Formatter
{ {
template<typename F, typename Arg> template<typename F, typename Arg>
size_t parse_format_and_print_argument(F putc, const char* format, Arg&& argument) inline size_t parse_format_and_print_argument(F putc, const char* format, Arg&& argument)
{ {
ValueFormat value_format; ValueFormat value_format;
@ -150,7 +150,7 @@ namespace BAN::Formatter
return i + 1; return i + 1;
} }
static char value_to_base_char(uint8_t value, int base, bool upper) inline char value_to_base_char(uint8_t value, int base, bool upper)
{ {
if (base <= 10) if (base <= 10)
return value + '0'; return value + '0';
@ -164,7 +164,7 @@ namespace BAN::Formatter
} }
template<typename F, typename T> template<typename F, typename T>
void print_integer(F putc, T value, const ValueFormat& format) inline void print_integer(F putc, T value, const ValueFormat& format)
{ {
if (value == 0) if (value == 0)
{ {
@ -205,7 +205,7 @@ namespace BAN::Formatter
} }
template<typename F, typename T> template<typename F, typename T>
void print_floating(F putc, T value, const ValueFormat& format) inline void print_floating(F putc, T value, const ValueFormat& format)
{ {
int64_t int_part = (int64_t)value; int64_t int_part = (int64_t)value;
T frac_part = value - (T)int_part; T frac_part = value - (T)int_part;
@ -228,7 +228,7 @@ namespace BAN::Formatter
} }
template<typename F> template<typename F>
void print_pointer(F putc, void* ptr, const ValueFormat& format) inline void print_pointer(F putc, void* ptr, const ValueFormat& format)
{ {
uintptr_t value = (uintptr_t)ptr; uintptr_t value = (uintptr_t)ptr;
print(putc, "0x"); print(putc, "0x");
@ -244,13 +244,13 @@ namespace BAN::Formatter
*/ */
template<typename F, integral T> void print_argument(F putc, T value, const ValueFormat& format) { detail::print_integer(putc, value, format); } template<typename F, integral T> inline void print_argument(F putc, T value, const ValueFormat& format) { detail::print_integer(putc, value, format); }
template<typename F, floating_point T> void print_argument(F putc, T value, const ValueFormat& format) { detail::print_floating(putc, value, format); } template<typename F, floating_point T> inline void print_argument(F putc, T value, const ValueFormat& format) { detail::print_floating(putc, value, format); }
template<typename F, pointer T> void print_argument(F putc, T value, const ValueFormat& format) { detail::print_pointer(putc, (void*)value, format); } template<typename F, pointer T> inline void print_argument(F putc, T value, const ValueFormat& format) { detail::print_pointer(putc, (void*)value, format); }
template<typename F> void print_argument(F putc, char value, const ValueFormat&) { putc(value); } template<typename F> inline void print_argument(F putc, char value, const ValueFormat&) { putc(value); }
template<typename F> void print_argument(F putc, bool value, const ValueFormat&) { print(putc, value ? "true" : "false"); } template<typename F> inline void print_argument(F putc, bool value, const ValueFormat&) { print(putc, value ? "true" : "false"); }
template<typename F> void print_argument(F putc, const char* value, const ValueFormat&) { print(putc, value); } template<typename F> inline void print_argument(F putc, const char* value, const ValueFormat&) { print(putc, value); }
template<typename F> void print_argument(F putc, char* value, const ValueFormat&) { print(putc, value); } template<typename F> inline void print_argument(F putc, char* value, const ValueFormat&) { print(putc, value); }
} }

View File

@ -3,6 +3,7 @@ set(KERNEL_SOURCES
kernel/ACPI/ACPI.cpp kernel/ACPI/ACPI.cpp
kernel/ACPI/AML.cpp kernel/ACPI/AML.cpp
kernel/ACPI/AML/Field.cpp kernel/ACPI/AML/Field.cpp
kernel/ACPI/AML/Integer.cpp
kernel/ACPI/AML/NamedObject.cpp kernel/ACPI/AML/NamedObject.cpp
kernel/ACPI/AML/Namespace.cpp kernel/ACPI/AML/Namespace.cpp
kernel/ACPI/AML/Node.cpp kernel/ACPI/AML/Node.cpp

View File

@ -7,7 +7,7 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Alias : public AML::NamedObject struct Alias final : public AML::NamedObject
{ {
BAN::RefPtr<AML::Node> target; BAN::RefPtr<AML::Node> target;
@ -16,16 +16,27 @@ namespace Kernel::ACPI::AML
, target(target) , target(target)
{} {}
BAN::RefPtr<AML::Node> to_underlying() override { return target; }
bool is_scope() const override { return target->is_scope(); } bool is_scope() const override { return target->is_scope(); }
BAN::RefPtr<Node> copy() override { return target->copy(); } BAN::RefPtr<AML::Node> convert(uint8_t mask) override
{
ASSERT(target);
return target->convert(mask);
}
BAN::RefPtr<AML::Buffer> as_buffer() override { return target->as_buffer(); } BAN::RefPtr<Node> copy() override
BAN::RefPtr<AML::Integer> as_integer() override { return target->as_integer(); } {
BAN::RefPtr<AML::String> as_string() override { return target->as_string(); } ASSERT(target);
return target->copy();
}
BAN::RefPtr<AML::Node> evaluate() override { return target->evaluate(); } BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node> node) override
bool store(BAN::RefPtr<AML::Node> node) override { return target->store(node); } {
ASSERT(target);
return target->store(node);
}
static ParseResult parse(ParseContext& context) static ParseResult parse(ParseContext& context)
{ {
@ -38,17 +49,17 @@ namespace Kernel::ACPI::AML
return ParseResult::Failure; return ParseResult::Failure;
auto source_object = AML::Namespace::root_namespace()->find_object(context.scope, source_string.value(), AML::Namespace::FindMode::Normal); auto source_object = AML::Namespace::root_namespace()->find_object(context.scope, source_string.value(), AML::Namespace::FindMode::Normal);
if (!source_object)
{
AML_ERROR("Alias target could not be found");
return ParseResult::Failure;
}
auto alias_string = AML::NameString::parse(context.aml_data); auto alias_string = AML::NameString::parse(context.aml_data);
if (!alias_string.has_value()) if (!alias_string.has_value())
return ParseResult::Failure; return ParseResult::Failure;
auto alias = MUST(BAN::RefPtr<Alias>::create(alias_string.value().path.back(), source_object)); if (!source_object)
{
AML_PRINT("Alias target could not be found");
return ParseResult::Success;
}
auto alias = MUST(BAN::RefPtr<Alias>::create(alias_string.value().path.back(), source_object->to_underlying()));
if (!Namespace::root_namespace()->add_named_object(context, alias_string.value(), alias)) if (!Namespace::root_namespace()->add_named_object(context, alias_string.value(), alias))
return ParseResult::Success; return ParseResult::Success;

View File

@ -10,7 +10,7 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Buffer : public AML::Node struct Buffer final : public AML::Node
{ {
BAN::Vector<uint8_t> buffer; BAN::Vector<uint8_t> buffer;
@ -20,10 +20,10 @@ namespace Kernel::ACPI::AML
BAN::Optional<bool> logical_compare(BAN::RefPtr<AML::Node> node, AML::Byte binaryop) BAN::Optional<bool> logical_compare(BAN::RefPtr<AML::Node> node, AML::Byte binaryop)
{ {
auto rhs = node ? node->as_buffer() : BAN::RefPtr<AML::Buffer>(); auto rhs_node = node ? node->convert(AML::Node::ConvBuffer) : BAN::RefPtr<AML::Node>();
if (!rhs) if (!rhs_node)
{ {
AML_ERROR("Buffer logical compare RHS is not buffer"); AML_ERROR("Buffer logical compare RHS cannot be converted to buffer");
return {}; return {};
} }
@ -32,18 +32,34 @@ namespace Kernel::ACPI::AML
return {}; return {};
} }
BAN::RefPtr<AML::Buffer> as_buffer() override { return this; } BAN::RefPtr<AML::Node> convert(uint8_t mask) override
BAN::RefPtr<AML::Integer> as_integer() override
{ {
uint64_t value = 0; if (mask & AML::Node::ConvBuffer)
for (size_t i = 0; i < BAN::Math::min<size_t>(buffer.size(), 8); i++) return this;
value |= static_cast<uint64_t>(buffer[i]) << (8 * i); if (mask & AML::Node::ConvInteger)
return MUST(BAN::RefPtr<Integer>::create(value)); return as_integer();
if (mask & AML::Node::ConvString)
{
AML_TODO("Convert BufferField to String");
return {};
}
return {};
} }
BAN::RefPtr<AML::Node> evaluate() override BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node> node) override
{ {
ASSERT(node);
auto conv_node = node->convert(AML::Node::ConvBuffer);
if (!conv_node)
{
AML_ERROR("Buffer store could not convert to buffer");
return {};
}
auto& conv_buffer = static_cast<AML::Buffer*>(conv_node.ptr())->buffer;
MUST(buffer.resize(conv_buffer.size()));
for (size_t i = 0; i < buffer.size(); i++)
buffer[i] = conv_buffer[i];
return this; return this;
} }
@ -60,15 +76,21 @@ namespace Kernel::ACPI::AML
auto buffer_context = context; auto buffer_context = context;
buffer_context.aml_data = buffer_pkg.value(); buffer_context.aml_data = buffer_pkg.value();
auto buffer_size_object = AML::parse_object(buffer_context); auto buffer_size_result = AML::parse_object(buffer_context);
if (!buffer_size_object.success()) if (!buffer_size_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto buffer_size = buffer_size_object.node()->as_integer(); auto buffer_size_node = buffer_size_result.node() ? buffer_size_result.node()->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!buffer_size) if (!buffer_size_node)
{
AML_ERROR("Buffer size is not an integer");
return ParseResult::Failure; return ParseResult::Failure;
}
uint32_t actual_buffer_size = BAN::Math::max<uint32_t>(buffer_size->value, buffer_context.aml_data.size()); const uint32_t actual_buffer_size = BAN::Math::max<uint32_t>(
static_cast<AML::Integer*>(buffer_size_node.ptr())->value,
buffer_context.aml_data.size()
);
auto buffer = MUST(BAN::RefPtr<Buffer>::create()); auto buffer = MUST(BAN::RefPtr<Buffer>::create());
MUST(buffer->buffer.resize(actual_buffer_size, 0)); MUST(buffer->buffer.resize(actual_buffer_size, 0));
@ -88,9 +110,18 @@ namespace Kernel::ACPI::AML
AML_DEBUG_PRINT_INDENT(indent); AML_DEBUG_PRINT_INDENT(indent);
AML_DEBUG_PRINT("Buffer ({} bytes)", buffer.size()); AML_DEBUG_PRINT("Buffer ({} bytes)", buffer.size());
} }
private:
BAN::RefPtr<AML::Integer> as_integer()
{
uint64_t value = 0;
for (size_t i = 0; i < BAN::Math::min<size_t>(buffer.size(), 8); i++)
value |= static_cast<uint64_t>(buffer[i]) << (8 * i);
return MUST(BAN::RefPtr<Integer>::create(value));
}
}; };
struct BufferField : AML::NamedObject struct BufferField final : AML::NamedObject
{ {
BAN::RefPtr<AML::Node> buffer; BAN::RefPtr<AML::Node> buffer;
size_t field_bit_offset; size_t field_bit_offset;
@ -104,7 +135,159 @@ namespace Kernel::ACPI::AML
, field_bit_size(field_bit_size) , field_bit_size(field_bit_size)
{} {}
BAN::RefPtr<AML::Integer> as_integer() override BAN::RefPtr<AML::Node> convert(uint8_t mask) override
{
if (mask & AML::Node::ConvBufferField)
return this;
if (mask & AML::Node::ConvInteger)
return as_integer();
if (mask & AML::Node::ConvBuffer)
{
AML_TODO("Convert BufferField to Buffer");
return {};
}
if (mask & AML::Node::ConvString)
{
AML_TODO("Convert BufferField to String");
return {};
}
return {};
}
BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node> node) override
{
ASSERT(buffer);
ASSERT(buffer->type == AML::Node::Type::Buffer || buffer->type == AML::Node::Type::String);
auto& buffer = (this->buffer->type == AML::Node::Type::Buffer)
? static_cast<AML::Buffer*>(this->buffer.ptr())->buffer
: static_cast<AML::String*>(this->buffer.ptr())->string;
ASSERT(field_bit_offset + field_bit_size <= buffer.size() * 8);
auto value_node = node ? node->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!value_node)
return {};
const auto value = static_cast<AML::Integer*>(value_node.ptr())->value;
// TODO: optimize for whole byte accesses
for (size_t i = 0; i < field_bit_size; i++)
{
const size_t bit = field_bit_offset + i;
buffer[bit / 8] &= ~(1 << (bit % 8));
buffer[bit / 8] |= ((value >> i) & 1) << (bit % 8);
}
return value_node;
}
static ParseResult parse(AML::ParseContext& context)
{
ASSERT(context.aml_data.size() >= 1);
bool offset_in_bytes;
size_t field_bit_size;
switch (static_cast<AML::Byte>(context.aml_data[0]))
{
case AML::Byte::CreateBitFieldOp:
field_bit_size = 1;
offset_in_bytes = false;
break;
case AML::Byte::CreateByteFieldOp:
field_bit_size = 8;
offset_in_bytes = true;
break;
case AML::Byte::CreateWordFieldOp:
field_bit_size = 16;
offset_in_bytes = true;
break;
case AML::Byte::CreateDWordFieldOp:
field_bit_size = 32;
offset_in_bytes = true;
break;
case AML::Byte::CreateQWordFieldOp:
field_bit_size = 64;
offset_in_bytes = true;
break;
case AML::Byte::ExtOpPrefix:
ASSERT(context.aml_data.size() >= 2);
ASSERT(static_cast<AML::ExtOp>(context.aml_data[1]) == AML::ExtOp::CreateFieldOp);
field_bit_size = 0;
offset_in_bytes = false;
break;
default:
ASSERT_NOT_REACHED();
}
context.aml_data = context.aml_data.slice(1 + (static_cast<AML::Byte>(context.aml_data[0]) == AML::Byte::ExtOpPrefix));
auto buffer_result = AML::parse_object(context);
if (!buffer_result.success())
return ParseResult::Failure;
auto buffer_node = buffer_result.node() ? buffer_result.node()->convert(AML::Node::ConvBuffer) : BAN::RefPtr<AML::Node>();
if (!buffer_node || buffer_node->type != Node::Type::Buffer)
{
AML_ERROR("Buffer source does not evaluate to a Buffer");
return ParseResult::Failure;
}
auto buffer = BAN::RefPtr<AML::Buffer>(static_cast<AML::Buffer*>(buffer_node.ptr()));
auto index_result = AML::parse_object(context);
if (!index_result.success())
return ParseResult::Failure;
auto index_node = index_result.node() ? index_result.node()->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!index_node)
{
AML_ERROR("Failed to parse index for BufferField");
return ParseResult::Failure;
}
if (field_bit_size == 0)
{
auto bit_count_result = AML::parse_object(context);
if (!bit_count_result.success())
return ParseResult::Failure;
auto bit_count_node = bit_count_result.node() ? bit_count_result.node()->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!bit_count_node)
{
AML_ERROR("Failed to parse bit count for BufferField");
return ParseResult::Failure;
}
field_bit_size = static_cast<AML::Integer*>(bit_count_node.ptr())->value;
}
auto field_name = AML::NameString::parse(context.aml_data);
if (!field_name.has_value())
return ParseResult::Failure;
if (field_name->path.empty())
{
AML_ERROR("Empty field name for BufferField");
return ParseResult::Failure;
}
size_t field_bit_offset = static_cast<AML::Integer*>(index_node.ptr())->value;
if (offset_in_bytes)
field_bit_offset *= 8;
auto field = MUST(BAN::RefPtr<BufferField>::create(field_name->path.back(), buffer, field_bit_offset, field_bit_size));
if (!Namespace::root_namespace()->add_named_object(context, field_name.value(), field))
return ParseResult::Success;
#if AML_DEBUG_LEVEL >= 2
field->debug_print(0);
AML_DEBUG_PRINTLN("");
#endif
return ParseResult::Success;
}
virtual void debug_print(int indent) const override
{
AML_DEBUG_PRINT_INDENT(indent);
AML_DEBUG_PRINT("BufferField {} at bit offset {} ({} bits) to { ", name, field_bit_offset, field_bit_size);
buffer->debug_print(0);
AML_DEBUG_PRINT(" }");
}
private:
BAN::RefPtr<AML::Integer> as_integer()
{ {
ASSERT(buffer); ASSERT(buffer);
ASSERT(buffer->type == AML::Node::Type::Buffer || buffer->type == AML::Node::Type::String); ASSERT(buffer->type == AML::Node::Type::Buffer || buffer->type == AML::Node::Type::String);
@ -124,150 +307,6 @@ namespace Kernel::ACPI::AML
return MUST(BAN::RefPtr<Integer>::create(value)); return MUST(BAN::RefPtr<Integer>::create(value));
} }
BAN::RefPtr<AML::Node> evaluate() override
{
ASSERT(buffer);
ASSERT(buffer->type == AML::Node::Type::Buffer || buffer->type == AML::Node::Type::String);
const auto& buffer = (this->buffer->type == AML::Node::Type::Buffer)
? static_cast<AML::Buffer*>(this->buffer.ptr())->buffer
: static_cast<AML::String*>(this->buffer.ptr())->string;
ASSERT(field_bit_offset + field_bit_size <= buffer.size() * 8);
uint64_t value = 0;
// TODO: optimize for whole byte accesses
for (size_t i = 0; i < field_bit_size; i++)
{
const size_t bit = field_bit_offset + i;
value |= static_cast<uint64_t>((buffer[bit / 8] >> (bit % 8)) & 1) << i;
}
return MUST(BAN::RefPtr<AML::Integer>::create(value));
}
bool store(BAN::RefPtr<AML::Node> node) override
{
ASSERT(buffer);
ASSERT(buffer->type == AML::Node::Type::Buffer || buffer->type == AML::Node::Type::String);
auto& buffer = (this->buffer->type == AML::Node::Type::Buffer)
? static_cast<AML::Buffer*>(this->buffer.ptr())->buffer
: static_cast<AML::String*>(this->buffer.ptr())->string;
ASSERT(field_bit_offset + field_bit_size <= buffer.size() * 8);
auto value = node->as_integer();
if (!value)
return false;
// TODO: optimize for whole byte accesses
for (size_t i = 0; i < field_bit_size; i++)
{
const size_t bit = field_bit_offset + 1;
buffer[bit / 8] &= ~(1 << (bit % 8));
buffer[bit / 8] |= ((value->value >> i) & 1) << (bit % 8);
}
return true;
}
static ParseResult parse(AML::ParseContext& context)
{
ASSERT(context.aml_data.size() >= 1);
size_t field_bit_size = 0;
switch (static_cast<AML::Byte>(context.aml_data[0]))
{
case AML::Byte::CreateBitFieldOp:
field_bit_size = 1;
break;
case AML::Byte::CreateByteFieldOp:
field_bit_size = 8;
break;
case AML::Byte::CreateWordFieldOp:
field_bit_size = 16;
break;
case AML::Byte::CreateDWordFieldOp:
field_bit_size = 32;
break;
case AML::Byte::CreateQWordFieldOp:
field_bit_size = 64;
break;
case AML::Byte::ExtOpPrefix:
ASSERT(context.aml_data.size() >= 2);
ASSERT(static_cast<AML::ExtOp>(context.aml_data[1]) == AML::ExtOp::CreateFieldOp);
break;
default:
ASSERT_NOT_REACHED();
}
context.aml_data = context.aml_data.slice(1 + (static_cast<AML::Byte>(context.aml_data[0]) == AML::Byte::ExtOpPrefix));
auto buffer_result = AML::parse_object(context);
if (!buffer_result.success())
return ParseResult::Failure;
auto buffer_node = buffer_result.node() ? buffer_result.node()->as_buffer() : BAN::RefPtr<AML::Buffer>();
if (!buffer_node || buffer_node->type != Node::Type::Buffer)
{
AML_ERROR("Buffer source does not evaluate to a Buffer");
return ParseResult::Failure;
}
auto buffer = BAN::RefPtr<AML::Buffer>(static_cast<AML::Buffer*>(buffer_node.ptr()));
auto index_result = AML::parse_object(context);
if (!index_result.success())
return ParseResult::Failure;
auto index = index_result.node() ? index_result.node()->as_integer() : BAN::RefPtr<AML::Integer>();
if (!index)
{
AML_ERROR("Failed to parse index for BufferField");
return ParseResult::Failure;
}
size_t field_bit_offset = index->value;
if (field_bit_size != 1)
field_bit_offset *= 8;
if (field_bit_size == 0)
{
auto bit_count_result = AML::parse_object(context);
if (!index_result.success())
return ParseResult::Failure;
auto bit_count = bit_count_result.node() ? bit_count_result.node()->as_integer() : BAN::RefPtr<AML::Integer>();
if (!bit_count)
{
AML_ERROR("Failed to parse bit count for BufferField");
return ParseResult::Failure;
}
field_bit_size = bit_count->value;
}
auto field_name = AML::NameString::parse(context.aml_data);
if (!field_name.has_value())
return ParseResult::Failure;
if (field_name->path.empty())
{
AML_ERROR("Empty field name for BufferField");
return ParseResult::Failure;
}
auto field = MUST(BAN::RefPtr<BufferField>::create(field_name->path.back(), buffer, field_bit_offset, field_bit_size));
if (!Namespace::root_namespace()->add_named_object(context, field_name.value(), field))
return ParseResult::Failure;
#if AML_DEBUG_LEVEL >= 2
field->debug_print(0);
AML_DEBUG_PRINTLN("");
#endif
return ParseResult::Success;
}
virtual void debug_print(int indent) const override
{
AML_DEBUG_PRINT_INDENT(indent);
AML_DEBUG_PRINT("BufferField {} at bit offset {} ({} bits) to { ", name, field_bit_offset, field_bit_size);
buffer->debug_print(0);
AML_DEBUG_PRINT(" }");
}
}; };
} }

View File

@ -0,0 +1,92 @@
#pragma once
#include <kernel/ACPI/AML/Buffer.h>
#include <kernel/ACPI/AML/Integer.h>
#include <kernel/ACPI/AML/ParseContext.h>
#include <kernel/ACPI/AML/String.h>
namespace Kernel::ACPI::AML
{
struct Conversion
{
static ParseResult parse(AML::ParseContext& context)
{
const auto opcode = static_cast<AML::Byte>(context.aml_data[0]);
context.aml_data = context.aml_data.slice(1);
switch (opcode)
{
case AML::Byte::ToIntegerOp:
case AML::Byte::ToBufferOp:
case AML::Byte::ToStringOp:
break;
default:
ASSERT_NOT_REACHED();
}
auto data_result = AML::parse_object(context);
if (!data_result.success())
return ParseResult::Failure;
auto data_node = data_result.node();
if (!data_node)
{
AML_ERROR("Conversion {2H} data could not be evaluated", static_cast<uint8_t>(opcode));
return ParseResult::Failure;
}
if (context.aml_data.size() < 1)
{
AML_ERROR("Conversion {2H} missing target", static_cast<uint8_t>(opcode));
return ParseResult::Failure;
}
BAN::RefPtr<AML::Node> target_node;
if (context.aml_data[0] == 0x00)
context.aml_data = context.aml_data.slice(1);
else
{
auto target_result = AML::parse_object(context);
if (!target_result.success())
return ParseResult::Failure;
target_node = target_result.node();
if (!target_node)
{
AML_ERROR("Conversion {2H} target invalid", static_cast<uint8_t>(opcode));
return ParseResult::Failure;
}
}
BAN::RefPtr<AML::Node> converted;
switch (opcode)
{
case AML::Byte::ToBufferOp:
converted = data_node->convert(AML::Node::ConvBuffer);
break;
case AML::Byte::ToIntegerOp:
converted = data_node->convert(AML::Node::ConvInteger);
break;
case AML::Byte::ToStringOp:
converted = data_node->convert(AML::Node::ConvString);
break;
default:
ASSERT_NOT_REACHED();
}
if (!converted)
{
AML_ERROR("Conversion {2H} could not convert from node type {}", static_cast<uint8_t>(opcode), static_cast<uint8_t>(data_node->type));
return ParseResult::Failure;
}
if (target_node && !target_node->store(converted))
{
AML_ERROR("Conversion {2H} failed to store converted value", static_cast<uint8_t>(opcode));
return ParseResult::Failure;
}
return ParseResult(converted);
}
};
}

View File

@ -0,0 +1,68 @@
#pragma once
#include <kernel/ACPI/AML/Alias.h>
#include <kernel/ACPI/AML/NamedObject.h>
#include <kernel/ACPI/AML/ParseContext.h>
#include <kernel/ACPI/AML/Register.h>
namespace Kernel::ACPI::AML
{
struct CopyObject
{
static ParseResult parse(ParseContext& context)
{
ASSERT(context.aml_data.size() >= 1);
ASSERT(static_cast<Byte>(context.aml_data[0]) == Byte::CopyObjectOp);
context.aml_data = context.aml_data.slice(1);
auto source_result = AML::parse_object(context);
if (!source_result.success())
return ParseResult::Failure;
auto source = source_result.node()
? source_result.node()->to_underlying()
: BAN::RefPtr<AML::Node>();
if (!source)
{
AML_ERROR("CopyObject source is null");
return ParseResult::Failure;
}
auto destination_result = AML::parse_object(context);
if (!destination_result.success())
return ParseResult::Failure;
auto destination = destination_result.node();
if (!destination)
{
AML_ERROR("CopyObject destination is null");
return ParseResult::Failure;
}
#if AML_DEBUG_LEVEL >= 2
AML_DEBUG_PRINTLN("CopyObject {");
source->debug_print(1);
AML_DEBUG_PRINTLN("");
AML_DEBUG_PRINTLN("} to {");
destination->debug_print(1);
AML_DEBUG_PRINTLN("");
AML_DEBUG_PRINTLN("}");
#endif
switch (destination->type)
{
case AML::Node::Type::Alias:
static_cast<AML::Alias*>(destination.ptr())->target = source->copy();
return source;
case AML::Node::Type::Name:
static_cast<AML::Name*>(destination.ptr())->object = source->copy();
return source;
case AML::Node::Type::Register:
static_cast<AML::Register*>(destination.ptr())->value = source->copy();
return source;
default:
ASSERT_NOT_REACHED();
}
}
};
}

View File

@ -8,12 +8,14 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Device : public AML::Scope struct Device final : public AML::Scope
{ {
Device(NameSeg name) Device(NameSeg name)
: Scope(Node::Type::Device, name) : Scope(Node::Type::Device, name)
{} {}
BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
static ParseResult parse(ParseContext& context) static ParseResult parse(ParseContext& context)
{ {
ASSERT(context.aml_data.size() >= 2); ASSERT(context.aml_data.size() >= 2);
@ -31,7 +33,7 @@ namespace Kernel::ACPI::AML
auto device = MUST(BAN::RefPtr<Device>::create(name_string->path.back())); auto device = MUST(BAN::RefPtr<Device>::create(name_string->path.back()));
if (!Namespace::root_namespace()->add_named_object(context, name_string.value(), device)) if (!Namespace::root_namespace()->add_named_object(context, name_string.value(), device))
return ParseResult::Failure; return ParseResult::Success;
return device->enter_context_and_parse_term_list(context, name_string.value(), device_pkg.value()); return device->enter_context_and_parse_term_list(context, name_string.value(), device_pkg.value());
} }

View File

@ -10,7 +10,7 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Event : public AML::NamedObject struct Event final : public AML::NamedObject
{ {
BAN::Atomic<uint32_t> signal_count { 0 }; BAN::Atomic<uint32_t> signal_count { 0 };
ThreadBlocker thread_blocker; ThreadBlocker thread_blocker;
@ -19,6 +19,8 @@ namespace Kernel::ACPI::AML
: NamedObject(Node::Type::Event, name) : NamedObject(Node::Type::Event, name)
{} {}
BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
static ParseResult parse(ParseContext& context) static ParseResult parse(ParseContext& context)
{ {
ASSERT(context.aml_data.size() >= 2); ASSERT(context.aml_data.size() >= 2);
@ -43,7 +45,7 @@ namespace Kernel::ACPI::AML
if (!event_result.success()) if (!event_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto general_node = event_result.node() ? event_result.node()->evaluate() : BAN::RefPtr<AML::Node>(); auto general_node = event_result.node();
if (!general_node || general_node->type != Node::Type::Event) if (!general_node || general_node->type != Node::Type::Event)
{ {
AML_ERROR("Release, Wait or Signal does not name an event"); AML_ERROR("Release, Wait or Signal does not name an event");
@ -58,12 +60,15 @@ namespace Kernel::ACPI::AML
if (!timeout_result.success()) if (!timeout_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto timeout = timeout_result.node() ? timeout_result.node()->as_integer() : BAN::RefPtr<AML::Integer>(); auto timeout_node = timeout_result.node()
if (!timeout) ? timeout_result.node()->convert(AML::Node::ConvInteger)
: BAN::RefPtr<AML::Node>();
if (!timeout_node)
{ {
AML_ERROR("Wait timeout does not evaluate to integer"); AML_ERROR("Wait timeout does not evaluate to integer");
return ParseResult::Failure; return ParseResult::Failure;
} }
const auto timeout_value = static_cast<AML::Integer*>(timeout_node.ptr())->value;
const uint64_t start_ms = SystemTimer::get().ms_since_boot(); const uint64_t start_ms = SystemTimer::get().ms_since_boot();
while (true) while (true)
@ -77,14 +82,14 @@ namespace Kernel::ACPI::AML
return ParseResult(Integer::Constants::Zero); return ParseResult(Integer::Constants::Zero);
} }
if (timeout->value >= 0xFFFF) if (timeout_value >= 0xFFFF)
event_node->thread_blocker.block_indefinite(); event_node->thread_blocker.block_indefinite();
else else
{ {
const uint64_t current_ms = SystemTimer::get().ms_since_boot(); const uint64_t current_ms = SystemTimer::get().ms_since_boot();
if (current_ms >= start_ms + timeout->value) if (current_ms >= start_ms + timeout_value)
return ParseResult(Integer::Constants::Ones); return ParseResult(Integer::Constants::Ones);
event_node->thread_blocker.block_with_timeout_ms(start_ms + timeout->value - current_ms); event_node->thread_blocker.block_with_timeout_ms(start_ms + timeout_value - current_ms);
} }
} }

View File

@ -1,9 +1,10 @@
#pragma once #pragma once
#include <kernel/ACPI/AML/Buffer.h>
#include <kernel/ACPI/AML/Bytes.h> #include <kernel/ACPI/AML/Bytes.h>
#include <kernel/ACPI/AML/Integer.h> #include <kernel/ACPI/AML/Integer.h>
#include <kernel/ACPI/AML/Node.h>
#include <kernel/ACPI/AML/ParseContext.h> #include <kernel/ACPI/AML/ParseContext.h>
#include <kernel/ACPI/AML/String.h>
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
@ -25,13 +26,14 @@ namespace Kernel::ACPI::AML
auto source_result = AML::parse_object(context); auto source_result = AML::parse_object(context);
if (!source_result.success()) if (!source_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto source_node = source_result.node() ? source_result.node()->as_integer(): BAN::RefPtr<AML::Integer>(); auto conv_node = source_result.node() ? source_result.node()->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!source_node) if (!conv_node)
{ {
AML_ERROR("UnaryOp source not integer"); AML_ERROR("UnaryOp source not integer, type {}", static_cast<uint8_t>(source_result.node()->type));
return ParseResult::Failure; return ParseResult::Failure;
} }
auto source_node = static_cast<AML::Integer*>(conv_node.ptr());
if (source_node->constant) if (source_node->constant)
{ {
AML_ERROR("UnaryOp source is constant"); AML_ERROR("UnaryOp source is constant");
@ -48,18 +50,23 @@ namespace Kernel::ACPI::AML
{ {
context.aml_data = context.aml_data.slice(1); context.aml_data = context.aml_data.slice(1);
auto node_result = AML::parse_object(context); auto source_result = AML::parse_object(context);
if (!node_result.success()) if (!source_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto conv_node = source_result.node() ? source_result.node()->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
auto value = node_result.node() ? node_result.node()->as_integer() : BAN::RefPtr<AML::Integer>(); if (!conv_node)
if (!value) {
AML_ERROR("UnaryOp source not integer, type {}", static_cast<uint8_t>(source_result.node()->type));
return ParseResult::Failure;
}
auto source_node = static_cast<AML::Integer*>(conv_node.ptr());
if (!source_node)
{ {
AML_ERROR("Logical NotOp source is not integer"); AML_ERROR("Logical NotOp source is not integer");
return ParseResult::Failure; return ParseResult::Failure;
} }
auto result = value->value ? Integer::Constants::Zero : Integer::Constants::Ones; auto result = source_node->value ? Integer::Constants::Zero : Integer::Constants::Ones;
return ParseResult(result); return ParseResult(result);
} }
case AML::Byte::AddOp: case AML::Byte::AddOp:
@ -97,21 +104,25 @@ namespace Kernel::ACPI::AML
auto lhs_result = AML::parse_object(context); auto lhs_result = AML::parse_object(context);
if (!lhs_result.success()) if (!lhs_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto lhs_value = lhs_result.node() ? lhs_result.node()->as_integer() : BAN::RefPtr<AML::Integer>(); auto lhs_conv = lhs_result.node() ? lhs_result.node()->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!lhs_value) if (!lhs_conv)
{ {
AML_ERROR("BinaryOP {2H} LHS not an integer", static_cast<uint8_t>(opcode)); AML_ERROR("BinaryOP {2H} LHS not an integer, type {}",
static_cast<uint8_t>(opcode),
static_cast<uint8_t>(lhs_result.node()->type)
);
if (lhs_result.node()) if (lhs_result.node())
lhs_result.node()->debug_print(1); lhs_result.node()->debug_print(1);
AML_DEBUG_PRINTLN(""); AML_DEBUG_PRINTLN("");
return ParseResult::Failure; return ParseResult::Failure;
} }
const auto lhs_value = static_cast<AML::Integer*>(lhs_conv.ptr())->value;
auto rhs_result = AML::parse_object(context); auto rhs_result = AML::parse_object(context);
if (!rhs_result.success()) if (!rhs_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto rhs_value = rhs_result.node() ? rhs_result.node()->as_integer() : BAN::RefPtr<AML::Integer>(); auto rhs_conv = rhs_result.node() ? rhs_result.node()->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!rhs_value) if (!rhs_conv)
{ {
AML_ERROR("BinaryOP {2H} RHS not an integer", static_cast<uint8_t>(opcode)); AML_ERROR("BinaryOP {2H} RHS not an integer", static_cast<uint8_t>(opcode));
if (rhs_result.node()) if (rhs_result.node())
@ -119,12 +130,14 @@ namespace Kernel::ACPI::AML
AML_DEBUG_PRINTLN(""); AML_DEBUG_PRINTLN("");
return ParseResult::Failure; return ParseResult::Failure;
} }
const auto rhs_value = static_cast<AML::Integer*>(rhs_conv.ptr())->value;
if (context.aml_data.size() < 1) if (context.aml_data.size() < 1)
{ {
AML_ERROR("BinaryOP {2H} missing target", static_cast<uint8_t>(opcode)); AML_ERROR("BinaryOP {2H} missing target", static_cast<uint8_t>(opcode));
return ParseResult::Failure; return ParseResult::Failure;
} }
BAN::RefPtr<AML::Node> target_node; BAN::RefPtr<AML::Node> target_node;
if (context.aml_data[0] == 0x00) if (context.aml_data[0] == 0x00)
context.aml_data = context.aml_data.slice(1); context.aml_data = context.aml_data.slice(1);
@ -159,9 +172,7 @@ namespace Kernel::ACPI::AML
ASSERT_NOT_REACHED(); ASSERT_NOT_REACHED();
} }
uint64_t result = func(lhs_value->value, rhs_value->value); auto result_node = MUST(BAN::RefPtr<AML::Integer>::create(func(lhs_value, rhs_value)));
auto result_node = MUST(BAN::RefPtr<AML::Integer>::create(result));
if (target_node && !target_node->store(result_node)) if (target_node && !target_node->store(result_node))
{ {
AML_ERROR("BinaryOp {2H} failed to store result", static_cast<uint8_t>(opcode)); AML_ERROR("BinaryOp {2H} failed to store result", static_cast<uint8_t>(opcode));
@ -176,10 +187,26 @@ namespace Kernel::ACPI::AML
auto opcode = static_cast<AML::Byte>(context.aml_data[0]); auto opcode = static_cast<AML::Byte>(context.aml_data[0]);
context.aml_data = context.aml_data.slice(1); context.aml_data = context.aml_data.slice(1);
uint8_t mask;
switch (opcode)
{
case AML::Byte::LAndOp:
case AML::Byte::LOrOp:
mask = AML::Node::ConvInteger;
break;
case AML::Byte::LEqualOp:
case AML::Byte::LGreaterOp:
case AML::Byte::LLessOp:
mask = AML::Node::ConvInteger | AML::Node::ConvString | AML::Node::ConvBuffer;
break;
default:
ASSERT_NOT_REACHED();
}
auto lhs_result = AML::parse_object(context); auto lhs_result = AML::parse_object(context);
if (!lhs_result.success()) if (!lhs_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto lhs_node = lhs_result.node() ? lhs_result.node()->evaluate() : BAN::RefPtr<AML::Node>(); auto lhs_node = lhs_result.node() ? lhs_result.node()->convert(mask) : BAN::RefPtr<AML::Node>();
if (!lhs_node) if (!lhs_node)
{ {
AML_TODO("Logical BinaryOP {2H} LHS evaluated to nothing", static_cast<uint8_t>(opcode)); AML_TODO("Logical BinaryOP {2H} LHS evaluated to nothing", static_cast<uint8_t>(opcode));

View File

@ -47,7 +47,7 @@ namespace Kernel::ACPI::AML
uint8_t access_length = 0; uint8_t access_length = 0;
}; };
struct FieldElement : public NamedObject struct FieldElement final : public AML::NamedObject
{ {
uint64_t bit_offset; uint64_t bit_offset;
uint64_t bit_count; uint64_t bit_count;
@ -63,14 +63,30 @@ namespace Kernel::ACPI::AML
, access_rules(access_rules) , access_rules(access_rules)
{} {}
BAN::RefPtr<AML::Integer> as_integer() override; BAN::RefPtr<AML::Node> convert(uint8_t mask) override
{
if (mask & AML::Node::ConvInteger)
return as_integer();
if (mask & AML::Node::ConvBuffer)
{
AML_TODO("Convert BankFieldElement to Buffer");
return {};
}
if (mask & AML::Node::ConvString)
{
AML_TODO("Convert BankFieldElement to String");
return {};
}
return {};
}
BAN::RefPtr<Node> evaluate() override { return as_integer(); } BAN::RefPtr<AML::Node> store(BAN::RefPtr<Node> source) override;
bool store(BAN::RefPtr<Node> source) override;
void debug_print(int indent) const override; void debug_print(int indent) const override;
private: private:
BAN::RefPtr<AML::Integer> as_integer();
BAN::Optional<uint64_t> evaluate_internal(); BAN::Optional<uint64_t> evaluate_internal();
bool store_internal(uint64_t value); bool store_internal(uint64_t value);
@ -83,7 +99,7 @@ namespace Kernel::ACPI::AML
static ParseResult parse(ParseContext& context); static ParseResult parse(ParseContext& context);
}; };
struct IndexFieldElement : public NamedObject struct IndexFieldElement final : public AML::NamedObject
{ {
uint64_t bit_offset; uint64_t bit_offset;
uint64_t bit_count; uint64_t bit_count;
@ -100,12 +116,30 @@ namespace Kernel::ACPI::AML
, access_rules(access_rules) , access_rules(access_rules)
{} {}
BAN::RefPtr<AML::Integer> as_integer() override; BAN::RefPtr<AML::Node> convert(uint8_t mask) override
{
if (mask & AML::Node::ConvInteger)
if (auto node = as_integer())
return node;
if (mask & AML::Node::ConvBuffer)
{
AML_TODO("convert BankFieldElement to Buffer");
return {};
}
if (mask & AML::Node::ConvString)
{
AML_TODO("convert BankFieldElement to String");
return {};
}
return {};
}
BAN::RefPtr<AML::Node> evaluate() override { return as_integer(); } BAN::RefPtr<AML::Node> store(BAN::RefPtr<Node> source) override;
bool store(BAN::RefPtr<Node> source) override;
void debug_print(int indent) const override; void debug_print(int indent) const override;
private:
BAN::RefPtr<AML::Integer> as_integer();
}; };
struct IndexField struct IndexField
@ -113,7 +147,7 @@ namespace Kernel::ACPI::AML
static ParseResult parse(ParseContext& context); static ParseResult parse(ParseContext& context);
}; };
struct BankFieldElement : public NamedObject struct BankFieldElement final : public AML::NamedObject
{ {
uint64_t bit_offset; uint64_t bit_offset;
uint64_t bit_count; uint64_t bit_count;
@ -131,10 +165,30 @@ namespace Kernel::ACPI::AML
, access_rules(access_rules) , access_rules(access_rules)
{} {}
BAN::RefPtr<Node> evaluate() override; BAN::RefPtr<AML::Node> convert(uint8_t mask) override
bool store(BAN::RefPtr<Node> source) override; {
if (mask & AML::Node::ConvInteger)
if (auto node = as_integer())
return node;
if (mask & AML::Node::ConvBuffer)
{
AML_TODO("convert BankFieldElement to Buffer");
return {};
}
if (mask & AML::Node::ConvString)
{
AML_TODO("convert BankFieldElement to String");
return {};
}
return {};
}
BAN::RefPtr<AML::Node> store(BAN::RefPtr<Node> source) override;
void debug_print(int indent) const override; void debug_print(int indent) const override;
private:
BAN::RefPtr<AML::Integer> as_integer();
}; };
struct BankField struct BankField

View File

@ -26,12 +26,13 @@ namespace Kernel::ACPI::AML
auto predicate_result = AML::parse_object(context); auto predicate_result = AML::parse_object(context);
if (!predicate_result.success()) if (!predicate_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto predicate = predicate_result.node() ? predicate_result.node()->as_integer() : BAN::RefPtr<AML::Integer>(); auto predicate_node = predicate_result.node() ? predicate_result.node()->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!predicate) if (!predicate_node)
{ {
AML_ERROR("If predicate is not an integer"); AML_ERROR("If predicate is not an integer");
return ParseResult::Failure; return ParseResult::Failure;
} }
const auto predicate_value = static_cast<AML::Integer*>(predicate_node.ptr())->value;
// Else // Else
BAN::ConstByteSpan else_pkg; BAN::ConstByteSpan else_pkg;
@ -43,14 +44,14 @@ namespace Kernel::ACPI::AML
return ParseResult::Failure; return ParseResult::Failure;
else_pkg = else_pkg_result.value(); else_pkg = else_pkg_result.value();
} }
if (predicate->value == 0) if (predicate_value == 0)
context.aml_data = else_pkg; context.aml_data = else_pkg;
while (context.aml_data.size() > 0) while (context.aml_data.size() > 0)
{ {
auto object_result = AML::parse_object(context); auto object_result = AML::parse_object(context);
if (object_result.returned()) if (object_result.returned() || object_result.breaked() || object_result.continued())
return ParseResult(ParseResult::Result::Returned, object_result.node()); return object_result;
if (!object_result.success()) if (!object_result.success())
return ParseResult::Failure; return ParseResult::Failure;
} }

View File

@ -5,6 +5,7 @@
#include <kernel/ACPI/AML/Package.h> #include <kernel/ACPI/AML/Package.h>
#include <kernel/ACPI/AML/ParseContext.h> #include <kernel/ACPI/AML/ParseContext.h>
#include <kernel/ACPI/AML/Reference.h> #include <kernel/ACPI/AML/Reference.h>
#include <kernel/ACPI/AML/Register.h>
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
@ -20,22 +21,27 @@ namespace Kernel::ACPI::AML
auto source_result = AML::parse_object(context); auto source_result = AML::parse_object(context);
if (!source_result.success()) if (!source_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto source = source_result.node() ? source_result.node()->evaluate() : BAN::RefPtr<AML::Node>(); auto source = source_result.node() ? source_result.node()->to_underlying() : BAN::RefPtr<AML::Node>();
if (source && source->type != AML::Node::Type::Package)
source = source->convert(AML::Node::ConvBuffer | AML::Node::ConvInteger | AML::Node::ConvString);
if (!source) if (!source)
{ {
AML_ERROR("IndexOp source is null"); AML_ERROR("IndexOp source could not be converted");
return ParseResult::Failure; return ParseResult::Failure;
} }
auto index_result = AML::parse_object(context); auto index_result = AML::parse_object(context);
if (!index_result.success()) if (!index_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto index = index_result.node() ? index_result.node()->as_integer() : BAN::RefPtr<AML::Integer>(); auto index_node = index_result.node()
if (!index) ? index_result.node()->convert(AML::Node::ConvInteger)
: BAN::RefPtr<AML::Node>();
if (!index_node)
{ {
AML_ERROR("IndexOp index is not an integer"); AML_ERROR("IndexOp index is not an integer");
return ParseResult::Failure; return ParseResult::Failure;
} }
const auto index = static_cast<AML::Integer*>(index_node.ptr())->value;
BAN::RefPtr<AML::Reference> result; BAN::RefPtr<AML::Reference> result;
switch (source->type) switch (source->type)
@ -43,36 +49,36 @@ namespace Kernel::ACPI::AML
case AML::Node::Type::Buffer: case AML::Node::Type::Buffer:
{ {
auto buffer = BAN::RefPtr<AML::Buffer>(static_cast<AML::Buffer*>(source.ptr())); auto buffer = BAN::RefPtr<AML::Buffer>(static_cast<AML::Buffer*>(source.ptr()));
if (index->value >= buffer->buffer.size()) if (index >= buffer->buffer.size())
{ {
AML_ERROR("IndexOp index is out of buffer bounds"); AML_ERROR("IndexOp index is out of buffer bounds");
return ParseResult::Failure; return ParseResult::Failure;
} }
auto buffer_field = MUST(BAN::RefPtr<BufferField>::create(NameSeg(""_sv), buffer, index->value * 8, 8)); auto buffer_field = MUST(BAN::RefPtr<BufferField>::create(NameSeg(""_sv), buffer, index * 8, 8));
result = MUST(BAN::RefPtr<AML::Reference>::create(buffer_field)); result = MUST(BAN::RefPtr<AML::Reference>::create(buffer_field));
break; break;
} }
case AML::Node::Type::Package: case AML::Node::Type::Package:
{ {
auto package = static_cast<AML::Package*>(source.ptr()); auto package = static_cast<AML::Package*>(source.ptr());
if (index->value >= package->elements.size()) if (index >= package->elements.size())
{ {
AML_ERROR("IndexOp index is out of package bounds"); AML_ERROR("IndexOp index is out of package bounds");
return ParseResult::Failure; return ParseResult::Failure;
} }
auto package_element = package->elements[index->value]; auto package_element = package->elements[index];
result = MUST(BAN::RefPtr<AML::Reference>::create(package_element)); result = MUST(BAN::RefPtr<AML::Reference>::create(package_element));
break; break;
} }
case AML::Node::Type::String: case AML::Node::Type::String:
{ {
auto string = BAN::RefPtr<AML::String>(static_cast<AML::String*>(source.ptr())); auto string = BAN::RefPtr<AML::String>(static_cast<AML::String*>(source.ptr()));
if (index->value >= string->string.size()) if (index >= string->string.size())
{ {
AML_ERROR("IndexOp index is out of string bounds"); AML_ERROR("IndexOp index is out of string bounds");
return ParseResult::Failure; return ParseResult::Failure;
} }
auto buffer_field = MUST(BAN::RefPtr<BufferField>::create(NameSeg(""_sv), string, index->value * 8, 8)); auto buffer_field = MUST(BAN::RefPtr<BufferField>::create(NameSeg(""_sv), string, index * 8, 8));
result = MUST(BAN::RefPtr<AML::Reference>::create(buffer_field)); result = MUST(BAN::RefPtr<AML::Reference>::create(buffer_field));
break; break;
} }
@ -82,7 +88,7 @@ namespace Kernel::ACPI::AML
} }
#if AML_DEBUG_LEVEL >= 2 #if AML_DEBUG_LEVEL >= 2
AML_DEBUG_PRINT("Index {}, ", index->value); AML_DEBUG_PRINT("Index {}, ", index);
source->debug_print(0); source->debug_print(0);
AML_DEBUG_PRINTLN(""); AML_DEBUG_PRINTLN("");
#endif #endif

View File

@ -10,7 +10,7 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Integer : public Node struct Integer final : public AML::Node
{ {
struct Constants struct Constants
{ {
@ -23,141 +23,17 @@ namespace Kernel::ACPI::AML
uint64_t value; uint64_t value;
const bool constant; const bool constant;
Integer(uint64_t value, bool constant = false) Integer(uint64_t value, bool constant = false);
: Node(Node::Type::Integer)
, value(value)
, constant(constant)
{}
BAN::Optional<bool> logical_compare(BAN::RefPtr<AML::Node> node, AML::Byte binaryop) BAN::Optional<bool> logical_compare(BAN::RefPtr<AML::Node> node, AML::Byte binaryop);
{
auto rhs = node ? node->as_integer() : BAN::RefPtr<AML::Integer>();
if (!rhs)
{
AML_ERROR("Integer logical compare RHS is not integer");
return {};
}
switch (binaryop) BAN::RefPtr<AML::Node> convert(uint8_t mask) override;
{ BAN::RefPtr<Node> copy() override;
case AML::Byte::LAndOp: return value && rhs->value; BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node> store_node) override;
case AML::Byte::LEqualOp: return value == rhs->value;
case AML::Byte::LGreaterOp: return value > rhs->value;
case AML::Byte::LLessOp: return value < rhs->value;
case AML::Byte::LOrOp: return value || rhs->value;
default:
ASSERT_NOT_REACHED();
}
}
BAN::RefPtr<AML::Integer> as_integer() override { return this; } static ParseResult parse(BAN::ConstByteSpan& aml_data);
BAN::RefPtr<Node> copy() override { return MUST(BAN::RefPtr<Integer>::create(value)); } void debug_print(int indent) const override;
BAN::RefPtr<AML::Node> evaluate() override
{
return this;
}
bool store(BAN::RefPtr<AML::Node> store_node) override
{
if (constant)
{
AML_ERROR("Cannot store to constant integer");
return false;
}
auto store_value = store_node->as_integer();
if (!store_value)
{
AML_ERROR("Cannot store non-integer to integer");
return false;
}
value = store_value->value;
return true;
}
static ParseResult parse(BAN::ConstByteSpan& aml_data)
{
switch (static_cast<AML::Byte>(aml_data[0]))
{
case AML::Byte::ZeroOp:
aml_data = aml_data.slice(1);
return ParseResult(Constants::Zero);
case AML::Byte::OneOp:
aml_data = aml_data.slice(1);
return ParseResult(Constants::One);
case AML::Byte::OnesOp:
aml_data = aml_data.slice(1);
return ParseResult(Constants::Ones);
case AML::Byte::BytePrefix:
{
if (aml_data.size() < 2)
return ParseResult::Failure;
const uint8_t value = aml_data[1];
aml_data = aml_data.slice(2);
return ParseResult(MUST(BAN::RefPtr<Integer>::create(value)));
}
case AML::Byte::WordPrefix:
{
if (aml_data.size() < 3)
return ParseResult::Failure;
uint16_t value = 0;
value |= aml_data[1] << 0;
value |= aml_data[2] << 8;
aml_data = aml_data.slice(3);
return ParseResult(MUST(BAN::RefPtr<Integer>::create(value)));
}
case AML::Byte::DWordPrefix:
{
if (aml_data.size() < 5)
return ParseResult::Failure;
uint32_t value = 0;
value |= static_cast<uint32_t>(aml_data[1]) << 0;
value |= static_cast<uint32_t>(aml_data[2]) << 8;
value |= static_cast<uint32_t>(aml_data[3]) << 16;
value |= static_cast<uint32_t>(aml_data[4]) << 24;
aml_data = aml_data.slice(5);
return ParseResult(MUST(BAN::RefPtr<Integer>::create(value)));
}
case AML::Byte::QWordPrefix:
{
if (aml_data.size() < 9)
return ParseResult::Failure;
uint64_t value = 0;
value |= static_cast<uint64_t>(aml_data[1]) << 0;
value |= static_cast<uint64_t>(aml_data[2]) << 8;
value |= static_cast<uint64_t>(aml_data[3]) << 16;
value |= static_cast<uint64_t>(aml_data[4]) << 24;
value |= static_cast<uint64_t>(aml_data[5]) << 32;
value |= static_cast<uint64_t>(aml_data[6]) << 40;
value |= static_cast<uint64_t>(aml_data[7]) << 48;
value |= static_cast<uint64_t>(aml_data[8]) << 56;
aml_data = aml_data.slice(9);
return ParseResult(MUST(BAN::RefPtr<Integer>::create(value)));
}
default:
ASSERT_NOT_REACHED();
}
}
void debug_print(int indent) const override
{
AML_DEBUG_PRINT_INDENT(indent);
if (!constant)
AML_DEBUG_PRINT("0x{H}", value);
else
{
AML_DEBUG_PRINT("Const ");
if (value == Constants::Zero->value)
AML_DEBUG_PRINT("Zero");
else if (value == Constants::One->value)
AML_DEBUG_PRINT("One");
else if (value == Constants::Ones->value)
AML_DEBUG_PRINT("Ones");
else
ASSERT_NOT_REACHED();
}
}
}; };
} }

View File

@ -3,14 +3,16 @@
#include <BAN/Function.h> #include <BAN/Function.h>
#include <kernel/ACPI/AML/Bytes.h> #include <kernel/ACPI/AML/Bytes.h>
#include <kernel/ACPI/AML/Namespace.h> #include <kernel/ACPI/AML/Namespace.h>
#include <kernel/ACPI/AML/Namespace.h>
#include <kernel/ACPI/AML/ParseContext.h> #include <kernel/ACPI/AML/ParseContext.h>
#include <kernel/ACPI/AML/Pkg.h> #include <kernel/ACPI/AML/Pkg.h>
#include <kernel/ACPI/AML/Register.h>
#include <kernel/ACPI/AML/Scope.h> #include <kernel/ACPI/AML/Scope.h>
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Method : public AML::Scope struct Method final : public AML::Scope
{ {
Kernel::Mutex mutex; Kernel::Mutex mutex;
uint8_t arg_count; uint8_t arg_count;
@ -27,6 +29,8 @@ namespace Kernel::ACPI::AML
, sync_level(sync_level) , sync_level(sync_level)
{} {}
BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
static ParseResult parse(AML::ParseContext& context) static ParseResult parse(AML::ParseContext& context)
{ {
ASSERT(context.aml_data.size() >= 1); ASSERT(context.aml_data.size() >= 1);
@ -142,8 +146,8 @@ namespace Kernel::ACPI::AML
} }
} }
if (return_value.has_value() && return_value.value()) if (return_value.has_value() && return_value.value() && return_value.value()->type == AML::Node::Type::Register)
return_value = return_value.value()->evaluate(); return_value.value() = static_cast<AML::Register*>(return_value.value().ptr())->value;
while (!context.created_objects.empty()) while (!context.created_objects.empty())
{ {

View File

@ -10,16 +10,20 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Mutex : public AML::NamedObject struct Mutex final : public AML::NamedObject
{ {
Kernel::Mutex mutex; Kernel::Mutex mutex;
uint8_t sync_level; uint8_t sync_level;
bool global;
Mutex(NameSeg name, uint8_t sync_level) Mutex(NameSeg name, uint8_t sync_level, bool global = false)
: NamedObject(Node::Type::Mutex, name) : NamedObject(Node::Type::Mutex, name)
, sync_level(sync_level) , sync_level(sync_level)
, global(global)
{} {}
BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
static ParseResult parse(ParseContext& context) static ParseResult parse(ParseContext& context)
{ {
ASSERT(context.aml_data.size() >= 2); ASSERT(context.aml_data.size() >= 2);
@ -71,7 +75,7 @@ namespace Kernel::ACPI::AML
auto mutex = MUST(BAN::RefPtr<Mutex>::create(name->path.back(), sync_level)); auto mutex = MUST(BAN::RefPtr<Mutex>::create(name->path.back(), sync_level));
if (!Namespace::root_namespace()->add_named_object(context, name.value(), mutex)) if (!Namespace::root_namespace()->add_named_object(context, name.value(), mutex))
return ParseResult::Failure; return ParseResult::Success;
#if AML_DEBUG_LEVEL >= 2 #if AML_DEBUG_LEVEL >= 2
mutex->debug_print(0); mutex->debug_print(0);

View File

@ -6,7 +6,7 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct NamedObject : public Node struct NamedObject : public AML::Node
{ {
BAN::RefPtr<NamedObject> parent; BAN::RefPtr<NamedObject> parent;
NameSeg name; NameSeg name;
@ -14,7 +14,7 @@ namespace Kernel::ACPI::AML
NamedObject(Node::Type type, NameSeg name) : Node(type), name(name) {} NamedObject(Node::Type type, NameSeg name) : Node(type), name(name) {}
}; };
struct Name : public NamedObject struct Name final : public AML::NamedObject
{ {
BAN::RefPtr<AML::Node> object; BAN::RefPtr<AML::Node> object;
@ -22,21 +22,19 @@ namespace Kernel::ACPI::AML
: NamedObject(Node::Type::Name, name), object(BAN::move(object)) : NamedObject(Node::Type::Name, name), object(BAN::move(object))
{} {}
BAN::RefPtr<AML::Buffer> as_buffer() override; BAN::RefPtr<AML::Node> to_underlying() override { return object; }
BAN::RefPtr<AML::Integer> as_integer() override;
BAN::RefPtr<AML::String> as_string() override;
BAN::RefPtr<AML::Node> evaluate() override BAN::RefPtr<AML::Node> convert(uint8_t mask) override
{ {
ASSERT(object); ASSERT(object);
return object->evaluate(); return object->convert(mask);
} }
bool store(BAN::RefPtr<AML::Node> node) override BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node> node) override
{ {
ASSERT(object); ASSERT(object);
object = node; ASSERT(object->type != AML::Node::Type::Reference);
return true; return object->store(node);
} }
static ParseResult parse(ParseContext& context); static ParseResult parse(ParseContext& context);

View File

@ -8,8 +8,9 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Namespace : public AML::Scope struct Namespace final : public AML::Scope
{ {
static BAN::RefPtr<AML::Namespace> create_root_namespace();
static BAN::RefPtr<AML::Namespace> root_namespace(); static BAN::RefPtr<AML::Namespace> root_namespace();
static BAN::RefPtr<AML::Node> debug_node; static BAN::RefPtr<AML::Node> debug_node;
@ -35,7 +36,8 @@ namespace Kernel::ACPI::AML
Namespace(NameSeg name) : AML::Scope(Node::Type::Namespace, name) {} Namespace(NameSeg name) : AML::Scope(Node::Type::Namespace, name) {}
static BAN::RefPtr<AML::Namespace> create_root_namespace(); BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
bool parse(const SDTHeader& header); bool parse(const SDTHeader& header);
void debug_print(int indent) const override; void debug_print(int indent) const override;

View File

@ -17,8 +17,18 @@ namespace Kernel::ACPI::AML
{ {
static uint64_t total_node_count; static uint64_t total_node_count;
enum class Type enum Conversion : uint8_t
{ {
ConvBuffer = 1 << 0,
ConvBufferField = 1 << 1,
ConvFieldUnit = 1 << 2,
ConvInteger = 1 << 3,
ConvString = 1 << 4,
};
enum class Type : uint8_t
{
None,
Alias, Alias,
BankFieldElement, BankFieldElement,
Buffer, Buffer,
@ -50,14 +60,10 @@ namespace Kernel::ACPI::AML
virtual bool is_scope() const { return false; } virtual bool is_scope() const { return false; }
virtual BAN::RefPtr<Node> copy() { return this; } [[nodiscard]] virtual BAN::RefPtr<AML::Node> to_underlying() { return this; }
[[nodiscard]] virtual BAN::RefPtr<AML::Node> convert(uint8_t mask) = 0;
[[nodiscard]] virtual BAN::RefPtr<AML::Buffer> as_buffer(); [[nodiscard]] virtual BAN::RefPtr<Node> copy() { return this; }
[[nodiscard]] virtual BAN::RefPtr<AML::Integer> as_integer(); [[nodiscard]] virtual BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node>) { AML_TODO("store, type {}", static_cast<uint8_t>(type)); return {}; }
[[nodiscard]] virtual BAN::RefPtr<AML::String> as_string();
[[nodiscard]] virtual BAN::RefPtr<AML::Node> evaluate() { AML_TODO("evaluate, type {}", static_cast<uint8_t>(type)); return nullptr; }
[[nodiscard]] virtual bool store(BAN::RefPtr<AML::Node>) { AML_TODO("store, type {}", static_cast<uint8_t>(type)); return false; }
virtual void debug_print(int indent) const = 0; virtual void debug_print(int indent) const = 0;
}; };
@ -73,6 +79,8 @@ namespace Kernel::ACPI::AML
Success, Success,
Failure, Failure,
Returned, Returned,
Breaked,
Continued,
}; };
ParseResult(Result success) ParseResult(Result success)
@ -91,6 +99,8 @@ namespace Kernel::ACPI::AML
bool success() const { return m_result == Result::Success; } bool success() const { return m_result == Result::Success; }
bool returned() const { return m_result == Result::Returned; } bool returned() const { return m_result == Result::Returned; }
bool breaked() const { return m_result == Result::Breaked; }
bool continued() const { return m_result == Result::Continued; }
BAN::RefPtr<Node> node() BAN::RefPtr<Node> node()
{ {

View File

@ -29,12 +29,13 @@ namespace Kernel::ACPI::AML
auto value_result = AML::parse_object(context); auto value_result = AML::parse_object(context);
if (!value_result.success()) if (!value_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto value = value_result.node() ? value_result.node()->as_integer() : BAN::RefPtr<AML::Integer>(); auto value_node = value_result.node() ? value_result.node()->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!value) if (!value_node)
{ {
AML_ERROR("Notify value is not an integer"); AML_ERROR("Notify value is not an integer");
return ParseResult::Failure; return ParseResult::Failure;
} }
const auto value = static_cast<AML::Integer*>(value_node.ptr())->value;
BAN::StringView object_type_sv; BAN::StringView object_type_sv;
BAN::StringView object_name_sv; BAN::StringView object_name_sv;
@ -58,7 +59,7 @@ namespace Kernel::ACPI::AML
break; break;
} }
AML_TODO("Notify: {} {}: {2H}", object_type_sv, object_name_sv, value->value); AML_TODO("Notify: {} {}: {2H}", object_type_sv, object_name_sv, value);
return ParseResult::Success; return ParseResult::Success;
} }
}; };

View File

@ -5,13 +5,14 @@
#include <kernel/ACPI/AML/Node.h> #include <kernel/ACPI/AML/Node.h>
#include <kernel/ACPI/AML/ParseContext.h> #include <kernel/ACPI/AML/ParseContext.h>
#include <kernel/ACPI/AML/Pkg.h> #include <kernel/ACPI/AML/Pkg.h>
#include <kernel/ACPI/AML/Reference.h>
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct PackageElement; struct PackageElement;
struct Package : public AML::Node struct Package final : public AML::Node
{ {
BAN::Vector<BAN::RefPtr<PackageElement>> elements; BAN::Vector<BAN::RefPtr<PackageElement>> elements;
AML::NameString scope; AML::NameString scope;
@ -22,16 +23,13 @@ namespace Kernel::ACPI::AML
, scope(scope) , scope(scope)
{} {}
BAN::RefPtr<AML::Node> evaluate() override BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
{
return this;
}
static ParseResult parse(AML::ParseContext& context); static ParseResult parse(AML::ParseContext& context);
virtual void debug_print(int indent) const override; virtual void debug_print(int indent) const override;
}; };
struct PackageElement : public AML::Node struct PackageElement final : public AML::Node
{ {
BAN::RefPtr<AML::Package> parent; BAN::RefPtr<AML::Package> parent;
BAN::RefPtr<AML::Node> element; BAN::RefPtr<AML::Node> element;
@ -82,7 +80,7 @@ namespace Kernel::ACPI::AML
return true; return true;
} }
bool store(BAN::RefPtr<AML::Node> node) override BAN::RefPtr<AML::Node> convert(uint8_t mask) override
{ {
if (!initialized) if (!initialized)
{ {
@ -91,34 +89,24 @@ namespace Kernel::ACPI::AML
} }
if (!resolved && !resolve()) if (!resolved && !resolve())
return {}; return {};
if (element->type == AML::Node::Type::Reference) return element->convert(mask);
return element->store(node);
element = node->copy();
return true;
} }
BAN::RefPtr<AML::Integer> as_integer() override BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node> node) override
{ {
if (!initialized) if (!initialized)
{ {
AML_ERROR("Trying to evaluate uninitialized PackageElement"); AML_ERROR("Trying to store into uninitialized PackageElement");
return {}; return {};
} }
if (!resolved && !resolve()) if (!resolved && !resolve())
return {}; return {};
return element->as_integer(); ASSERT(element->type != AML::Node::Type::Reference);
} if (node->type == AML::Node::Type::Reference)
element = static_cast<AML::Reference*>(element.ptr())->node;
BAN::RefPtr<AML::Node> evaluate() override else
{ element = element->copy();
if (!initialized) return element;
{
AML_ERROR("Trying to evaluate uninitialized PackageElement");
return {};
}
if (!resolved && !resolve())
return {};
return element->evaluate();
} }
static ParseResult parse(AML::ParseContext& context, BAN::RefPtr<AML::Package> package) static ParseResult parse(AML::ParseContext& context, BAN::RefPtr<AML::Package> package)

View File

@ -9,7 +9,7 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct PowerResource : public AML::Scope struct PowerResource final : public AML::Scope
{ {
uint8_t system_level; uint8_t system_level;
uint16_t resource_order; uint16_t resource_order;
@ -20,6 +20,8 @@ namespace Kernel::ACPI::AML
, resource_order(resource_order) , resource_order(resource_order)
{} {}
BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
static ParseResult parse(ParseContext& context) static ParseResult parse(ParseContext& context)
{ {
ASSERT(context.aml_data.size() >= 2); ASSERT(context.aml_data.size() >= 2);

View File

@ -9,7 +9,7 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Processor : public AML::Scope struct Processor final : public AML::Scope
{ {
uint8_t id; uint8_t id;
uint32_t pblk_addr; uint32_t pblk_addr;
@ -22,6 +22,8 @@ namespace Kernel::ACPI::AML
, pblk_len(pblk_len) , pblk_len(pblk_len)
{} {}
BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
static ParseResult parse(ParseContext& context) static ParseResult parse(ParseContext& context)
{ {
ASSERT(context.aml_data.size() >= 2); ASSERT(context.aml_data.size() >= 2);
@ -55,7 +57,7 @@ namespace Kernel::ACPI::AML
auto processor = MUST(BAN::RefPtr<Processor>::create(name->path.back(), id, pblk_addr, pblk_len)); auto processor = MUST(BAN::RefPtr<Processor>::create(name->path.back(), id, pblk_addr, pblk_len));
if (!Namespace::root_namespace()->add_named_object(context, name.value(), processor)) if (!Namespace::root_namespace()->add_named_object(context, name.value(), processor))
return ParseResult::Failure; return ParseResult::Success;
#if AML_DEBUG_LEVEL >= 2 #if AML_DEBUG_LEVEL >= 2
processor->debug_print(0); processor->debug_print(0);

View File

@ -10,7 +10,7 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Reference : public AML::Node struct Reference final : public AML::Node
{ {
BAN::RefPtr<AML::Node> node; BAN::RefPtr<AML::Node> node;
@ -21,25 +21,15 @@ namespace Kernel::ACPI::AML
ASSERT(node); ASSERT(node);
} }
BAN::RefPtr<AML::Integer> as_integer() override BAN::RefPtr<AML::Node> convert(uint8_t mask) override
{ {
if (node) ASSERT(node);
return node->as_integer(); return node->convert(mask);
return {};
} }
BAN::RefPtr<AML::Node> evaluate() override BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node> value) override
{ {
return this; ASSERT(node);
}
bool store(BAN::RefPtr<AML::Node> value) override
{
if (!node)
{
AML_ERROR("Storing to null reference");
return false;
}
return node->store(value); return node->store(value);
} }
@ -81,6 +71,11 @@ namespace Kernel::ACPI::AML
object = parse_result.node(); object = parse_result.node();
} }
if (object && object->type == AML::Node::Type::Reference)
object = static_cast<AML::Reference*>(object.ptr())->node;
if (object && object->type == AML::Node::Type::Register)
object = static_cast<AML::Register*>(object.ptr())->value;
if (!conditional) if (!conditional)
{ {
if (!object) if (!object)
@ -96,18 +91,26 @@ namespace Kernel::ACPI::AML
return ParseResult(reference); return ParseResult(reference);
} }
if (context.aml_data.size() >= 1 && context.aml_data[0] != 0x00) if (context.aml_data.size() < 1)
{
AML_ERROR("CondRefOf missing target");
return ParseResult::Failure;
}
BAN::RefPtr<AML::Node> target_node;
if (context.aml_data[0] == 0x00)
context.aml_data = context.aml_data.slice(1);
else
{ {
auto target_result = AML::parse_object(context); auto target_result = AML::parse_object(context);
if (!target_result.success()) if (!target_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto target_node = target_result.node(); target_node = target_result.node();
if (!target_node) if (!target_node)
{ {
AML_ERROR("CondRefOf failed to resolve target"); AML_ERROR("CondRefOf failed to resolve target");
return ParseResult::Failure; return ParseResult::Failure;
} }
target_node->store(MUST(BAN::RefPtr<Reference>::create(object)));
} }
#if AML_DEBUG_LEVEL >= 2 #if AML_DEBUG_LEVEL >= 2
@ -119,8 +122,16 @@ namespace Kernel::ACPI::AML
AML_DEBUG_PRINTLN(""); AML_DEBUG_PRINTLN("");
#endif #endif
auto return_value = object ? Integer::Constants::Ones : Integer::Constants::Zero; if (!object)
return AML::ParseResult(return_value); return AML::ParseResult(Integer::Constants::Zero);
if (target_node && !target_node->store(object))
{
AML_ERROR("CondRefOf failed to store into target");
return ParseResult::Failure;
}
return AML::ParseResult(Integer::Constants::Ones);
} }
static ParseResult parse_dereference(ParseContext& context) static ParseResult parse_dereference(ParseContext& context)
@ -144,18 +155,20 @@ namespace Kernel::ACPI::AML
auto parse_result = AML::parse_object(context); auto parse_result = AML::parse_object(context);
if (!parse_result.success()) if (!parse_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto object = parse_result.node() ? parse_result.node()->evaluate() : BAN::RefPtr<AML::Node>(); auto node = parse_result.node();
if (!object || object->type != AML::Node::Type::Reference) if (node && node->type == AML::Node::Type::Register)
node = static_cast<AML::Register*>(node.ptr())->value;
if (!node || node->type != AML::Node::Type::Reference)
{ {
AML_TODO("DerefOf source is not a Reference, but a {}", object ? static_cast<uint8_t>(object->type) : 999); AML_TODO("DerefOf source is not a Reference, but a {}", node ? static_cast<uint8_t>(node->type) : 999);
return ParseResult::Failure; return ParseResult::Failure;
} }
#if AML_DEBUG_LEVEL >= 2 #if AML_DEBUG_LEVEL >= 2
AML_DEBUG_PRINT("DerefOf "); AML_DEBUG_PRINT("DerefOf ");
object->debug_print(0); node->debug_print(0);
AML_DEBUG_PRINTLN(""); AML_DEBUG_PRINTLN("");
#endif #endif
return ParseResult(static_cast<Reference*>(object.ptr())->node); return ParseResult(static_cast<Reference*>(node.ptr())->node);
} }
} }
@ -164,6 +177,7 @@ namespace Kernel::ACPI::AML
AML_DEBUG_PRINT_INDENT(indent); AML_DEBUG_PRINT_INDENT(indent);
AML_DEBUG_PRINTLN("Reference {"); AML_DEBUG_PRINTLN("Reference {");
node->debug_print(indent + 1); node->debug_print(indent + 1);
AML_DEBUG_PRINTLN("");
AML_DEBUG_PRINT_INDENT(indent); AML_DEBUG_PRINT_INDENT(indent);
AML_DEBUG_PRINT("}"); AML_DEBUG_PRINT("}");
} }

View File

@ -8,7 +8,7 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct OpRegion : public NamedObject struct OpRegion final : public AML::NamedObject
{ {
using RegionSpace = GAS::AddressSpaceID; using RegionSpace = GAS::AddressSpaceID;
RegionSpace region_space; RegionSpace region_space;
@ -24,6 +24,8 @@ namespace Kernel::ACPI::AML
, region_length(region_length) , region_length(region_length)
{} {}
BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
static ParseResult parse(AML::ParseContext& context) static ParseResult parse(AML::ParseContext& context)
{ {
ASSERT(context.aml_data.size() > 2); ASSERT(context.aml_data.size() > 2);
@ -43,8 +45,10 @@ namespace Kernel::ACPI::AML
auto offset_result = AML::parse_object(context); auto offset_result = AML::parse_object(context);
if (!offset_result.success()) if (!offset_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto offset = offset_result.node()->as_integer(); auto offset_node = offset_result.node()
if (!offset) ? offset_result.node()->convert(AML::Node::ConvInteger)
: BAN::RefPtr<AML::Node>();
if (!offset_node)
{ {
AML_ERROR("OpRegion offset must be an integer"); AML_ERROR("OpRegion offset must be an integer");
return ParseResult::Failure; return ParseResult::Failure;
@ -53,22 +57,27 @@ namespace Kernel::ACPI::AML
auto length_result = AML::parse_object(context); auto length_result = AML::parse_object(context);
if (!length_result.success()) if (!length_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto length = length_result.node()->as_integer(); auto length_node = length_result.node()
if (!length) ? length_result.node()->convert(AML::Node::ConvInteger)
: BAN::RefPtr<AML::Node>();
if (!length_node)
{ {
AML_ERROR("OpRegion length must be an integer"); AML_ERROR("OpRegion length must be an integer");
return ParseResult::Failure; return ParseResult::Failure;
} }
const auto offset = static_cast<AML::Integer*>(offset_node.ptr())->value;
const auto length = static_cast<AML::Integer*>(length_node.ptr())->value;
auto op_region = MUST(BAN::RefPtr<OpRegion>::create( auto op_region = MUST(BAN::RefPtr<OpRegion>::create(
name->path.back(), name->path.back(),
region_space, region_space,
offset->value, offset,
length->value length
)); ));
if (!Namespace::root_namespace()->add_named_object(context, name.value(), op_region)) if (!Namespace::root_namespace()->add_named_object(context, name.value(), op_region))
return ParseResult::Failure; return ParseResult::Success;
#if AML_DEBUG_LEVEL >= 2 #if AML_DEBUG_LEVEL >= 2
op_region->debug_print(0); op_region->debug_print(0);

View File

@ -5,58 +5,19 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct Register : public AML::Node struct Register final : public AML::Node
{ {
BAN::RefPtr<AML::Node> value; BAN::RefPtr<AML::Node> value;
Register() Register();
: Node(Node::Type::Register) Register(BAN::RefPtr<AML::Node> node);
{}
Register(BAN::RefPtr<AML::Node> value)
: Node(Node::Type::Register)
, value(value)
{}
BAN::RefPtr<AML::Buffer> as_buffer() override; BAN::RefPtr<AML::Node> to_underlying() override { return value; }
BAN::RefPtr<AML::Integer> as_integer() override;
BAN::RefPtr<AML::String> as_string() override;
BAN::RefPtr<AML::Node> evaluate() override BAN::RefPtr<AML::Node> convert(uint8_t mask) override;
{ BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node> source) override;
if (value)
return value->evaluate();
return {};
}
bool store(BAN::RefPtr<AML::Node> source) override void debug_print(int indent) const override;
{
if (value && value->type == AML::Node::Type::Reference)
return value->store(source);
auto evaluated = source->evaluate();
if (!evaluated)
{
AML_ERROR("Failed to evaluate source for store");
return false;
}
value = evaluated->copy();
return true;
}
void debug_print(int indent) const override
{
AML_DEBUG_PRINT_INDENT(indent);
if (!value)
AML_DEBUG_PRINT("Register { No value }");
else
{
AML_DEBUG_PRINTLN("Register { ");
value->debug_print(indent + 1);
AML_DEBUG_PRINTLN("");
AML_DEBUG_PRINT_INDENT(indent);
AML_DEBUG_PRINT(" }");
}
}
}; };
} }

View File

@ -21,30 +21,36 @@ namespace Kernel::ACPI::AML
auto object_result = AML::parse_object(context); auto object_result = AML::parse_object(context);
if (!object_result.success()) if (!object_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto object = object_result.node()->evaluate(); auto object_node = object_result.node();
if (object && object->type == AML::Node::Type::Reference) if (object_node && object_node->type == AML::Node::Type::Register)
object = static_cast<AML::Reference*>(object.ptr())->node->evaluate(); object_node = static_cast<AML::Register*>(object_node.ptr())->value;
if (!object) if (!object_node)
{ {
AML_ERROR("SizeOf object is null"); AML_ERROR("SizeOf object is null");
return ParseResult::Failure; return ParseResult::Failure;
} }
if (object_node->type != AML::Node::Type::Package)
object_node = object_node->convert(AML::Node::ConvBuffer | AML::Node::ConvString);
if (!object_node)
{
AML_ERROR("SizeOf object is not Buffer, String or Package");
return ParseResult::Failure;
}
uint64_t size = 0; uint64_t size = 0;
switch (object->type) switch (object_node->type)
{ {
case AML::Node::Type::Buffer: case AML::Node::Type::Buffer:
size = static_cast<AML::Buffer*>(object.ptr())->buffer.size(); size = static_cast<AML::Buffer*>(object_node.ptr())->buffer.size();
break; break;
case AML::Node::Type::String: case AML::Node::Type::String:
size = static_cast<AML::String*>(object.ptr())->string.size(); size = static_cast<AML::String*>(object_node.ptr())->string.size();
break; break;
case AML::Node::Type::Package: case AML::Node::Type::Package:
size = static_cast<AML::Package*>(object.ptr())->elements.size(); size = static_cast<AML::Package*>(object_node.ptr())->elements.size();
break; break;
default: default:
AML_ERROR("SizeOf object is not a buffer, string or package ({})", static_cast<uint8_t>(object->type)); ASSERT_NOT_REACHED();
return ParseResult::Failure;
} }
return ParseResult(MUST(BAN::RefPtr<Integer>::create(size))); return ParseResult(MUST(BAN::RefPtr<Integer>::create(size)));

View File

@ -19,18 +19,22 @@ namespace Kernel::ACPI::AML
auto sleep_time_result = AML::parse_object(context); auto sleep_time_result = AML::parse_object(context);
if (!sleep_time_result.success()) if (!sleep_time_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto sleep_time = sleep_time_result.node() ? sleep_time_result.node()->as_integer() : BAN::RefPtr<AML::Integer>(); auto sleep_time_node = sleep_time_result.node()
if (!sleep_time) ? sleep_time_result.node()->convert(AML::Node::ConvInteger)
: BAN::RefPtr<AML::Node>();
if (!sleep_time_node)
{ {
AML_ERROR("Sleep time cannot be evaluated to an integer"); AML_ERROR("Sleep time cannot be evaluated to an integer");
return ParseResult::Failure; return ParseResult::Failure;
} }
const auto sleep_time_value = static_cast<AML::Integer*>(sleep_time_node.ptr())->value;
#if AML_DEBUG_LEVEL >= 2 #if AML_DEBUG_LEVEL >= 2
AML_DEBUG_PRINTLN("Sleeping for {} ms", sleep_time->value); AML_DEBUG_PRINTLN("Sleeping for {} ms", sleep_time_value);
#endif #endif
SystemTimer::get().sleep_ms(sleep_time->value); SystemTimer::get().sleep_ms(sleep_time_value);
return ParseResult::Success; return ParseResult::Success;
} }
}; };

View File

@ -17,10 +17,10 @@ namespace Kernel::ACPI::AML
auto source_result = AML::parse_object(context); auto source_result = AML::parse_object(context);
if (!source_result.success()) if (!source_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto source = source_result.node() ? source_result.node()->evaluate() : BAN::RefPtr<AML::Node>(); auto source = source_result.node();
if (!source) if (!source)
{ {
AML_ERROR("Store source cannot be evaluated"); AML_ERROR("Store source is null");
return ParseResult::Failure; return ParseResult::Failure;
} }
@ -44,9 +44,9 @@ namespace Kernel::ACPI::AML
AML_DEBUG_PRINTLN("}"); AML_DEBUG_PRINTLN("}");
#endif #endif
if (!destination->store(source)) if (auto stored = destination->store(source))
return ParseResult::Failure; return ParseResult(stored);
return ParseResult(destination); return ParseResult::Failure;
} }
}; };

View File

@ -7,7 +7,7 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct String : public AML::Node struct String final : public AML::Node
{ {
BAN::Vector<uint8_t> string; BAN::Vector<uint8_t> string;
@ -22,11 +22,31 @@ namespace Kernel::ACPI::AML
BAN::Optional<bool> logical_compare(BAN::RefPtr<AML::Node> node, AML::Byte binaryop); BAN::Optional<bool> logical_compare(BAN::RefPtr<AML::Node> node, AML::Byte binaryop);
BAN::RefPtr<AML::Buffer> as_buffer() override; BAN::RefPtr<AML::Node> convert(uint8_t mask) override;
BAN::RefPtr<AML::Node> evaluate() override BAN::RefPtr<AML::Node> copy() override
{ {
return this; auto new_string = MUST(BAN::RefPtr<AML::String>::create());
MUST(new_string->string.resize(this->string.size()));
for (size_t i = 0; i < this->string.size(); i++)
new_string->string[i] = this->string[i];
return new_string;
}
BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node> node) override
{
ASSERT(node);
auto conv_node = node->convert(AML::Node::ConvString);
if (!conv_node)
{
AML_ERROR("Could not convert to String");
return {};
}
auto* string_node = static_cast<AML::String*>(conv_node.ptr());
MUST(string.resize(string_node->string.size()));
for (size_t i = 0; i < string.size(); i++)
string[i] = string_node->string[i];
return string_node->copy();
} }
BAN::StringView string_view() const BAN::StringView string_view() const
@ -41,6 +61,9 @@ namespace Kernel::ACPI::AML
AML_DEBUG_PRINT_INDENT(indent); AML_DEBUG_PRINT_INDENT(indent);
AML_DEBUG_PRINT("String \"{}\"", string_view()); AML_DEBUG_PRINT("String \"{}\"", string_view());
} }
private:
BAN::RefPtr<AML::Buffer> as_buffer();
}; };
} }

View File

@ -9,12 +9,14 @@
namespace Kernel::ACPI::AML namespace Kernel::ACPI::AML
{ {
struct ThermalZone : public AML::Scope struct ThermalZone final : public AML::Scope
{ {
ThermalZone(NameSeg name) ThermalZone(NameSeg name)
: Scope(Node::Type::ThermalZone, name) : Scope(Node::Type::ThermalZone, name)
{} {}
BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
static ParseResult parse(ParseContext& context) static ParseResult parse(ParseContext& context)
{ {
ASSERT(context.aml_data.size() >= 2); ASSERT(context.aml_data.size() >= 2);
@ -33,7 +35,7 @@ namespace Kernel::ACPI::AML
auto thermal_zone = MUST(BAN::RefPtr<ThermalZone>::create(name->path.back())); auto thermal_zone = MUST(BAN::RefPtr<ThermalZone>::create(name->path.back()));
if (!Namespace::root_namespace()->add_named_object(context, name.value(), thermal_zone)) if (!Namespace::root_namespace()->add_named_object(context, name.value(), thermal_zone))
return ParseResult::Failure; return ParseResult::Success;
#if AML_DEBUG_LEVEL >= 2 #if AML_DEBUG_LEVEL >= 2
thermal_zone->debug_print(0); thermal_zone->debug_print(0);

View File

@ -12,9 +12,22 @@ namespace Kernel::ACPI::AML
static ParseResult parse(ParseContext& context) static ParseResult parse(ParseContext& context)
{ {
ASSERT(context.aml_data.size() >= 1); ASSERT(context.aml_data.size() >= 1);
ASSERT(static_cast<Byte>(context.aml_data[0]) == Byte::WhileOp);
AML::Byte opcode = static_cast<Byte>(context.aml_data[0]);
context.aml_data = context.aml_data.slice(1); context.aml_data = context.aml_data.slice(1);
switch (opcode)
{
case AML::Byte::BreakOp:
return ParseResult(ParseResult::Result::Breaked);
case AML::Byte::ContinueOp:
return ParseResult(ParseResult::Result::Continued);
case AML::Byte::WhileOp:
break;
default:
ASSERT_NOT_REACHED();
}
auto while_pkg = AML::parse_pkg(context.aml_data); auto while_pkg = AML::parse_pkg(context.aml_data);
if (!while_pkg.has_value()) if (!while_pkg.has_value())
return ParseResult::Failure; return ParseResult::Failure;
@ -29,28 +42,27 @@ namespace Kernel::ACPI::AML
auto predicate_result = AML::parse_object(context); auto predicate_result = AML::parse_object(context);
if (!predicate_result.success()) if (!predicate_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto predicate = predicate_result.node() ? predicate_result.node()->as_integer() : BAN::RefPtr<AML::Integer>(); auto predicate_node = predicate_result.node()
if (!predicate) ? predicate_result.node()->convert(AML::Node::ConvInteger)
: BAN::RefPtr<AML::Node>();
if (!predicate_node)
{ {
AML_ERROR("While predicate is not an integer"); AML_ERROR("While predicate is not an integer");
return ParseResult::Failure; return ParseResult::Failure;
} }
if (!predicate->value) if (!static_cast<AML::Integer*>(predicate_node.ptr())->value)
break; break;
while (context.aml_data.size() > 0) while (context.aml_data.size() > 0)
{ {
// NOTE: we can just parse BreakOp here, since this is the only legal place for BreakOp
if (static_cast<AML::Byte>(context.aml_data[0]) == AML::Byte::BreakOp)
{
context.aml_data = context.aml_data.slice(1);
breaked = true;
break;
}
auto object_result = AML::parse_object(context); auto object_result = AML::parse_object(context);
if (object_result.returned()) if (object_result.returned())
return ParseResult(ParseResult::Result::Returned, object_result.node()); return ParseResult(ParseResult::Result::Returned, object_result.node());
if (object_result.breaked())
breaked = true;
if (object_result.breaked() || object_result.continued())
break;
if (!object_result.success()) if (!object_result.success())
return ParseResult::Failure; return ParseResult::Failure;
} }

View File

@ -2,6 +2,7 @@
#include <BAN/StringView.h> #include <BAN/StringView.h>
#include <kernel/ACPI/ACPI.h> #include <kernel/ACPI/ACPI.h>
#include <kernel/ACPI/AML.h> #include <kernel/ACPI/AML.h>
#include <kernel/ACPI/AML/Alias.h>
#include <kernel/ACPI/AML/Device.h> #include <kernel/ACPI/AML/Device.h>
#include <kernel/ACPI/AML/Field.h> #include <kernel/ACPI/AML/Field.h>
#include <kernel/ACPI/AML/Integer.h> #include <kernel/ACPI/AML/Integer.h>
@ -144,10 +145,10 @@ acpi_release_global_lock:
auto field_element = MUST(BAN::RefPtr<AML::FieldElement>::create(""_sv, register_bit_offset, register_bit_width, field_rules)); auto field_element = MUST(BAN::RefPtr<AML::FieldElement>::create(""_sv, register_bit_offset, register_bit_width, field_rules));
field_element->op_region = op_region; field_element->op_region = op_region;
auto result = field_element->as_integer(); auto result = field_element->convert(AML::Node::ConvInteger);
if (!result) if (!result)
return {}; return {};
return result->value; return static_cast<AML::Integer*>(result.ptr())->value;
} }
bool GAS::write(uint64_t value) bool GAS::write(uint64_t value)
@ -168,7 +169,7 @@ acpi_release_global_lock:
auto field_element = MUST(BAN::RefPtr<AML::FieldElement>::create(""_sv, register_bit_offset, register_bit_width, field_rules)); auto field_element = MUST(BAN::RefPtr<AML::FieldElement>::create(""_sv, register_bit_offset, register_bit_width, field_rules));
field_element->op_region = op_region; field_element->op_region = op_region;
return field_element->store(MUST(BAN::RefPtr<AML::Integer>::create(value))); return !!field_element->store(MUST(BAN::RefPtr<AML::Integer>::create(value)));
} }
enum PM1Event : uint16_t enum PM1Event : uint16_t
@ -494,7 +495,25 @@ acpi_release_global_lock:
dwarnln("\\_S5 not found"); dwarnln("\\_S5 not found");
return; return;
} }
auto s5_evaluated = s5_object->evaluate(); BAN::RefPtr<AML::Node> s5_evaluated = s5_object;
while (true)
{
bool done = false;
switch (s5_evaluated->type)
{
case AML::Node::Type::Alias:
s5_evaluated = static_cast<AML::Alias*>(s5_evaluated.ptr())->target;
break;
case AML::Node::Type::Name:
s5_evaluated = static_cast<AML::Name*>(s5_evaluated.ptr())->object;
break;
default:
done = true;
break;
}
if (done)
break;
}
if (!s5_evaluated) if (!s5_evaluated)
{ {
dwarnln("Failed to evaluate \\_S5"); dwarnln("Failed to evaluate \\_S5");
@ -512,9 +531,9 @@ acpi_release_global_lock:
return; return;
} }
auto slp_typa = s5_package->elements[0]->as_integer(); auto slp_typa_node = s5_package->elements[0]->convert(AML::Node::ConvInteger);
auto slp_typb = s5_package->elements[1]->as_integer(); auto slp_typb_node = s5_package->elements[1]->convert(AML::Node::ConvInteger);
if (!slp_typa || !slp_typb) if (!slp_typa_node || !slp_typb_node)
{ {
dwarnln("Failed to get SLP_TYPx values"); dwarnln("Failed to get SLP_TYPx values");
return; return;
@ -525,9 +544,12 @@ acpi_release_global_lock:
dprintln("Entering sleep state S5"); dprintln("Entering sleep state S5");
const auto slp_typa_value = static_cast<AML::Integer*>(slp_typa_node.ptr())->value;
const auto slp_typb_value = static_cast<AML::Integer*>(slp_typb_node.ptr())->value;
uint16_t pm1a_data = IO::inw(fadt().pm1a_cnt_blk); uint16_t pm1a_data = IO::inw(fadt().pm1a_cnt_blk);
pm1a_data &= ~(PM1_CNT_SLP_TYP_MASK << PM1_CNT_SLP_TYP_SHIFT); pm1a_data &= ~(PM1_CNT_SLP_TYP_MASK << PM1_CNT_SLP_TYP_SHIFT);
pm1a_data |= (slp_typa->value & PM1_CNT_SLP_TYP_MASK) << PM1_CNT_SLP_TYP_SHIFT; pm1a_data |= (slp_typa_value & PM1_CNT_SLP_TYP_MASK) << PM1_CNT_SLP_TYP_SHIFT;
pm1a_data |= PM1_CNT_SLP_EN; pm1a_data |= PM1_CNT_SLP_EN;
IO::outw(fadt().pm1a_cnt_blk, pm1a_data); IO::outw(fadt().pm1a_cnt_blk, pm1a_data);
@ -535,7 +557,7 @@ acpi_release_global_lock:
{ {
uint16_t pm1b_data = IO::inw(fadt().pm1b_cnt_blk); uint16_t pm1b_data = IO::inw(fadt().pm1b_cnt_blk);
pm1b_data &= ~(PM1_CNT_SLP_TYP_MASK << PM1_CNT_SLP_TYP_SHIFT); pm1b_data &= ~(PM1_CNT_SLP_TYP_MASK << PM1_CNT_SLP_TYP_SHIFT);
pm1b_data |= (slp_typb->value & PM1_CNT_SLP_TYP_MASK) << PM1_CNT_SLP_TYP_SHIFT; pm1b_data |= (slp_typb_value & PM1_CNT_SLP_TYP_MASK) << PM1_CNT_SLP_TYP_SHIFT;
pm1b_data |= PM1_CNT_SLP_EN; pm1b_data |= PM1_CNT_SLP_EN;
IO::outw(fadt().pm1b_cnt_blk, pm1b_data); IO::outw(fadt().pm1b_cnt_blk, pm1b_data);
} }

View File

@ -492,13 +492,14 @@ namespace Kernel::ACPI
return MUST(BAN::RefPtr<Integer>::create(result.value())); return MUST(BAN::RefPtr<Integer>::create(result.value()));
} }
bool AML::FieldElement::store(BAN::RefPtr<AML::Node> source) BAN::RefPtr<AML::Node> AML::FieldElement::store(BAN::RefPtr<AML::Node> source)
{ {
auto source_integer = source->as_integer(); ASSERT(source);
auto source_integer = source->convert(AML::Node::ConvInteger);
if (!source_integer) if (!source_integer)
{ {
AML_TODO("FieldElement store with non-integer source, type {}", static_cast<uint8_t>(source->type)); AML_TODO("FieldElement store with non-integer source, type {}", static_cast<uint8_t>(source->type));
return false; return {};
} }
op_region->mutex.lock(); op_region->mutex.lock();
@ -510,7 +511,9 @@ namespace Kernel::ACPI
ACPI::release_global_lock(); ACPI::release_global_lock();
}); });
return store_internal(source_integer->value); if (!store_internal(static_cast<AML::Integer*>(source_integer.ptr())->value))
return {};
return source_integer;
} }
void AML::FieldElement::debug_print(int indent) const void AML::FieldElement::debug_print(int indent) const
@ -626,28 +629,30 @@ namespace Kernel::ACPI
return MUST(BAN::RefPtr<Integer>::create(result.value())); return MUST(BAN::RefPtr<Integer>::create(result.value()));
} }
bool AML::IndexFieldElement::store(BAN::RefPtr<Node> source) BAN::RefPtr<AML::Node> AML::IndexFieldElement::store(BAN::RefPtr<Node> source)
{ {
if (access_rules.access_attrib != FieldRules::AccessAttrib::Normal) if (access_rules.access_attrib != FieldRules::AccessAttrib::Normal)
{ {
AML_TODO("FieldElement with access attribute {}", static_cast<uint8_t>(access_rules.access_attrib)); AML_TODO("FieldElement with access attribute {}", static_cast<uint8_t>(access_rules.access_attrib));
return {}; return {};
} }
auto source_integer = source->as_integer();
ASSERT(source);
auto source_integer = source->convert(AML::Node::ConvInteger);
if (!source_integer) if (!source_integer)
{ {
AML_TODO("IndexFieldElement store with non-integer source, type {}", static_cast<uint8_t>(source->type)); AML_TODO("IndexFieldElement store with non-integer source, type {}", static_cast<uint8_t>(source->type));
return false; return {};
} }
auto access_size = determine_access_size(access_rules.access_type); auto access_size = determine_access_size(access_rules.access_type);
if (!access_size.has_value()) if (!access_size.has_value())
return false; return {};
if (access_size.value() > data_element->bit_count) if (access_size.value() > data_element->bit_count)
{ {
AML_ERROR("IndexFieldElement write_field with access size {} > data element bit count {}", access_size.value(), data_element->bit_count); AML_ERROR("IndexFieldElement write_field with access size {} > data element bit count {}", access_size.value(), data_element->bit_count);
return false; return {};
} }
auto read_func = [&](uint64_t byte_offset) -> BAN::Optional<uint64_t> { auto read_func = [&](uint64_t byte_offset) -> BAN::Optional<uint64_t> {
@ -657,7 +662,7 @@ namespace Kernel::ACPI
}; };
auto write_func = [&](uint64_t byte_offset, uint64_t value) -> bool { auto write_func = [&](uint64_t byte_offset, uint64_t value) -> bool {
if (!index_element->store_internal(byte_offset)) if (!index_element->store_internal(byte_offset))
return false; return {};
return data_element->store_internal(value); return data_element->store_internal(value);
}; };
@ -670,10 +675,10 @@ namespace Kernel::ACPI
ACPI::release_global_lock(); ACPI::release_global_lock();
}); });
if (!perform_write_general(0, bit_count, bit_offset, access_size.value(), source_integer->value, access_rules.update_rule, read_func, write_func)) const auto source_value = static_cast<AML::Integer*>(source_integer.ptr())->value;
return false; if (!perform_write_general(0, bit_count, bit_offset, access_size.value(), source_value, access_rules.update_rule, read_func, write_func))
return {};
return true; return source_integer;
} }
void AML::IndexFieldElement::debug_print(int indent) const void AML::IndexFieldElement::debug_print(int indent) const
@ -734,8 +739,8 @@ namespace Kernel::ACPI
context.aml_data = temp_aml_data; context.aml_data = temp_aml_data;
if (!bank_value_result.success()) if (!bank_value_result.success())
return ParseResult::Failure; return ParseResult::Failure;
auto bank_value = bank_value_result.node() ? bank_value_result.node()->as_integer() : BAN::RefPtr<AML::Integer>(); auto bank_value_node = bank_value_result.node() ? bank_value_result.node()->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!bank_value) if (!bank_value_node)
{ {
AML_ERROR("BankField BankValue is not an integer"); AML_ERROR("BankField BankValue is not an integer");
return ParseResult::Failure; return ParseResult::Failure;
@ -756,11 +761,12 @@ namespace Kernel::ACPI
if (!parse_field_element(field_context)) if (!parse_field_element(field_context))
return ParseResult::Failure; return ParseResult::Failure;
const auto bank_value = static_cast<AML::Integer*>(bank_value_node.ptr())->value;
for (auto& [_, element] : field_context.elements) for (auto& [_, element] : field_context.elements)
{ {
element->op_region = static_cast<OpRegion*>(op_region.ptr()); element->op_region = static_cast<OpRegion*>(op_region.ptr());
element->bank_selector = static_cast<FieldElement*>(bank_selector.ptr()); element->bank_selector = static_cast<FieldElement*>(bank_selector.ptr());
element->bank_value = bank_value->value; element->bank_value = bank_value;
NameString element_name; NameString element_name;
MUST(element_name.path.push_back(element->name)); MUST(element_name.path.push_back(element->name));
@ -776,7 +782,7 @@ namespace Kernel::ACPI
return ParseResult::Success; return ParseResult::Success;
} }
BAN::RefPtr<AML::Node> AML::BankFieldElement::evaluate() BAN::RefPtr<AML::Integer> AML::BankFieldElement::as_integer()
{ {
if (access_rules.access_attrib != FieldRules::AccessAttrib::Normal) if (access_rules.access_attrib != FieldRules::AccessAttrib::Normal)
{ {
@ -812,7 +818,7 @@ namespace Kernel::ACPI
return MUST(BAN::RefPtr<Integer>::create(result.value())); return MUST(BAN::RefPtr<Integer>::create(result.value()));
} }
bool AML::BankFieldElement::store(BAN::RefPtr<AML::Node> source) BAN::RefPtr<AML::Node> AML::BankFieldElement::store(BAN::RefPtr<AML::Node> source)
{ {
if (access_rules.access_attrib != FieldRules::AccessAttrib::Normal) if (access_rules.access_attrib != FieldRules::AccessAttrib::Normal)
{ {
@ -820,16 +826,17 @@ namespace Kernel::ACPI
return {}; return {};
} }
auto source_integer = source->as_integer(); ASSERT(source);
auto source_integer = source->convert(AML::Node::ConvInteger);
if (!source_integer) if (!source_integer)
{ {
AML_TODO("BankFieldElement store with non-integer source, type {}", static_cast<uint8_t>(source->type)); AML_TODO("BankFieldElement store with non-integer source, type {}", static_cast<uint8_t>(source->type));
return false; return {};
} }
auto access_size = determine_access_size(access_rules.access_type); auto access_size = determine_access_size(access_rules.access_type);
if (!access_size.has_value()) if (!access_size.has_value())
return false; return {};
auto read_func = [&](uint64_t byte_offset) -> BAN::Optional<uint64_t> { auto read_func = [&](uint64_t byte_offset) -> BAN::Optional<uint64_t> {
return perform_read(op_region->region_space, byte_offset, access_size.value()); return perform_read(op_region->region_space, byte_offset, access_size.value());
}; };
@ -852,7 +859,10 @@ namespace Kernel::ACPI
return {}; return {};
} }
return perform_write_general(op_region->region_offset, bit_count, bit_offset, access_size.value(), source_integer->value, access_rules.update_rule, read_func, write_func); const auto source_value = static_cast<AML::Integer*>(source_integer.ptr())->value;
if (!perform_write_general(op_region->region_offset, bit_count, bit_offset, access_size.value(), source_value, access_rules.update_rule, read_func, write_func))
return {};
return source_integer;
} }
void AML::BankFieldElement::debug_print(int indent) const void AML::BankFieldElement::debug_print(int indent) const

View File

@ -0,0 +1,180 @@
#include <kernel/ACPI/AML/Buffer.h>
#include <kernel/ACPI/AML/Integer.h>
#include <kernel/ACPI/AML/String.h>
namespace Kernel::ACPI
{
AML::Integer::Integer(uint64_t value, bool constant)
: Node(Node::Type::Integer)
, value(value)
, constant(constant)
{}
BAN::Optional<bool> AML::Integer::logical_compare(BAN::RefPtr<AML::Node> node, AML::Byte binaryop)
{
auto rhs_node = node ? node->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!rhs_node)
{
AML_ERROR("Integer logical compare RHS cannot be converted to");
return {};
}
const auto rhs_value = static_cast<AML::Integer*>(rhs_node.ptr())->value;
switch (binaryop)
{
case AML::Byte::LAndOp: return value && rhs_value;
case AML::Byte::LEqualOp: return value == rhs_value;
case AML::Byte::LGreaterOp: return value > rhs_value;
case AML::Byte::LLessOp: return value < rhs_value;
case AML::Byte::LOrOp: return value || rhs_value;
default:
ASSERT_NOT_REACHED();
}
}
BAN::RefPtr<AML::Node> AML::Integer::convert(uint8_t mask)
{
if (mask & AML::Node::ConvInteger)
return this;
if (mask & AML::Node::ConvBuffer)
{
auto buffer = MUST(BAN::RefPtr<AML::Buffer>::create());
MUST(buffer->buffer.resize(8));
for (size_t i = 0; i < 8; i++)
buffer->buffer[i] = (value >> (56 - i * 8)) & 0xFF;
return buffer;
}
if (mask & AML::Node::ConvBufferField)
{
AML_TODO("Convert Integer to BufferField");
return {};
}
if (mask & AML::Node::ConvFieldUnit)
{
AML_TODO("Convert Integer to FieldUnit");
return {};
}
if (mask & AML::Node::ConvString)
{
constexpr auto get_hex_char =
[](uint8_t nibble)
{
return (nibble < 10 ? '0' : 'A' - 10) + nibble;
};
auto string = MUST(BAN::RefPtr<AML::String>::create());
MUST(string->string.resize(16));
for (size_t i = 0; i < 16; i++)
string->string[i] = get_hex_char((value >> (60 - i * 4)) & 0xF);
return string;
}
return {};
}
BAN::RefPtr<AML::Node> AML::Integer::copy()
{
return MUST(BAN::RefPtr<Integer>::create(value));
}
BAN::RefPtr<AML::Node> AML::Integer::store(BAN::RefPtr<AML::Node> store_node)
{
if (constant)
{
AML_ERROR("Cannot store to constant integer");
return {};
}
auto conv_node = store_node ? store_node->convert(AML::Node::ConvInteger) : BAN::RefPtr<AML::Node>();
if (!conv_node)
{
AML_ERROR("Cannot store non-integer to integer");
return {};
}
value = static_cast<AML::Integer*>(conv_node.ptr())->value;
return MUST(BAN::RefPtr<AML::Integer>::create(value));
}
AML::ParseResult AML::Integer::parse(BAN::ConstByteSpan& aml_data)
{
switch (static_cast<AML::Byte>(aml_data[0]))
{
case AML::Byte::ZeroOp:
aml_data = aml_data.slice(1);
return ParseResult(Constants::Zero);
case AML::Byte::OneOp:
aml_data = aml_data.slice(1);
return ParseResult(Constants::One);
case AML::Byte::OnesOp:
aml_data = aml_data.slice(1);
return ParseResult(Constants::Ones);
case AML::Byte::BytePrefix:
{
if (aml_data.size() < 2)
return ParseResult::Failure;
const uint8_t value = aml_data[1];
aml_data = aml_data.slice(2);
return ParseResult(MUST(BAN::RefPtr<Integer>::create(value)));
}
case AML::Byte::WordPrefix:
{
if (aml_data.size() < 3)
return ParseResult::Failure;
uint16_t value = 0;
value |= aml_data[1] << 0;
value |= aml_data[2] << 8;
aml_data = aml_data.slice(3);
return ParseResult(MUST(BAN::RefPtr<Integer>::create(value)));
}
case AML::Byte::DWordPrefix:
{
if (aml_data.size() < 5)
return ParseResult::Failure;
uint32_t value = 0;
value |= static_cast<uint32_t>(aml_data[1]) << 0;
value |= static_cast<uint32_t>(aml_data[2]) << 8;
value |= static_cast<uint32_t>(aml_data[3]) << 16;
value |= static_cast<uint32_t>(aml_data[4]) << 24;
aml_data = aml_data.slice(5);
return ParseResult(MUST(BAN::RefPtr<Integer>::create(value)));
}
case AML::Byte::QWordPrefix:
{
if (aml_data.size() < 9)
return ParseResult::Failure;
uint64_t value = 0;
value |= static_cast<uint64_t>(aml_data[1]) << 0;
value |= static_cast<uint64_t>(aml_data[2]) << 8;
value |= static_cast<uint64_t>(aml_data[3]) << 16;
value |= static_cast<uint64_t>(aml_data[4]) << 24;
value |= static_cast<uint64_t>(aml_data[5]) << 32;
value |= static_cast<uint64_t>(aml_data[6]) << 40;
value |= static_cast<uint64_t>(aml_data[7]) << 48;
value |= static_cast<uint64_t>(aml_data[8]) << 56;
aml_data = aml_data.slice(9);
return ParseResult(MUST(BAN::RefPtr<Integer>::create(value)));
}
default:
ASSERT_NOT_REACHED();
}
}
void AML::Integer::debug_print(int indent) const
{
AML_DEBUG_PRINT_INDENT(indent);
if (!constant)
AML_DEBUG_PRINT("0x{H}", value);
else
{
AML_DEBUG_PRINT("Const ");
if (value == Constants::Zero->value)
AML_DEBUG_PRINT("Zero");
else if (value == Constants::One->value)
AML_DEBUG_PRINT("One");
else if (value == Constants::Ones->value)
AML_DEBUG_PRINT("Ones");
else
ASSERT_NOT_REACHED();
}
}
}

View File

@ -7,24 +7,6 @@
namespace Kernel::ACPI namespace Kernel::ACPI
{ {
BAN::RefPtr<AML::Buffer> AML::Name::as_buffer()
{
ASSERT(object);
return object->as_buffer();
}
BAN::RefPtr<AML::Integer> AML::Name::as_integer()
{
ASSERT(object);
return object->as_integer();
}
BAN::RefPtr<AML::String> AML::Name::as_string()
{
ASSERT(object);
return object->as_string();
}
AML::ParseResult AML::Name::parse(ParseContext& context) AML::ParseResult AML::Name::parse(ParseContext& context)
{ {
ASSERT(context.aml_data.size() >= 1); ASSERT(context.aml_data.size() >= 1);

View File

@ -1,6 +1,7 @@
#include <kernel/ACPI/AML/Device.h> #include <kernel/ACPI/AML/Device.h>
#include <kernel/ACPI/AML/Integer.h> #include <kernel/ACPI/AML/Integer.h>
#include <kernel/ACPI/AML/Method.h> #include <kernel/ACPI/AML/Method.h>
#include <kernel/ACPI/AML/Mutex.h>
#include <kernel/ACPI/AML/Namespace.h> #include <kernel/ACPI/AML/Namespace.h>
#include <kernel/ACPI/AML/ParseContext.h> #include <kernel/ACPI/AML/ParseContext.h>
#include <kernel/ACPI/AML/Region.h> #include <kernel/ACPI/AML/Region.h>
@ -20,11 +21,12 @@ namespace Kernel::ACPI
struct DebugNode : AML::Node struct DebugNode : AML::Node
{ {
DebugNode() : AML::Node(AML::Node::Type::Debug) {} DebugNode() : AML::Node(AML::Node::Type::Debug) {}
bool store(BAN::RefPtr<AML::Node> node) BAN::RefPtr<AML::Node> convert(uint8_t) override { return {}; }
BAN::RefPtr<AML::Node> store(BAN::RefPtr<AML::Node> node)
{ {
node->debug_print(0); node->debug_print(0);
AML_DEBUG_PRINTLN(""); AML_DEBUG_PRINTLN("");
return true; return node;
} }
void debug_print(int indent) const override void debug_print(int indent) const override
{ {
@ -232,11 +234,14 @@ namespace Kernel::ACPI
ADD_PREDEFIED_NAMESPACE("_TZ"_sv); ADD_PREDEFIED_NAMESPACE("_TZ"_sv);
#undef ADD_PREDEFIED_NAMESPACE #undef ADD_PREDEFIED_NAMESPACE
auto gl = MUST(BAN::RefPtr<AML::Mutex>::create(NameSeg("_GL"_sv), 0, true));
ASSERT(s_root_namespace->add_named_object(context, AML::NameString("\\_GL"), gl));
// Add \_OSI that returns true for Linux compatibility // Add \_OSI that returns true for Linux compatibility
auto osi = MUST(BAN::RefPtr<AML::Method>::create(NameSeg("_OSI"_sv), 1, false, 0)); auto osi = MUST(BAN::RefPtr<AML::Method>::create(NameSeg("_OSI"_sv), 1, false, 0));
osi->override_function = [](AML::ParseContext& context) -> BAN::RefPtr<AML::Node> { osi->override_function = [](AML::ParseContext& context) -> BAN::RefPtr<AML::Node> {
ASSERT(context.method_args[0]); ASSERT(context.method_args[0]);
auto arg = context.method_args[0]->evaluate(); auto arg = context.method_args[0]->convert(AML::Node::ConvString);
if (!arg || arg->type != AML::Node::Type::String) if (!arg || arg->type != AML::Node::Type::String)
{ {
AML_ERROR("Invalid _OSI argument"); AML_ERROR("Invalid _OSI argument");

View File

@ -1,6 +1,8 @@
#include <kernel/ACPI/AML/Alias.h> #include <kernel/ACPI/AML/Alias.h>
#include <kernel/ACPI/AML/Buffer.h> #include <kernel/ACPI/AML/Buffer.h>
#include <kernel/ACPI/AML/Bytes.h> #include <kernel/ACPI/AML/Bytes.h>
#include <kernel/ACPI/AML/Conversion.h>
#include <kernel/ACPI/AML/CopyObject.h>
#include <kernel/ACPI/AML/Device.h> #include <kernel/ACPI/AML/Device.h>
#include <kernel/ACPI/AML/Expression.h> #include <kernel/ACPI/AML/Expression.h>
#include <kernel/ACPI/AML/Event.h> #include <kernel/ACPI/AML/Event.h>
@ -35,24 +37,6 @@ namespace Kernel::ACPI
uint64_t AML::Node::total_node_count = 0; uint64_t AML::Node::total_node_count = 0;
BAN::RefPtr<AML::Buffer> AML::Node::as_buffer()
{
AML_TODO("Node type {} to buffer", static_cast<uint32_t>(type));
return {};
}
BAN::RefPtr<AML::Integer> AML::Node::as_integer()
{
AML_TODO("Node type {} to integer", static_cast<uint32_t>(type));
return {};
}
BAN::RefPtr<AML::String> AML::Node::as_string()
{
AML_TODO("Node type {} to string", static_cast<uint32_t>(type));
return {};
}
AML::ParseResult AML::parse_object(AML::ParseContext& context) AML::ParseResult AML::parse_object(AML::ParseContext& context)
{ {
if (context.aml_data.size() < 1) if (context.aml_data.size() < 1)
@ -166,6 +150,10 @@ namespace Kernel::ACPI
case AML::Byte::SubtractOp: case AML::Byte::SubtractOp:
case AML::Byte::XorOp: case AML::Byte::XorOp:
return AML::Expression::parse(context); return AML::Expression::parse(context);
case AML::Byte::ToBufferOp:
case AML::Byte::ToIntegerOp:
case AML::Byte::ToStringOp:
return AML::Conversion::parse(context);
case AML::Byte::CreateBitFieldOp: case AML::Byte::CreateBitFieldOp:
case AML::Byte::CreateByteFieldOp: case AML::Byte::CreateByteFieldOp:
case AML::Byte::CreateWordFieldOp: case AML::Byte::CreateWordFieldOp:
@ -186,10 +174,14 @@ namespace Kernel::ACPI
return AML::Scope::parse(context); return AML::Scope::parse(context);
case AML::Byte::IfOp: case AML::Byte::IfOp:
return AML::IfElse::parse(context); return AML::IfElse::parse(context);
case AML::Byte::BreakOp:
case AML::Byte::ContinueOp:
case AML::Byte::WhileOp: case AML::Byte::WhileOp:
return AML::While::parse(context); return AML::While::parse(context);
case AML::Byte::StoreOp: case AML::Byte::StoreOp:
return AML::Store::parse(context); return AML::Store::parse(context);
case AML::Byte::CopyObjectOp:
return AML::CopyObject::parse(context);
case AML::Byte::DerefOfOp: case AML::Byte::DerefOfOp:
case AML::Byte::RefOfOp: case AML::Byte::RefOfOp:
return AML::Reference::parse(context); return AML::Reference::parse(context);
@ -199,6 +191,7 @@ namespace Kernel::ACPI
return AML::Notify::parse(context); return AML::Notify::parse(context);
case AML::Byte::SizeOfOp: case AML::Byte::SizeOfOp:
return AML::SizeOf::parse(context); return AML::SizeOf::parse(context);
case AML::Byte::BreakPointOp: // TODO: support breakpoints?
case AML::Byte::NoopOp: case AML::Byte::NoopOp:
context.aml_data = context.aml_data.slice(1); context.aml_data = context.aml_data.slice(1);
return ParseResult::Success; return ParseResult::Success;
@ -229,42 +222,47 @@ namespace Kernel::ACPI
AML_ERROR("NameString {} not found in namespace", name_string.value()); AML_ERROR("NameString {} not found in namespace", name_string.value());
return ParseResult::Failure; return ParseResult::Failure;
} }
if (aml_object->type == AML::Node::Type::Method)
auto underlying = aml_object->to_underlying();
if (aml_object->type != AML::Node::Type::Method && underlying->type != AML::Node::Type::Method)
return ParseResult(aml_object);
auto* method = static_cast<AML::Method*>(
aml_object->type == AML::Node::Type::Method
? aml_object.ptr()
: underlying.ptr()
);
BAN::Array<BAN::RefPtr<AML::Node>, 7> args;
for (uint8_t i = 0; i < method->arg_count; i++)
{ {
auto* method = static_cast<AML::Method*>(aml_object.ptr()); auto arg_result = AML::parse_object(context);
if (!arg_result.success() || !arg_result.node())
BAN::Array<BAN::RefPtr<AML::Node>, 7> args;
for (uint8_t i = 0; i < method->arg_count; i++)
{ {
auto arg = AML::parse_object(context); AML_ERROR("Failed to parse argument {} for method {}", i, name_string.value());
if (!arg.success())
{
AML_ERROR("Failed to parse argument {} for method {}", i, name_string.value());
return ParseResult::Failure;
}
args[i] = MUST(BAN::RefPtr<AML::Register>::create(arg.node()));
}
auto result = method->invoke_with_sync_stack(
context.sync_stack,
args[0],
args[1],
args[2],
args[3],
args[4],
args[5],
args[6]
);
if (!result.has_value())
{
AML_ERROR("Failed to evaluate {}", name_string.value());
return ParseResult::Failure; return ParseResult::Failure;
} }
if (!result.value()) args[i] = arg_result.node();
return ParseResult::Success;
return ParseResult(result.value());
} }
return ParseResult(aml_object);
auto result = method->invoke_with_sync_stack(
context.sync_stack,
args[0],
args[1],
args[2],
args[3],
args[4],
args[5],
args[6]
);
if (!result.has_value())
{
AML_ERROR("Failed to evaluate {}", name_string.value());
return ParseResult::Failure;
}
if (!result.value())
return ParseResult::Success;
return ParseResult(result.value());
} }
AML_TODO("{2H}", context.aml_data[0]); AML_TODO("{2H}", context.aml_data[0]);

View File

@ -1,30 +1,71 @@
#include <kernel/ACPI/AML/Buffer.h> #include <kernel/ACPI/AML/Reference.h>
#include <kernel/ACPI/AML/Integer.h>
#include <kernel/ACPI/AML/Register.h> #include <kernel/ACPI/AML/Register.h>
#include <kernel/ACPI/AML/String.h>
namespace Kernel::ACPI::AML namespace Kernel::ACPI
{ {
BAN::RefPtr<AML::Buffer> Register::as_buffer() AML::Register::Register()
: Node(Node::Type::Register)
{}
AML::Register::Register(BAN::RefPtr<AML::Node> node)
: Node(Node::Type::Register)
{ {
if (value) if (!node)
return value->as_buffer(); {
return {}; value = node;
return;
}
while (node)
{
if (node->type == AML::Node::Type::Reference)
node = static_cast<AML::Reference*>(node.ptr())->node;
else if (node->type != AML::Node::Type::Buffer && node->type != AML::Node::Type::Package)
node = node->copy();
if (node->type == AML::Node::Type::Register)
{
node = static_cast<AML::Register*>(node.ptr())->value;
continue;
}
break;
}
ASSERT(node);
value = node;
} }
BAN::RefPtr<AML::Integer> Register::as_integer() BAN::RefPtr<AML::Node> AML::Register::convert(uint8_t mask)
{ {
if (value) if (!value)
return value->as_integer(); {
return {}; AML_ERROR("Trying to convert null Register");
return {};
}
return value->convert(mask);
} }
BAN::RefPtr<AML::String> Register::as_string() BAN::RefPtr<AML::Node> AML::Register::store(BAN::RefPtr<AML::Node> source)
{ {
if (value) if (source && source->type == AML::Node::Type::Register)
return value->as_string(); source = static_cast<AML::Register*>(source.ptr())->value;
return {}; if (value && value->type == AML::Node::Type::Reference)
return value->store(source);
value = source->copy();
return value;
}
void AML::Register::debug_print(int indent) const
{
AML_DEBUG_PRINT_INDENT(indent);
if (!value)
AML_DEBUG_PRINT("Register { No value }");
else
{
AML_DEBUG_PRINTLN("Register { ");
value->debug_print(indent + 1);
AML_DEBUG_PRINTLN("");
AML_DEBUG_PRINT_INDENT(indent);
AML_DEBUG_PRINT(" }");
}
} }
} }

View File

@ -25,7 +25,7 @@ namespace Kernel::ACPI
auto named_object = Namespace::root_namespace()->find_object(context.scope, name_string.value(), Namespace::FindMode::Normal); auto named_object = Namespace::root_namespace()->find_object(context.scope, name_string.value(), Namespace::FindMode::Normal);
if (!named_object) if (!named_object)
{ {
AML_DEBUG_PRINT("Scope '{}' not found in namespace", name_string.value()); AML_PRINT("Scope '{}' not found in namespace", name_string.value());
return ParseResult::Success; return ParseResult::Success;
} }
if (!named_object->is_scope()) if (!named_object->is_scope())
@ -69,7 +69,12 @@ namespace Kernel::ACPI
static BAN::RefPtr<AML::Integer> evaluate_or_invoke(BAN::RefPtr<AML::Node> object) static BAN::RefPtr<AML::Integer> evaluate_or_invoke(BAN::RefPtr<AML::Node> object)
{ {
if (object->type != AML::Node::Type::Method) if (object->type != AML::Node::Type::Method)
return object->as_integer(); {
auto converted = object->convert(AML::Node::ConvInteger);
if (!converted)
return {};
return static_cast<AML::Integer*>(converted.ptr());
}
auto* method = static_cast<AML::Method*>(object.ptr()); auto* method = static_cast<AML::Method*>(object.ptr());
if (method->arg_count != 0) if (method->arg_count != 0)
@ -85,7 +90,10 @@ namespace Kernel::ACPI
return {}; return {};
} }
return result.value() ? result.value()->as_integer() : BAN::RefPtr<AML::Integer>(); auto result_integer = result.value()
? result.value()->convert(AML::Node::ConvInteger)
: BAN::RefPtr<AML::Node>();
return static_cast<AML::Integer*>(result_integer.ptr());
} }
bool AML::initialize_scope(BAN::RefPtr<AML::Scope> scope) bool AML::initialize_scope(BAN::RefPtr<AML::Scope> scope)

View File

@ -6,7 +6,7 @@ namespace Kernel::ACPI::AML
BAN::Optional<bool> String::logical_compare(BAN::RefPtr<AML::Node> node, AML::Byte binaryop) BAN::Optional<bool> String::logical_compare(BAN::RefPtr<AML::Node> node, AML::Byte binaryop)
{ {
auto rhs = node ? node->as_string() : BAN::RefPtr<AML::String>(); auto rhs = node ? node->convert(AML::Node::ConvString) : BAN::RefPtr<AML::Node>();
if (!rhs) if (!rhs)
{ {
AML_ERROR("String logical compare RHS is not string"); AML_ERROR("String logical compare RHS is not string");
@ -27,6 +27,23 @@ namespace Kernel::ACPI::AML
return buffer; return buffer;
} }
BAN::RefPtr<AML::Node> String::convert(uint8_t mask)
{
if (mask & AML::Node::ConvString)
return this;
if (mask & AML::Node::ConvInteger)
{
// Apparently this is what NT does, but its definitely not spec compliant :D
uint64_t value = 0;
const size_t bytes = BAN::Math::min<size_t>(string.size(), sizeof(value));
memcpy(&value, string.data(), bytes);
return MUST(BAN::RefPtr<AML::Integer>::create(value));
}
if (mask & AML::Node::ConvBuffer)
return as_buffer();
return {};
}
ParseResult String::parse(ParseContext& context) ParseResult String::parse(ParseContext& context)
{ {
ASSERT(context.aml_data.size() >= 1); ASSERT(context.aml_data.size() >= 1);