RenderScriptRuntime.h
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//===-- RenderScriptRuntime.h -----------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#ifndef liblldb_RenderScriptRuntime_h_
#define liblldb_RenderScriptRuntime_h_
#include <array>
#include <map>
#include <memory>
#include <string>
#include <vector>
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringRef.h"
#include "lldb/Core/Module.h"
#include "lldb/Expression/LLVMUserExpression.h"
#include "lldb/Target/LanguageRuntime.h"
#include "lldb/lldb-private.h"
#include "Plugins/LanguageRuntime/CPlusPlus/CPPLanguageRuntime.h"
namespace lldb_private {
namespace lldb_renderscript {
typedef uint32_t RSSlot;
class RSModuleDescriptor;
struct RSGlobalDescriptor;
struct RSKernelDescriptor;
struct RSReductionDescriptor;
struct RSScriptGroupDescriptor;
typedef std::shared_ptr<RSModuleDescriptor> RSModuleDescriptorSP;
typedef std::shared_ptr<RSGlobalDescriptor> RSGlobalDescriptorSP;
typedef std::shared_ptr<RSKernelDescriptor> RSKernelDescriptorSP;
typedef std::shared_ptr<RSScriptGroupDescriptor> RSScriptGroupDescriptorSP;
struct RSCoordinate {
uint32_t x, y, z;
RSCoordinate() : x(), y(), z(){};
bool operator==(const lldb_renderscript::RSCoordinate &rhs) {
return x == rhs.x && y == rhs.y && z == rhs.z;
}
};
// Breakpoint Resolvers decide where a breakpoint is placed, so having our own
// allows us to limit the search scope to RS kernel modules. As well as check
// for .expand kernels as a fallback.
class RSBreakpointResolver : public BreakpointResolver {
public:
RSBreakpointResolver(Breakpoint *bp, ConstString name)
: BreakpointResolver(bp, BreakpointResolver::NameResolver),
m_kernel_name(name) {}
void GetDescription(Stream *strm) override {
if (strm)
strm->Printf("RenderScript kernel breakpoint for '%s'",
m_kernel_name.AsCString());
}
void Dump(Stream *s) const override {}
Searcher::CallbackReturn SearchCallback(SearchFilter &filter,
SymbolContext &context,
Address *addr) override;
lldb::SearchDepth GetDepth() override { return lldb::eSearchDepthModule; }
lldb::BreakpointResolverSP
CopyForBreakpoint(Breakpoint &breakpoint) override {
lldb::BreakpointResolverSP ret_sp(
new RSBreakpointResolver(&breakpoint, m_kernel_name));
return ret_sp;
}
protected:
ConstString m_kernel_name;
};
class RSReduceBreakpointResolver : public BreakpointResolver {
public:
enum ReduceKernelTypeFlags {
eKernelTypeAll = ~(0),
eKernelTypeNone = 0,
eKernelTypeAccum = (1 << 0),
eKernelTypeInit = (1 << 1),
eKernelTypeComb = (1 << 2),
eKernelTypeOutC = (1 << 3),
eKernelTypeHalter = (1 << 4)
};
RSReduceBreakpointResolver(
Breakpoint *breakpoint, ConstString reduce_name,
std::vector<lldb_renderscript::RSModuleDescriptorSP> *rs_modules,
int kernel_types = eKernelTypeAll)
: BreakpointResolver(breakpoint, BreakpointResolver::NameResolver),
m_reduce_name(reduce_name), m_rsmodules(rs_modules),
m_kernel_types(kernel_types) {
// The reduce breakpoint resolver handles adding breakpoints for named
// reductions.
// Breakpoints will be resolved for all constituent kernels in the named
// reduction
}
void GetDescription(Stream *strm) override {
if (strm)
strm->Printf("RenderScript reduce breakpoint for '%s'",
m_reduce_name.AsCString());
}
void Dump(Stream *s) const override {}
Searcher::CallbackReturn SearchCallback(SearchFilter &filter,
SymbolContext &context,
Address *addr) override;
lldb::SearchDepth GetDepth() override { return lldb::eSearchDepthModule; }
lldb::BreakpointResolverSP
CopyForBreakpoint(Breakpoint &breakpoint) override {
lldb::BreakpointResolverSP ret_sp(new RSReduceBreakpointResolver(
&breakpoint, m_reduce_name, m_rsmodules, m_kernel_types));
return ret_sp;
}
private:
ConstString m_reduce_name; // The name of the reduction
std::vector<lldb_renderscript::RSModuleDescriptorSP> *m_rsmodules;
int m_kernel_types;
};
struct RSKernelDescriptor {
public:
RSKernelDescriptor(const RSModuleDescriptor *module, llvm::StringRef name,
uint32_t slot)
: m_module(module), m_name(name), m_slot(slot) {}
void Dump(Stream &strm) const;
const RSModuleDescriptor *m_module;
ConstString m_name;
RSSlot m_slot;
};
struct RSGlobalDescriptor {
public:
RSGlobalDescriptor(const RSModuleDescriptor *module, llvm::StringRef name)
: m_module(module), m_name(name) {}
void Dump(Stream &strm) const;
const RSModuleDescriptor *m_module;
ConstString m_name;
};
struct RSReductionDescriptor {
RSReductionDescriptor(const RSModuleDescriptor *module, uint32_t sig,
uint32_t accum_data_size, llvm::StringRef name,
llvm::StringRef init_name, llvm::StringRef accum_name,
llvm::StringRef comb_name, llvm::StringRef outc_name,
llvm::StringRef halter_name = ".")
: m_module(module), m_reduce_name(name), m_init_name(init_name),
m_accum_name(accum_name), m_comb_name(comb_name),
m_outc_name(outc_name), m_halter_name(halter_name) {
// TODO Check whether the combiner is an autogenerated name, and track
// this
}
void Dump(Stream &strm) const;
const RSModuleDescriptor *m_module;
ConstString m_reduce_name; // This is the name given to the general reduction
// as a group as passed to pragma
// reduce(m_reduce_name). There is no kernel function with this name
ConstString m_init_name; // The name of the initializer name. "." if no
// initializer given
ConstString m_accum_name; // The accumulator function name. "." if not given
ConstString m_comb_name; // The name of the combiner function. If this was not
// given, a name is generated by the
// compiler. TODO
ConstString m_outc_name; // The name of the outconverter
ConstString m_halter_name; // The name of the halter function. XXX This is not
// yet specified by the RenderScript
// compiler or runtime, and its semantics and existence is still under
// discussion by the
// RenderScript Contributors
RSSlot m_accum_sig; // metatdata signature for this reduction (bitwise mask of
// type information (see
// libbcc/include/bcinfo/MetadataExtractor.h
uint32_t m_accum_data_size; // Data size of the accumulator function input
bool m_comb_name_generated; // Was the combiner name generated by the compiler
};
class RSModuleDescriptor {
std::string m_slang_version;
std::string m_bcc_version;
bool ParseVersionInfo(llvm::StringRef *, size_t n_lines);
bool ParseExportForeachCount(llvm::StringRef *, size_t n_lines);
bool ParseExportVarCount(llvm::StringRef *, size_t n_lines);
bool ParseExportReduceCount(llvm::StringRef *, size_t n_lines);
bool ParseBuildChecksum(llvm::StringRef *, size_t n_lines);
bool ParsePragmaCount(llvm::StringRef *, size_t n_lines);
public:
RSModuleDescriptor(const lldb::ModuleSP &module) : m_module(module) {}
~RSModuleDescriptor() = default;
bool ParseRSInfo();
void Dump(Stream &strm) const;
void WarnIfVersionMismatch(Stream *s) const;
const lldb::ModuleSP m_module;
std::vector<RSKernelDescriptor> m_kernels;
std::vector<RSGlobalDescriptor> m_globals;
std::vector<RSReductionDescriptor> m_reductions;
std::map<std::string, std::string> m_pragmas;
std::string m_resname;
};
struct RSScriptGroupDescriptor {
struct Kernel {
ConstString m_name;
lldb::addr_t m_addr;
};
ConstString m_name;
std::vector<Kernel> m_kernels;
};
typedef std::vector<RSScriptGroupDescriptorSP> RSScriptGroupList;
class RSScriptGroupBreakpointResolver : public BreakpointResolver {
public:
RSScriptGroupBreakpointResolver(Breakpoint *bp, ConstString name,
const RSScriptGroupList &groups,
bool stop_on_all)
: BreakpointResolver(bp, BreakpointResolver::NameResolver),
m_group_name(name), m_script_groups(groups),
m_stop_on_all(stop_on_all) {}
void GetDescription(Stream *strm) override {
if (strm)
strm->Printf("RenderScript ScriptGroup breakpoint for '%s'",
m_group_name.AsCString());
}
void Dump(Stream *s) const override {}
Searcher::CallbackReturn SearchCallback(SearchFilter &filter,
SymbolContext &context,
Address *addr) override;
lldb::SearchDepth GetDepth() override { return lldb::eSearchDepthModule; }
lldb::BreakpointResolverSP
CopyForBreakpoint(Breakpoint &breakpoint) override {
lldb::BreakpointResolverSP ret_sp(new RSScriptGroupBreakpointResolver(
&breakpoint, m_group_name, m_script_groups, m_stop_on_all));
return ret_sp;
}
protected:
const RSScriptGroupDescriptorSP
FindScriptGroup(ConstString name) const {
for (auto sg : m_script_groups) {
if (ConstString::Compare(sg->m_name, name) == 0)
return sg;
}
return RSScriptGroupDescriptorSP();
}
ConstString m_group_name;
const RSScriptGroupList &m_script_groups;
bool m_stop_on_all;
};
} // namespace lldb_renderscript
class RenderScriptRuntime : public lldb_private::CPPLanguageRuntime {
public:
enum ModuleKind {
eModuleKindIgnored,
eModuleKindLibRS,
eModuleKindDriver,
eModuleKindImpl,
eModuleKindKernelObj
};
~RenderScriptRuntime() override;
// Static Functions
static void Initialize();
static void Terminate();
static lldb_private::LanguageRuntime *
CreateInstance(Process *process, lldb::LanguageType language);
static lldb::CommandObjectSP
GetCommandObject(CommandInterpreter &interpreter);
static lldb_private::ConstString GetPluginNameStatic();
static char ID;
bool isA(const void *ClassID) const override {
return ClassID == &ID || CPPLanguageRuntime::isA(ClassID);
}
static bool classof(const LanguageRuntime *runtime) {
return runtime->isA(&ID);
}
static bool IsRenderScriptModule(const lldb::ModuleSP &module_sp);
static ModuleKind GetModuleKind(const lldb::ModuleSP &module_sp);
static void ModulesDidLoad(const lldb::ProcessSP &process_sp,
const ModuleList &module_list);
bool GetDynamicTypeAndAddress(ValueObject &in_value,
lldb::DynamicValueType use_dynamic,
TypeAndOrName &class_type_or_name,
Address &address,
Value::ValueType &value_type) override;
TypeAndOrName FixUpDynamicType(const TypeAndOrName &type_and_or_name,
ValueObject &static_value) override;
bool CouldHaveDynamicValue(ValueObject &in_value) override;
lldb::BreakpointResolverSP CreateExceptionResolver(Breakpoint *bp,
bool catch_bp,
bool throw_bp) override;
bool LoadModule(const lldb::ModuleSP &module_sp);
void DumpModules(Stream &strm) const;
void DumpContexts(Stream &strm) const;
void DumpKernels(Stream &strm) const;
bool DumpAllocation(Stream &strm, StackFrame *frame_ptr, const uint32_t id);
void ListAllocations(Stream &strm, StackFrame *frame_ptr,
const uint32_t index);
bool RecomputeAllAllocations(Stream &strm, StackFrame *frame_ptr);
bool PlaceBreakpointOnKernel(
lldb::TargetSP target, Stream &messages, const char *name,
const lldb_renderscript::RSCoordinate *coords = nullptr);
bool PlaceBreakpointOnReduction(
lldb::TargetSP target, Stream &messages, const char *reduce_name,
const lldb_renderscript::RSCoordinate *coords = nullptr,
int kernel_types = ~(0));
bool PlaceBreakpointOnScriptGroup(lldb::TargetSP target, Stream &strm,
ConstString name, bool stop_on_all);
void SetBreakAllKernels(bool do_break, lldb::TargetSP target);
void DumpStatus(Stream &strm) const;
void ModulesDidLoad(const ModuleList &module_list) override;
bool LoadAllocation(Stream &strm, const uint32_t alloc_id,
const char *filename, StackFrame *frame_ptr);
bool SaveAllocation(Stream &strm, const uint32_t alloc_id,
const char *filename, StackFrame *frame_ptr);
void Update();
void Initiate();
const lldb_renderscript::RSScriptGroupList &GetScriptGroups() const {
return m_scriptGroups;
};
bool IsKnownKernel(ConstString name) {
for (const auto &module : m_rsmodules)
for (const auto &kernel : module->m_kernels)
if (kernel.m_name == name)
return true;
return false;
}
// PluginInterface protocol
lldb_private::ConstString GetPluginName() override;
uint32_t GetPluginVersion() override;
static bool GetKernelCoordinate(lldb_renderscript::RSCoordinate &coord,
Thread *thread_ptr);
bool ResolveKernelName(lldb::addr_t kernel_address, ConstString &name);
protected:
struct ScriptDetails;
struct AllocationDetails;
struct Element;
lldb_renderscript::RSScriptGroupList m_scriptGroups;
void InitSearchFilter(lldb::TargetSP target) {
if (!m_filtersp)
m_filtersp.reset(new SearchFilterForUnconstrainedSearches(target));
}
void FixupScriptDetails(lldb_renderscript::RSModuleDescriptorSP rsmodule_sp);
void LoadRuntimeHooks(lldb::ModuleSP module, ModuleKind kind);
bool RefreshAllocation(AllocationDetails *alloc, StackFrame *frame_ptr);
bool EvalRSExpression(const char *expression, StackFrame *frame_ptr,
uint64_t *result);
lldb::BreakpointSP CreateScriptGroupBreakpoint(ConstString name,
bool multi);
lldb::BreakpointSP CreateKernelBreakpoint(ConstString name);
lldb::BreakpointSP CreateReductionBreakpoint(ConstString name,
int kernel_types);
void BreakOnModuleKernels(
const lldb_renderscript::RSModuleDescriptorSP rsmodule_sp);
struct RuntimeHook;
typedef void (RenderScriptRuntime::*CaptureStateFn)(
RuntimeHook *hook_info,
ExecutionContext &context); // Please do this!
struct HookDefn {
const char *name;
const char *symbol_name_m32; // mangled name for the 32 bit architectures
const char *symbol_name_m64; // mangled name for the 64 bit archs
uint32_t version;
ModuleKind kind;
CaptureStateFn grabber;
};
struct RuntimeHook {
lldb::addr_t address;
const HookDefn *defn;
lldb::BreakpointSP bp_sp;
};
typedef std::shared_ptr<RuntimeHook> RuntimeHookSP;
lldb::ModuleSP m_libRS;
lldb::ModuleSP m_libRSDriver;
lldb::ModuleSP m_libRSCpuRef;
std::vector<lldb_renderscript::RSModuleDescriptorSP> m_rsmodules;
std::vector<std::unique_ptr<ScriptDetails>> m_scripts;
std::vector<std::unique_ptr<AllocationDetails>> m_allocations;
std::map<lldb::addr_t, lldb_renderscript::RSModuleDescriptorSP>
m_scriptMappings;
std::map<lldb::addr_t, RuntimeHookSP> m_runtimeHooks;
std::map<lldb::user_id_t, std::unique_ptr<lldb_renderscript::RSCoordinate>>
m_conditional_breaks;
lldb::SearchFilterSP
m_filtersp; // Needed to create breakpoints through Target API
bool m_initiated;
bool m_debuggerPresentFlagged;
bool m_breakAllKernels;
static const HookDefn s_runtimeHookDefns[];
static const size_t s_runtimeHookCount;
LLVMUserExpression::IRPasses *m_ir_passes;
private:
RenderScriptRuntime(Process *process); // Call CreateInstance instead.
static bool HookCallback(void *baton, StoppointCallbackContext *ctx,
lldb::user_id_t break_id,
lldb::user_id_t break_loc_id);
static bool KernelBreakpointHit(void *baton, StoppointCallbackContext *ctx,
lldb::user_id_t break_id,
lldb::user_id_t break_loc_id);
void HookCallback(RuntimeHook *hook_info, ExecutionContext &context);
// Callback function when 'debugHintScriptGroup2' executes on the target.
void CaptureDebugHintScriptGroup2(RuntimeHook *hook_info,
ExecutionContext &context);
void CaptureScriptInit(RuntimeHook *hook_info, ExecutionContext &context);
void CaptureAllocationInit(RuntimeHook *hook_info, ExecutionContext &context);
void CaptureAllocationDestroy(RuntimeHook *hook_info,
ExecutionContext &context);
void CaptureSetGlobalVar(RuntimeHook *hook_info, ExecutionContext &context);
void CaptureScriptInvokeForEachMulti(RuntimeHook *hook_info,
ExecutionContext &context);
AllocationDetails *FindAllocByID(Stream &strm, const uint32_t alloc_id);
std::shared_ptr<uint8_t> GetAllocationData(AllocationDetails *alloc,
StackFrame *frame_ptr);
void SetElementSize(Element &elem);
static bool GetFrameVarAsUnsigned(const lldb::StackFrameSP,
const char *var_name, uint64_t &val);
void FindStructTypeName(Element &elem, StackFrame *frame_ptr);
size_t PopulateElementHeaders(const std::shared_ptr<uint8_t> header_buffer,
size_t offset, const Element &elem);
size_t CalculateElementHeaderSize(const Element &elem);
void SetConditional(lldb::BreakpointSP bp, lldb_private::Stream &messages,
const lldb_renderscript::RSCoordinate &coord);
//
// Helper functions for jitting the runtime
//
bool JITDataPointer(AllocationDetails *alloc, StackFrame *frame_ptr,
uint32_t x = 0, uint32_t y = 0, uint32_t z = 0);
bool JITTypePointer(AllocationDetails *alloc, StackFrame *frame_ptr);
bool JITTypePacked(AllocationDetails *alloc, StackFrame *frame_ptr);
bool JITElementPacked(Element &elem, const lldb::addr_t context,
StackFrame *frame_ptr);
bool JITAllocationSize(AllocationDetails *alloc, StackFrame *frame_ptr);
bool JITSubelements(Element &elem, const lldb::addr_t context,
StackFrame *frame_ptr);
bool JITAllocationStride(AllocationDetails *alloc, StackFrame *frame_ptr);
// Search for a script detail object using a target address.
// If a script does not currently exist this function will return nullptr.
// If 'create' is true and there is no previous script with this address,
// then a new Script detail object will be created for this address and
// returned.
ScriptDetails *LookUpScript(lldb::addr_t address, bool create);
// Search for a previously saved allocation detail object using a target
// address.
// If an allocation does not exist for this address then nullptr will be
// returned.
AllocationDetails *LookUpAllocation(lldb::addr_t address);
// Creates a new allocation with the specified address assigning a new ID and
// removes
// any previous stored allocation which has the same address.
AllocationDetails *CreateAllocation(lldb::addr_t address);
bool GetOverrideExprOptions(clang::TargetOptions &prototype) override;
bool GetIRPasses(LLVMUserExpression::IRPasses &passes) override;
};
} // namespace lldb_private
#endif // liblldb_RenderScriptRuntime_h_