Server IP : 66.29.132.122 / Your IP : 3.137.185.66 Web Server : LiteSpeed System : Linux business142.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64 User : admazpex ( 531) PHP Version : 7.2.34 Disable Function : NONE MySQL : OFF | cURL : ON | WGET : ON | Perl : ON | Python : ON | Sudo : OFF | Pkexec : OFF Directory : /proc/self/root/proc/self/root/proc/thread-self/root/proc/thread-self/root/proc/self/root/proc/thread-self/root/proc/self/root/proc/self/root/proc/self/root/proc/self/root/opt/alt/ruby33/share/ruby/ruby_vm/rjit/ |
Upload File : |
module RubyVM::RJIT # Maximum number of temp value types we keep track of MAX_TEMP_TYPES = 8 # Maximum number of local variable types we keep track of MAX_LOCAL_TYPES = 8 # Operand to a YARV bytecode instruction SelfOpnd = :SelfOpnd # The value is self StackOpnd = Data.define(:index) # Temporary stack operand with stack index # Potential mapping of a value on the temporary stack to self, # a local variable, or constant so that we can track its type MapToStack = :MapToStack # Normal stack value MapToSelf = :MapToSelf # Temp maps to the self operand MapToLocal = Data.define(:local_index) # Temp maps to a local variable with index class Context < Struct.new( :stack_size, # @param [Integer] The number of values on the stack :sp_offset, # @param [Integer] JIT sp offset relative to the interpreter's sp :chain_depth, # @param [Integer] jit_chain_guard depth :local_types, # @param [Array<RubyVM::RJIT::Type>] Local variable types we keep track of :temp_types, # @param [Array<RubyVM::RJIT::Type>] Temporary variable types we keep track of :self_type, # @param [RubyVM::RJIT::Type] Type we track for self :temp_mapping, # @param [Array<Symbol>] Mapping of temp stack entries to types we track ) def initialize( stack_size: 0, sp_offset: 0, chain_depth: 0, local_types: [Type::Unknown] * MAX_LOCAL_TYPES, temp_types: [Type::Unknown] * MAX_TEMP_TYPES, self_type: Type::Unknown, temp_mapping: [MapToStack] * MAX_TEMP_TYPES ) = super # Deep dup by default for safety def dup ctx = super ctx.local_types = ctx.local_types.dup ctx.temp_types = ctx.temp_types.dup ctx.temp_mapping = ctx.temp_mapping.dup ctx end # Create a new Context instance with a given stack_size and sp_offset adjusted # accordingly. This is useful when you want to virtually rewind a stack_size for # generating a side exit while considering past sp_offset changes on gen_save_sp. def with_stack_size(stack_size) ctx = self.dup ctx.sp_offset -= ctx.stack_size - stack_size ctx.stack_size = stack_size ctx end def stack_opnd(depth_from_top) [SP, C.VALUE.size * (self.sp_offset - 1 - depth_from_top)] end def sp_opnd(offset_bytes = 0) [SP, (C.VALUE.size * self.sp_offset) + offset_bytes] end # Push one new value on the temp stack with an explicit mapping # Return a pointer to the new stack top def stack_push_mapping(mapping_temp_type) stack_size = self.stack_size # Keep track of the type and mapping of the value if stack_size < MAX_TEMP_TYPES mapping, temp_type = mapping_temp_type self.temp_mapping[stack_size] = mapping self.temp_types[stack_size] = temp_type case mapping in MapToLocal[idx] assert(idx < MAX_LOCAL_TYPES) else end end self.stack_size += 1 self.sp_offset += 1 return self.stack_opnd(0) end # Push one new value on the temp stack # Return a pointer to the new stack top def stack_push(val_type) return self.stack_push_mapping([MapToStack, val_type]) end # Push the self value on the stack def stack_push_self return self.stack_push_mapping([MapToStack, Type::Unknown]) end # Push a local variable on the stack def stack_push_local(local_idx) if local_idx >= MAX_LOCAL_TYPES return self.stack_push(Type::Unknown) end return self.stack_push_mapping([MapToLocal[local_idx], Type::Unknown]) end # Pop N values off the stack # Return a pointer to the stack top before the pop operation def stack_pop(n = 1) assert(n <= self.stack_size) top = self.stack_opnd(0) # Clear the types of the popped values n.times do |i| idx = self.stack_size - i - 1 if idx < MAX_TEMP_TYPES self.temp_types[idx] = Type::Unknown self.temp_mapping[idx] = MapToStack end end self.stack_size -= n self.sp_offset -= n return top end def shift_stack(argc) assert(argc < self.stack_size) method_name_index = self.stack_size - argc - 1 (method_name_index...(self.stack_size - 1)).each do |i| if i + 1 < MAX_TEMP_TYPES self.temp_types[i] = self.temp_types[i + 1] self.temp_mapping[i] = self.temp_mapping[i + 1] end end self.stack_pop(1) end # Get the type of an instruction operand def get_opnd_type(opnd) case opnd in SelfOpnd self.self_type in StackOpnd[idx] assert(idx < self.stack_size) stack_idx = self.stack_size - 1 - idx # If outside of tracked range, do nothing if stack_idx >= MAX_TEMP_TYPES return Type::Unknown end mapping = self.temp_mapping[stack_idx] case mapping in MapToSelf self.self_type in MapToStack self.temp_types[self.stack_size - 1 - idx] in MapToLocal[idx] assert(idx < MAX_LOCAL_TYPES) self.local_types[idx] end end end # Get the currently tracked type for a local variable def get_local_type(idx) self.local_types[idx] || Type::Unknown end # Upgrade (or "learn") the type of an instruction operand # This value must be compatible and at least as specific as the previously known type. # If this value originated from self, or an lvar, the learned type will be # propagated back to its source. def upgrade_opnd_type(opnd, opnd_type) case opnd in SelfOpnd self.self_type = self.self_type.upgrade(opnd_type) in StackOpnd[idx] assert(idx < self.stack_size) stack_idx = self.stack_size - 1 - idx # If outside of tracked range, do nothing if stack_idx >= MAX_TEMP_TYPES return end mapping = self.temp_mapping[stack_idx] case mapping in MapToSelf self.self_type = self.self_type.upgrade(opnd_type) in MapToStack self.temp_types[stack_idx] = self.temp_types[stack_idx].upgrade(opnd_type) in MapToLocal[idx] assert(idx < MAX_LOCAL_TYPES) self.local_types[idx] = self.local_types[idx].upgrade(opnd_type) end end end # Get both the type and mapping (where the value originates) of an operand. # This is can be used with stack_push_mapping or set_opnd_mapping to copy # a stack value's type while maintaining the mapping. def get_opnd_mapping(opnd) opnd_type = self.get_opnd_type(opnd) case opnd in SelfOpnd return [MapToSelf, opnd_type] in StackOpnd[idx] assert(idx < self.stack_size) stack_idx = self.stack_size - 1 - idx if stack_idx < MAX_TEMP_TYPES return [self.temp_mapping[stack_idx], opnd_type] else # We can't know the source of this stack operand, so we assume it is # a stack-only temporary. type will be UNKNOWN assert(opnd_type == Type::Unknown) return [MapToStack, opnd_type] end end end # Overwrite both the type and mapping of a stack operand. def set_opnd_mapping(opnd, mapping_opnd_type) case opnd in SelfOpnd raise 'self always maps to self' in StackOpnd[idx] assert(idx < self.stack_size) stack_idx = self.stack_size - 1 - idx # If outside of tracked range, do nothing if stack_idx >= MAX_TEMP_TYPES return end mapping, opnd_type = mapping_opnd_type self.temp_mapping[stack_idx] = mapping # Only used when mapping == MAP_STACK self.temp_types[stack_idx] = opnd_type end end # Set the type of a local variable def set_local_type(local_idx, local_type) if local_idx >= MAX_LOCAL_TYPES return end # If any values on the stack map to this local we must detach them MAX_TEMP_TYPES.times do |stack_idx| case self.temp_mapping[stack_idx] in MapToStack # noop in MapToSelf # noop in MapToLocal[idx] if idx == local_idx self.temp_types[stack_idx] = self.local_types[idx] self.temp_mapping[stack_idx] = MapToStack else # noop end end end self.local_types[local_idx] = local_type end # Erase local variable type information # eg: because of a call we can't track def clear_local_types # When clearing local types we must detach any stack mappings to those # locals. Even if local values may have changed, stack values will not. MAX_TEMP_TYPES.times do |stack_idx| case self.temp_mapping[stack_idx] in MapToStack # noop in MapToSelf # noop in MapToLocal[local_idx] self.temp_types[stack_idx] = self.local_types[local_idx] self.temp_mapping[stack_idx] = MapToStack end end # Clear the local types self.local_types = [Type::Unknown] * MAX_LOCAL_TYPES end # Compute a difference score for two context objects def diff(dst) # Self is the source context (at the end of the predecessor) src = self # Can only lookup the first version in the chain if dst.chain_depth != 0 return TypeDiff::Incompatible end # Blocks with depth > 0 always produce new versions # Sidechains cannot overlap if src.chain_depth != 0 return TypeDiff::Incompatible end if dst.stack_size != src.stack_size return TypeDiff::Incompatible end if dst.sp_offset != src.sp_offset return TypeDiff::Incompatible end # Difference sum diff = 0 # Check the type of self diff += case src.self_type.diff(dst.self_type) in TypeDiff::Compatible[diff] then diff in TypeDiff::Incompatible then return TypeDiff::Incompatible end # For each local type we track src.local_types.size.times do |i| t_src = src.local_types[i] t_dst = dst.local_types[i] diff += case t_src.diff(t_dst) in TypeDiff::Compatible[diff] then diff in TypeDiff::Incompatible then return TypeDiff::Incompatible end end # For each value on the temp stack src.stack_size.times do |i| src_mapping, src_type = src.get_opnd_mapping(StackOpnd[i]) dst_mapping, dst_type = dst.get_opnd_mapping(StackOpnd[i]) # If the two mappings aren't the same if src_mapping != dst_mapping if dst_mapping == MapToStack # We can safely drop information about the source of the temp # stack operand. diff += 1 else return TypeDiff::Incompatible end end diff += case src_type.diff(dst_type) in TypeDiff::Compatible[diff] then diff in TypeDiff::Incompatible then return TypeDiff::Incompatible end end return TypeDiff::Compatible[diff] end private def assert(cond) unless cond raise "'#{cond.inspect}' was not true" end end end end