/** * \file libyasm/bytecode.h * \brief YASM bytecode interface. * * \rcs * $Id$ * \endrcs * * \license * Copyright (C) 2001 Peter Johnson * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND OTHER CONTRIBUTORS ``AS IS'' * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR OTHER CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * \endlicense */ #ifndef YASM_BYTECODE_H #define YASM_BYTECODE_H /** An effective address. */ typedef struct yasm_effaddr yasm_effaddr; /** Callbacks for effective address implementations. */ typedef struct yasm_effaddr_callback { /** Destroy the effective address (freeing it). * \param ea effective address */ void (*destroy) (/*@only@*/ yasm_effaddr *ea); /** Print the effective address. * \param ea effective address * \param f file to output to * \param indent_level indentation level */ void (*print) (const yasm_effaddr *ea, FILE *f, int indent_level); } yasm_effaddr_callback; /** An effective address. */ struct yasm_effaddr { const yasm_effaddr_callback *callback; /**< callback functions */ yasm_value disp; /**< address displacement */ unsigned long segreg; /**< segment register override (0 if none) */ unsigned char need_nonzero_len; /**< 1 if length of disp must be >0. */ unsigned char need_disp; /**< 1 if a displacement should be present * in the output. */ unsigned char nosplit; /**< 1 if reg*2 should not be split into * reg+reg. (0 if not) */ unsigned char strong; /**< 1 if effective address is *definitely* * an effective address, e.g. in GAS if * expr(,1) form is used vs. just expr. */ }; /** An immediate value. */ typedef struct yasm_immval { yasm_value val; /**< the immediate value itself */ unsigned char sign; /**< 1 if final imm is treated as signed */ } yasm_immval; /** A data value (opaque type). */ typedef struct yasm_dataval yasm_dataval; /** A list of data values (opaque type). */ typedef struct yasm_datavalhead yasm_datavalhead; #ifdef YASM_LIB_INTERNAL /*@reldef@*/ STAILQ_HEAD(yasm_datavalhead, yasm_dataval); #endif /** Create an immediate value from an expression. * \param e expression (kept, do not free). * \return Newly allocated immediate value. */ /*@only@*/ yasm_immval *yasm_imm_create_expr(/*@keep@*/ yasm_expr *e); /** Get the displacement portion of an effective address. * \param ea effective address * \return Expression representing the displacement (read-only). */ /*@observer@*/ const yasm_expr *yasm_ea_get_disp(const yasm_effaddr *ea); /** Set the length of the displacement portion of an effective address. * The length is specified in bits. * \param ea effective address * \param len length in bits */ void yasm_ea_set_len(yasm_effaddr *ea, unsigned int len); /** Set/clear nosplit flag of an effective address. * The nosplit flag indicates (for architectures that support complex effective * addresses such as x86) if various types of complex effective addresses can * be split into different forms in order to minimize instruction length. * \param ea effective address * \param nosplit nosplit flag setting (0=splits allowed, nonzero=splits * not allowed) */ void yasm_ea_set_nosplit(yasm_effaddr *ea, unsigned int nosplit); /** Set/clear strong flag of an effective address. * The strong flag indicates if an effective address is *definitely* an * effective address. This is used in e.g. the GAS parser to differentiate * between "expr" (which might or might not be an effective address) and * "expr(,1)" (which is definitely an effective address). * \param ea effective address * \param strong strong flag setting (0=not strong, nonzero=strong) */ void yasm_ea_set_strong(yasm_effaddr *ea, unsigned int strong); /** Set segment override for an effective address. * Some architectures (such as x86) support segment overrides on effective * addresses. A override of an override will result in a warning. * \param ea effective address * \param segreg segment register (0 if none) */ void yasm_ea_set_segreg(yasm_effaddr *ea, unsigned long segreg); /** Delete (free allocated memory for) an effective address. * \param ea effective address (only pointer to it). */ void yasm_ea_destroy(/*@only@*/ yasm_effaddr *ea); /** Print an effective address. For debugging purposes. * \param f file * \param indent_level indentation level * \param ea effective address */ void yasm_ea_print(const yasm_effaddr *ea, FILE *f, int indent_level); /** Set multiple field of a bytecode. * A bytecode can be repeated a number of times when output. This function * sets that multiple. * \param bc bytecode * \param e multiple (kept, do not free) */ void yasm_bc_set_multiple(yasm_bytecode *bc, /*@keep@*/ yasm_expr *e); /** Create a bytecode containing data value(s). * \param datahead list of data values (kept, do not free) * \param size storage size (in bytes) for each data value * \param append_zero append a single zero byte after each data value * (if non-zero) * \param arch architecture (optional); if provided, data items * are directly simplified to bytes if possible * \param line virtual line (from yasm_linemap) * \return Newly allocated bytecode. */ /*@only@*/ yasm_bytecode *yasm_bc_create_data (yasm_datavalhead *datahead, unsigned int size, int append_zero, /*@null@*/ yasm_arch *arch, unsigned long line); /** Create a bytecode containing LEB128-encoded data value(s). * \param datahead list of data values (kept, do not free) * \param sign signedness (1=signed, 0=unsigned) of each data value * \param line virtual line (from yasm_linemap) * \return Newly allocated bytecode. */ /*@only@*/ yasm_bytecode *yasm_bc_create_leb128 (yasm_datavalhead *datahead, int sign, unsigned long line); /** Create a bytecode reserving space. * \param numitems number of reserve "items" (kept, do not free) * \param itemsize reserved size (in bytes) for each item * \param line virtual line (from yasm_linemap) * \return Newly allocated bytecode. */ /*@only@*/ yasm_bytecode *yasm_bc_create_reserve (/*@only@*/ yasm_expr *numitems, unsigned int itemsize, unsigned long line); /** Create a bytecode that includes a binary file verbatim. * \param filename full path to binary file (kept, do not free) * \param start starting location in file (in bytes) to read data from * (kept, do not free); may be NULL to indicate 0 * \param maxlen maximum number of bytes to read from the file (kept, do * do not free); may be NULL to indicate no maximum * \param line virtual line (from yasm_linemap) for the bytecode * \return Newly allocated bytecode. */ /*@only@*/ yasm_bytecode *yasm_bc_create_incbin (/*@only@*/ char *filename, /*@only@*/ /*@null@*/ yasm_expr *start, /*@only@*/ /*@null@*/ yasm_expr *maxlen, unsigned long line); /** Create a bytecode that aligns the following bytecode to a boundary. * \param boundary byte alignment (must be a power of two) * \param fill fill data (if NULL, code_fill or 0 is used) * \param maxskip maximum number of bytes to skip * \param code_fill code fill data (if NULL, 0 is used) * \param line virtual line (from yasm_linemap) * \return Newly allocated bytecode. * \note The precedence on generated fill is as follows: * - from fill parameter (if not NULL) * - from code_fill parameter (if not NULL) * - 0 */ /*@only@*/ yasm_bytecode *yasm_bc_create_align (/*@keep@*/ yasm_expr *boundary, /*@keep@*/ /*@null@*/ yasm_expr *fill, /*@keep@*/ /*@null@*/ yasm_expr *maxskip, /*@null@*/ const unsigned char **code_fill, unsigned long line); /** Create a bytecode that puts the following bytecode at a fixed section * offset. * \param start section offset of following bytecode * \param line virtual line (from yasm_linemap) * \return Newly allocated bytecode. */ /*@only@*/ yasm_bytecode *yasm_bc_create_org (unsigned long start, unsigned long line); /** Create a bytecode that represents a single instruction. * \param arch instruction's architecture * \param insn_data data that identifies the type of instruction * \param num_operands number of operands * \param operands instruction operands (may be NULL if no operands) * \param line virtual line (from yasm_linemap) * \return Newly allocated bytecode. * \note Keeps the list of operands; do not call yasm_ops_delete() after * giving operands to this function. */ /*@only@*/ yasm_bytecode *yasm_bc_create_insn (yasm_arch *arch, const unsigned long insn_data[4], int num_operands, /*@null@*/ yasm_insn_operands *operands, unsigned long line); /** Create a bytecode that represents a single empty (0 length) instruction. * This is used for handling solitary prefixes. * \param arch instruction's architecture * \param line virtual line (from yasm_linemap) * \return Newly allocated bytecode. */ /*@only@*/ yasm_bytecode *yasm_bc_create_empty_insn(yasm_arch *arch, unsigned long line); /** Associate a prefix with an instruction bytecode. * \param bc instruction bytecode * \param prefix_data data the identifies the prefix */ void yasm_bc_insn_add_prefix(yasm_bytecode *bc, const unsigned long prefix_data[4]); /** Associate a segment prefix with an instruction bytecode. * \param bc instruction bytecode * \param segreg data the identifies the segment register */ void yasm_bc_insn_add_seg_prefix(yasm_bytecode *bc, unsigned long segreg); /** Get the section that contains a particular bytecode. * \param bc bytecode * \return Section containing bc (can be NULL if bytecode is not part of a * section). */ /*@dependent@*/ /*@null@*/ yasm_section *yasm_bc_get_section (yasm_bytecode *bc); #ifdef YASM_LIB_INTERNAL /** Add to the list of symrecs that reference a bytecode. For symrec use * only. * \param bc bytecode * \param sym symbol */ void yasm_bc__add_symrec(yasm_bytecode *bc, /*@dependent@*/ yasm_symrec *sym); #endif /** Delete (free allocated memory for) a bytecode. * \param bc bytecode (only pointer to it); may be NULL */ void yasm_bc_destroy(/*@only@*/ /*@null@*/ yasm_bytecode *bc); /** Print a bytecode. For debugging purposes. * \param f file * \param indent_level indentation level * \param bc bytecode */ void yasm_bc_print(const yasm_bytecode *bc, FILE *f, int indent_level); /** Finalize a bytecode after parsing. * \param bc bytecode * \param prev_bc bytecode directly preceding bc in a list of bytecodes */ void yasm_bc_finalize(yasm_bytecode *bc, yasm_bytecode *prev_bc); /** Determine the distance between the starting offsets of two bytecodes. * \param precbc1 preceding bytecode to the first bytecode * \param precbc2 preceding bytecode to the second bytecode * \return Distance in bytes between the two bytecodes (bc2-bc1), or NULL if * the distance was indeterminate. * \warning Only valid /after/ optimization. */ /*@null@*/ /*@only@*/ yasm_intnum *yasm_calc_bc_dist (yasm_bytecode *precbc1, yasm_bytecode *precbc2); /** Get the offset of the next bytecode (the next bytecode doesn't have to * actually exist). * \param precbc preceding bytecode * \return Offset of the next bytecode in bytes. * \warning Only valid /after/ optimization. */ unsigned long yasm_bc_next_offset(yasm_bytecode *precbc); /** Add a dependent span for a bytecode. * \param add_span_data add_span_data passed into bc_calc_len() * \param bc bytecode containing span * \param id non-zero identifier for span; may be any non-zero value * \param value dependent value for bytecode expansion * \param neg_thres negative threshold for long/short decision * \param pos_thres positive threshold for long/short decision */ typedef void (*yasm_bc_add_span_func) (void *add_span_data, yasm_bytecode *bc, int id, const yasm_value *value, long neg_thres, long pos_thres); /** Resolve EQUs in a bytecode and calculate its minimum size. * Generates dependent bytecode spans for cases where, if the length spanned * increases, it could cause the bytecode size to increase. * Any bytecode multiple is NOT included in the length or spans generation; * this must be handled at a higher level. * \param bc bytecode * \param add_span function to call to add a span * \param add_span_data extra data to be passed to add_span function * \return 0 if no error occurred, nonzero if there was an error recognized * (and output) during execution. * \note May store to bytecode updated expressions and the short length. */ int yasm_bc_calc_len(yasm_bytecode *bc, yasm_bc_add_span_func add_span, void *add_span_data); /** Recalculate a bytecode's length based on an expanded span length. * \param bc bytecode * \param span span ID (as given to yasm_bc_add_span_func in * yasm_bc_calc_len) * \param old_val previous span value * \param new_val new span value * \param neg_thres negative threshold for long/short decision (returned) * \param pos_thres postivie threshold for long/short decision (returned) * \return 0 if bc no longer dependent on this span's length, negative if * there was an error recognized (and output) during execution, and * positive if bc size may increase for this span further based on the * new negative and positive thresholds returned. * \note May store to bytecode updated expressions and the updated length. */ int yasm_bc_expand(yasm_bytecode *bc, int span, long old_val, long new_val, /*@out@*/ long *neg_thres, /*@out@*/ long *pos_thres); /** Convert a bytecode into its byte representation. * \param bc bytecode * \param buf byte representation destination buffer * \param bufsize size of buf (in bytes) prior to call; size of the * generated data after call * \param gap if nonzero, indicates the data does not really need to * exist in the object file; if nonzero, contents of buf * are undefined [output] * \param d data to pass to each call to output_value/output_reloc * \param output_value function to call to convert values into their byte * representation * \param output_reloc function to call to output relocation entries * for a single sym * \return Newly allocated buffer that should be used instead of buf for * reading the byte representation, or NULL if buf was big enough to * hold the entire byte representation. * \note Calling twice on the same bytecode may \em not produce the same * results on the second call, as calling this function may result in * non-reversible changes to the bytecode. */ /*@null@*/ /*@only@*/ unsigned char *yasm_bc_tobytes (yasm_bytecode *bc, unsigned char *buf, unsigned long *bufsize, /*@out@*/ int *gap, void *d, yasm_output_value_func output_value, /*@null@*/ yasm_output_reloc_func output_reloc) /*@sets *buf@*/; /** Get the bytecode multiple value as an unsigned long integer. * \param bc bytecode * \param multiple multiple value (output) * \param calc_bc_dist nonzero if distances between bytecodes should be * calculated, 0 if error should be returned in this case * \return 1 on error (set with yasm_error_set), 0 on success. */ int yasm_bc_get_multiple(yasm_bytecode *bc, /*@out@*/ unsigned long *multiple, int calc_bc_dist); /** Create a new data value from an expression. * \param expn expression * \return Newly allocated data value. */ yasm_dataval *yasm_dv_create_expr(/*@keep@*/ yasm_expr *expn); /** Create a new data value from a string. * \param contents string (may contain NULs) * \param len length of string * \return Newly allocated data value. */ yasm_dataval *yasm_dv_create_string(/*@keep@*/ char *contents, size_t len); /** Create a new data value from raw bytes data. * \param contents raw data (may contain NULs) * \param len length * \return Newly allocated data value. */ yasm_dataval *yasm_dv_create_raw(/*@keep@*/ unsigned char *contents, unsigned long len); #ifndef YASM_DOXYGEN #define yasm_dv_create_string(s, l) yasm_dv_create_raw((unsigned char *)(s), \ (unsigned long)(l)) #endif /** Initialize a list of data values. * \param headp list of data values */ void yasm_dvs_initialize(yasm_datavalhead *headp); #ifdef YASM_LIB_INTERNAL #define yasm_dvs_initialize(headp) STAILQ_INIT(headp) #endif /** Delete (free allocated memory for) a list of data values. * \param headp list of data values */ void yasm_dvs_destroy(yasm_datavalhead *headp); /** Add data value to the end of a list of data values. * \note Does not make a copy of the data value; so don't pass this function * static or local variables, and discard the dv pointer after calling * this function. * \param headp data value list * \param dv data value (may be NULL) * \return If data value was actually appended (it wasn't NULL), the data * value; otherwise NULL. */ /*@null@*/ yasm_dataval *yasm_dvs_append (yasm_datavalhead *headp, /*@returned@*/ /*@null@*/ yasm_dataval *dv); /** Print a data value list. For debugging purposes. * \param f file * \param indent_level indentation level * \param headp data value list */ void yasm_dvs_print(const yasm_datavalhead *headp, FILE *f, int indent_level); #endif