mruby  2.0.1
mruby is the lightweight implementation of the Ruby language
dump.h
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1 
7 #ifndef MRUBY_DUMP_H
8 #define MRUBY_DUMP_H
9 
10 #include <mruby.h>
11 #include <mruby/irep.h>
12 #include "common.h"
13 
17 MRB_BEGIN_DECL
18 
19 #define DUMP_DEBUG_INFO 1
20 #define DUMP_ENDIAN_BIG 2
21 #define DUMP_ENDIAN_LIL 4
22 #define DUMP_ENDIAN_NAT 6
23 #define DUMP_ENDIAN_MASK 6
24 
25 int mrb_dump_irep(mrb_state *mrb, mrb_irep *irep, uint8_t flags, uint8_t **bin, size_t *bin_size);
26 #ifndef MRB_DISABLE_STDIO
27 int mrb_dump_irep_binary(mrb_state*, mrb_irep*, uint8_t, FILE*);
28 int mrb_dump_irep_cfunc(mrb_state *mrb, mrb_irep*, uint8_t flags, FILE *f, const char *initname);
29 mrb_irep *mrb_read_irep_file(mrb_state*, FILE*);
30 MRB_API mrb_value mrb_load_irep_file(mrb_state*,FILE*);
31 MRB_API mrb_value mrb_load_irep_file_cxt(mrb_state*, FILE*, mrbc_context*);
32 #endif
33 MRB_API mrb_irep *mrb_read_irep(mrb_state*, const uint8_t*);
34 MRB_API mrb_irep *mrb_read_irep_buf(mrb_state*, const void*, size_t);
35 
36 /* dump/load error code
37  *
38  * NOTE: MRB_DUMP_GENERAL_FAILURE is caused by
39  * unspecified issues like malloc failed.
40  */
41 #define MRB_DUMP_OK 0
42 #define MRB_DUMP_GENERAL_FAILURE (-1)
43 #define MRB_DUMP_WRITE_FAULT (-2)
44 #define MRB_DUMP_READ_FAULT (-3)
45 #define MRB_DUMP_CRC_ERROR (-4)
46 #define MRB_DUMP_INVALID_FILE_HEADER (-5)
47 #define MRB_DUMP_INVALID_IREP (-6)
48 #define MRB_DUMP_INVALID_ARGUMENT (-7)
49 
50 /* null symbol length */
51 #define MRB_DUMP_NULL_SYM_LEN 0xFFFF
52 
53 /* Rite Binary File header */
54 #define RITE_BINARY_IDENT "RITE"
55 #define RITE_BINARY_IDENT_LIL "ETIR"
56 #define RITE_BINARY_FORMAT_VER "0006"
57 #define RITE_COMPILER_NAME "MATZ"
58 #define RITE_COMPILER_VERSION "0000"
59 
60 #define RITE_VM_VER "0002"
61 
62 #define RITE_BINARY_EOF "END\0"
63 #define RITE_SECTION_IREP_IDENT "IREP"
64 #define RITE_SECTION_DEBUG_IDENT "DBG\0"
65 #define RITE_SECTION_LV_IDENT "LVAR"
66 
67 #define MRB_DUMP_DEFAULT_STR_LEN 128
68 #define MRB_DUMP_ALIGNMENT sizeof(uint32_t)
69 
70 /* binary header */
71 struct rite_binary_header {
72  uint8_t binary_ident[4]; /* Binary Identifier */
73  uint8_t binary_version[4]; /* Binary Format Version */
74  uint8_t binary_crc[2]; /* Binary CRC */
75  uint8_t binary_size[4]; /* Binary Size */
76  uint8_t compiler_name[4]; /* Compiler name */
77  uint8_t compiler_version[4];
78 };
79 
80 /* section header */
81 #define RITE_SECTION_HEADER \
82  uint8_t section_ident[4]; \
83  uint8_t section_size[4]
84 
85 struct rite_section_header {
86  RITE_SECTION_HEADER;
87 };
88 
89 struct rite_section_irep_header {
90  RITE_SECTION_HEADER;
91 
92  uint8_t rite_version[4]; /* Rite Instruction Specification Version */
93 };
94 
95 struct rite_section_debug_header {
96  RITE_SECTION_HEADER;
97 };
98 
99 struct rite_section_lv_header {
100  RITE_SECTION_HEADER;
101 };
102 
103 #define RITE_LV_NULL_MARK UINT16_MAX
104 
105 struct rite_binary_footer {
106  RITE_SECTION_HEADER;
107 };
108 
109 static inline int
110 bigendian_p()
111 {
112  int i;
113  char *p;
114 
115  i = 1;
116  p = (char*)&i;
117  return p[0]?0:1;
118 }
119 
120 static inline size_t
121 uint8_to_bin(uint8_t s, uint8_t *bin)
122 {
123  *bin = s;
124  return sizeof(uint8_t);
125 }
126 
127 static inline size_t
128 uint16_to_bin(uint16_t s, uint8_t *bin)
129 {
130  *bin++ = (s >> 8) & 0xff;
131  *bin = s & 0xff;
132  return sizeof(uint16_t);
133 }
134 
135 static inline size_t
136 uint32_to_bin(uint32_t l, uint8_t *bin)
137 {
138  *bin++ = (l >> 24) & 0xff;
139  *bin++ = (l >> 16) & 0xff;
140  *bin++ = (l >> 8) & 0xff;
141  *bin = l & 0xff;
142  return sizeof(uint32_t);
143 }
144 
145 static inline size_t
146 uint32l_to_bin(uint32_t l, uint8_t *bin)
147 {
148  bin[3] = (l >> 24) & 0xff;
149  bin[2] = (l >> 16) & 0xff;
150  bin[1] = (l >> 8) & 0xff;
151  bin[0] = l & 0xff;
152  return sizeof(uint32_t);
153 }
154 
155 static inline uint32_t
156 bin_to_uint32(const uint8_t *bin)
157 {
158  return (uint32_t)bin[0] << 24 |
159  (uint32_t)bin[1] << 16 |
160  (uint32_t)bin[2] << 8 |
161  (uint32_t)bin[3];
162 }
163 
164 static inline uint32_t
165 bin_to_uint32l(const uint8_t *bin)
166 {
167  return (uint32_t)bin[3] << 24 |
168  (uint32_t)bin[2] << 16 |
169  (uint32_t)bin[1] << 8 |
170  (uint32_t)bin[0];
171 }
172 
173 static inline uint16_t
174 bin_to_uint16(const uint8_t *bin)
175 {
176  return (uint16_t)bin[0] << 8 |
177  (uint16_t)bin[1];
178 }
179 
180 static inline uint8_t
181 bin_to_uint8(const uint8_t *bin)
182 {
183  return (uint8_t)bin[0];
184 }
185 
186 MRB_END_DECL
187 
189 uint16_t
190 calc_crc_16_ccitt(const uint8_t *src, size_t nbytes, uint16_t crc);
191 
192 #endif /* MRUBY_DUMP_H */
rite_section_debug_header
Definition: dump.h:95
rite_binary_header
Definition: dump.h:71
mrbc_context
Definition: compile.h:23
MRB_BEGIN_DECL
#define MRB_BEGIN_DECL
Start declarations in C mode.
Definition: common.h:26
rite_section_lv_header
Definition: dump.h:99
mrb_irep
Definition: irep.h:30
irep.h
mrb_irep structure
MRB_API
#define MRB_API
Declare a public MRuby API function.
Definition: common.h:73
rite_section_irep_header
Definition: dump.h:89
rite_binary_footer
Definition: dump.h:105
MRB_END_DECL
#define MRB_END_DECL
End declarations in C mode.
Definition: common.h:28
rite_section_header
Definition: dump.h:85
common.h
mruby common platform definition"
mrb_value
Definition: boxing_nan.h:39
mrb_state
Definition: mruby.h:215
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