1 :(before "End Initialize Op Names(name)")
2 put(name, "cd", "software interrupt");
3
4 :(before "End Single-Byte Opcodes")
5 case 0xcd: {
6 trace(90, "run") << "syscall" << end();
7 uint8_t code = next();
8 if (code != 0x80) {
9 raise << "Unimplemented interrupt code " << HEXBYTE << code << '\n' << end();
10 raise << " Only `int 80h` supported for now.\n" << end();
11 break;
12 }
13 process_int80();
14 break;
15 }
16
17 :(code)
18 void process_int80() {
19 switch (Reg[EAX].u) {
20 case 1:
21 exit(Reg[EBX].u);
22 break;
23 case 3:
24 trace(91, "run") << "read: " << Reg[EBX].u << ' ' << Reg[ECX].u << '/' << mem_addr_string(Reg[ECX].u) << ' ' << Reg[EDX].u << end();
25 Reg[EAX].i = read(Reg[EBX].u, mem_addr_u8(Reg[ECX].u), Reg[EDX].u);
26 trace(91, "run") << "result: " << Reg[EAX].i << end();
27 if (Reg[EAX].i == -1) raise << strerror(errno) << '\n' << end();
28 break;
29 case 4:
30 trace(91, "run") << "write: " << Reg[EBX].u << ' ' << Reg[ECX].u << '/' << mem_addr_string(Reg[ECX].u) << ' ' << Reg[EDX].u << end();
31 Reg[EAX].i = write(Reg[EBX].u, mem_addr_u8(Reg[ECX].u), Reg[EDX].u);
32 trace(91, "run") << "result: " << Reg[EAX].i << end();
33 if (Reg[EAX].i == -1) raise << strerror(errno) << '\n' << end();
34 break;
35 case 5: {
36 check_flags(ECX);
37 check_mode(EDX);
38 trace(91, "run") << "open: " << Reg[EBX].u << '/' << mem_addr_string(Reg[EBX].u) << ' ' << Reg[ECX].u << end();
39 Reg[EAX].i = open(mem_addr_string(Reg[EBX].u), Reg[ECX].u, 0640);
40 trace(91, "run") << "result: " << Reg[EAX].i << end();
41 if (Reg[EAX].i == -1) raise << strerror(errno) << '\n' << end();
42 break;
43 }
44 case 6:
45 trace(91, "run") << "close: " << Reg[EBX].u << end();
46 Reg[EAX].i = close(Reg[EBX].u);
47 trace(91, "run") << "result: " << Reg[EAX].i << end();
48 if (Reg[EAX].i == -1) raise << strerror(errno) << '\n' << end();
49 break;
50 case 8:
51 check_mode(ECX);
52 trace(91, "run") << "creat: " << Reg[EBX].u << '/' << mem_addr_string(Reg[EBX].u) << end();
53 Reg[EAX].i = creat(mem_addr_string(Reg[EBX].u), 0640);
54 trace(91, "run") << "result: " << Reg[EAX].i << end();
55 if (Reg[EAX].i == -1) raise << strerror(errno) << '\n' << end();
56 break;
57 case 10:
58 trace(91, "run") << "unlink: " << Reg[EBX].u << '/' << mem_addr_string(Reg[EBX].u) << end();
59 Reg[EAX].i = unlink(mem_addr_string(Reg[EBX].u));
60 trace(91, "run") << "result: " << Reg[EAX].i << end();
61 if (Reg[EAX].i == -1) raise << strerror(errno) << '\n' << end();
62 break;
63 case 38:
64 trace(91, "run") << "rename: " << Reg[EBX].u << '/' << mem_addr_string(Reg[EBX].u) << " -> " << Reg[ECX].u << '/' << mem_addr_string(Reg[ECX].u) << end();
65 Reg[EAX].i = rename(mem_addr_string(Reg[EBX].u), mem_addr_string(Reg[ECX].u));
66 trace(91, "run") << "result: " << Reg[EAX].i << end();
67 if (Reg[EAX].i == -1) raise << strerror(errno) << '\n' << end();
68 break;
69 case 45:
70 trace(91, "run") << "grow data segment to " << Reg[EBX].u << end();
71 resize_mem(Reg[EBX].u);
72 break;
73 default:
74 raise << HEXWORD << EIP << ": unimplemented syscall " << Reg[EAX].u << '\n' << end();
75 }
76 }
77
78
79
80 void check_flags(int reg) {
81 uint32_t flags = Reg[reg].u;
82 if (flags != ((flags & O_RDONLY) | (flags & O_WRONLY))) {
83 raise << HEXWORD << EIP << ": most POSIX flags to the open() syscall are not supported. Just O_RDONLY and O_WRONLY for now. Zero concurrent access support.\n" << end();
84 exit(1);
85 }
86 if ((flags & O_RDONLY) && (flags & O_WRONLY)) {
87 raise << HEXWORD << EIP << ": can't open a file for both reading and writing at once. See http://man7.org/linux/man-pages/man2/open.2.html.\n" << end();
88 exit(1);
89 }
90 }
91
92 void check_mode(int reg) {
93 if (Reg[reg].u != 0600) {
94 raise << HEXWORD << EIP << ": SubX is oblivious to file permissions; register " << reg << " must be 0.\n" << end();
95 exit(1);
96 }
97 }
98
99 void resize_mem(uint32_t new_end_address) {
100 if (new_end_address < Mem_offset) {
101 raise << HEXWORD << EIP << ": can't shrink data segment to before code segment\n";
102 return;
103 }
104 int32_t new_size = new_end_address - Mem_offset;
105 if (new_size < SIZE(Mem)) {
106 raise << HEXWORD << EIP << ": shrinking data segment is not supported.\n" << end();
107 return;
108 }
109 Mem.resize(new_size);
110 }