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[qemu.git] / target-xtensa / xtensa-semi.c
1 /*
2 * Copyright (c) 2011, Max Filippov, Open Source and Linux Lab.
3 * All rights reserved.
4 *
5 * Redistribution and use in source and binary forms, with or without
6 * modification, are permitted provided that the following conditions are met:
7 * * Redistributions of source code must retain the above copyright
8 * notice, this list of conditions and the following disclaimer.
9 * * Redistributions in binary form must reproduce the above copyright
10 * notice, this list of conditions and the following disclaimer in the
11 * documentation and/or other materials provided with the distribution.
12 * * Neither the name of the Open Source and Linux Lab nor the
13 * names of its contributors may be used to endorse or promote products
14 * derived from this software without specific prior written permission.
15 *
16 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
17 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
20 * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
21 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
22 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
23 * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
24 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
25 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
26 */
27
28 #include <errno.h>
29 #include <unistd.h>
30 #include <string.h>
31 #include <stddef.h>
32 #include "cpu.h"
33 #include "helper.h"
34 #include "qemu/log.h"
35
36 enum {
37 TARGET_SYS_exit = 1,
38 TARGET_SYS_read = 3,
39 TARGET_SYS_write = 4,
40 TARGET_SYS_open = 5,
41 TARGET_SYS_close = 6,
42 TARGET_SYS_lseek = 19,
43 TARGET_SYS_select_one = 29,
44
45 TARGET_SYS_argc = 1000,
46 TARGET_SYS_argv_sz = 1001,
47 TARGET_SYS_argv = 1002,
48 TARGET_SYS_memset = 1004,
49 };
50
51 enum {
52 SELECT_ONE_READ = 1,
53 SELECT_ONE_WRITE = 2,
54 SELECT_ONE_EXCEPT = 3,
55 };
56
57 enum {
58 TARGET_EPERM = 1,
59 TARGET_ENOENT = 2,
60 TARGET_ESRCH = 3,
61 TARGET_EINTR = 4,
62 TARGET_EIO = 5,
63 TARGET_ENXIO = 6,
64 TARGET_E2BIG = 7,
65 TARGET_ENOEXEC = 8,
66 TARGET_EBADF = 9,
67 TARGET_ECHILD = 10,
68 TARGET_EAGAIN = 11,
69 TARGET_ENOMEM = 12,
70 TARGET_EACCES = 13,
71 TARGET_EFAULT = 14,
72 TARGET_ENOTBLK = 15,
73 TARGET_EBUSY = 16,
74 TARGET_EEXIST = 17,
75 TARGET_EXDEV = 18,
76 TARGET_ENODEV = 19,
77 TARGET_ENOTDIR = 20,
78 TARGET_EISDIR = 21,
79 TARGET_EINVAL = 22,
80 TARGET_ENFILE = 23,
81 TARGET_EMFILE = 24,
82 TARGET_ENOTTY = 25,
83 TARGET_ETXTBSY = 26,
84 TARGET_EFBIG = 27,
85 TARGET_ENOSPC = 28,
86 TARGET_ESPIPE = 29,
87 TARGET_EROFS = 30,
88 TARGET_EMLINK = 31,
89 TARGET_EPIPE = 32,
90 TARGET_EDOM = 33,
91 TARGET_ERANGE = 34,
92 TARGET_ENOSYS = 88,
93 TARGET_ELOOP = 92,
94 };
95
96 static uint32_t errno_h2g(int host_errno)
97 {
98 static const uint32_t guest_errno[] = {
99 [EPERM] = TARGET_EPERM,
100 [ENOENT] = TARGET_ENOENT,
101 [ESRCH] = TARGET_ESRCH,
102 [EINTR] = TARGET_EINTR,
103 [EIO] = TARGET_EIO,
104 [ENXIO] = TARGET_ENXIO,
105 [E2BIG] = TARGET_E2BIG,
106 [ENOEXEC] = TARGET_ENOEXEC,
107 [EBADF] = TARGET_EBADF,
108 [ECHILD] = TARGET_ECHILD,
109 [EAGAIN] = TARGET_EAGAIN,
110 [ENOMEM] = TARGET_ENOMEM,
111 [EACCES] = TARGET_EACCES,
112 [EFAULT] = TARGET_EFAULT,
113 #ifdef ENOTBLK
114 [ENOTBLK] = TARGET_ENOTBLK,
115 #endif
116 [EBUSY] = TARGET_EBUSY,
117 [EEXIST] = TARGET_EEXIST,
118 [EXDEV] = TARGET_EXDEV,
119 [ENODEV] = TARGET_ENODEV,
120 [ENOTDIR] = TARGET_ENOTDIR,
121 [EISDIR] = TARGET_EISDIR,
122 [EINVAL] = TARGET_EINVAL,
123 [ENFILE] = TARGET_ENFILE,
124 [EMFILE] = TARGET_EMFILE,
125 [ENOTTY] = TARGET_ENOTTY,
126 #ifdef ETXTBSY
127 [ETXTBSY] = TARGET_ETXTBSY,
128 #endif
129 [EFBIG] = TARGET_EFBIG,
130 [ENOSPC] = TARGET_ENOSPC,
131 [ESPIPE] = TARGET_ESPIPE,
132 [EROFS] = TARGET_EROFS,
133 [EMLINK] = TARGET_EMLINK,
134 [EPIPE] = TARGET_EPIPE,
135 [EDOM] = TARGET_EDOM,
136 [ERANGE] = TARGET_ERANGE,
137 [ENOSYS] = TARGET_ENOSYS,
138 #ifdef ELOOP
139 [ELOOP] = TARGET_ELOOP,
140 #endif
141 };
142
143 if (host_errno == 0) {
144 return 0;
145 } else if (host_errno > 0 && host_errno < ARRAY_SIZE(guest_errno) &&
146 guest_errno[host_errno]) {
147 return guest_errno[host_errno];
148 } else {
149 return TARGET_EINVAL;
150 }
151 }
152
153 void HELPER(simcall)(CPUXtensaState *env)
154 {
155 uint32_t *regs = env->regs;
156
157 switch (regs[2]) {
158 case TARGET_SYS_exit:
159 qemu_log("exit(%d) simcall\n", regs[3]);
160 exit(regs[3]);
161 break;
162
163 case TARGET_SYS_read:
164 case TARGET_SYS_write:
165 {
166 bool is_write = regs[2] == TARGET_SYS_write;
167 uint32_t fd = regs[3];
168 uint32_t vaddr = regs[4];
169 uint32_t len = regs[5];
170
171 while (len > 0) {
172 hwaddr paddr =
173 cpu_get_phys_page_debug(env, vaddr);
174 uint32_t page_left =
175 TARGET_PAGE_SIZE - (vaddr & (TARGET_PAGE_SIZE - 1));
176 uint32_t io_sz = page_left < len ? page_left : len;
177 hwaddr sz = io_sz;
178 void *buf = cpu_physical_memory_map(paddr, &sz, is_write);
179
180 if (buf) {
181 vaddr += io_sz;
182 len -= io_sz;
183 regs[2] = is_write ?
184 write(fd, buf, io_sz) :
185 read(fd, buf, io_sz);
186 regs[3] = errno_h2g(errno);
187 cpu_physical_memory_unmap(buf, sz, is_write, sz);
188 if (regs[2] == -1) {
189 break;
190 }
191 } else {
192 regs[2] = -1;
193 regs[3] = TARGET_EINVAL;
194 break;
195 }
196 }
197 }
198 break;
199
200 case TARGET_SYS_open:
201 {
202 char name[1024];
203 int rc;
204 int i;
205
206 for (i = 0; i < ARRAY_SIZE(name); ++i) {
207 rc = cpu_memory_rw_debug(
208 env, regs[3] + i, (uint8_t *)name + i, 1, 0);
209 if (rc != 0 || name[i] == 0) {
210 break;
211 }
212 }
213
214 if (rc == 0 && i < ARRAY_SIZE(name)) {
215 regs[2] = open(name, regs[4], regs[5]);
216 regs[3] = errno_h2g(errno);
217 } else {
218 regs[2] = -1;
219 regs[3] = TARGET_EINVAL;
220 }
221 }
222 break;
223
224 case TARGET_SYS_close:
225 if (regs[3] < 3) {
226 regs[2] = regs[3] = 0;
227 } else {
228 regs[2] = close(regs[3]);
229 regs[3] = errno_h2g(errno);
230 }
231 break;
232
233 case TARGET_SYS_lseek:
234 regs[2] = lseek(regs[3], (off_t)(int32_t)regs[4], regs[5]);
235 regs[3] = errno_h2g(errno);
236 break;
237
238 case TARGET_SYS_select_one:
239 {
240 uint32_t fd = regs[3];
241 uint32_t rq = regs[4];
242 uint32_t target_tv = regs[5];
243 uint32_t target_tvv[2];
244
245 struct timeval tv = {0};
246 fd_set fdset;
247
248 FD_ZERO(&fdset);
249 FD_SET(fd, &fdset);
250
251 if (target_tv) {
252 cpu_memory_rw_debug(env, target_tv,
253 (uint8_t *)target_tvv, sizeof(target_tvv), 0);
254 tv.tv_sec = (int32_t)tswap32(target_tvv[0]);
255 tv.tv_usec = (int32_t)tswap32(target_tvv[1]);
256 }
257 regs[2] = select(fd + 1,
258 rq == SELECT_ONE_READ ? &fdset : NULL,
259 rq == SELECT_ONE_WRITE ? &fdset : NULL,
260 rq == SELECT_ONE_EXCEPT ? &fdset : NULL,
261 target_tv ? &tv : NULL);
262 regs[3] = errno_h2g(errno);
263 }
264 break;
265
266 case TARGET_SYS_argc:
267 regs[2] = 1;
268 regs[3] = 0;
269 break;
270
271 case TARGET_SYS_argv_sz:
272 regs[2] = 128;
273 regs[3] = 0;
274 break;
275
276 case TARGET_SYS_argv:
277 {
278 struct Argv {
279 uint32_t argptr[2];
280 char text[120];
281 } argv = {
282 {0, 0},
283 "test"
284 };
285
286 argv.argptr[0] = tswap32(regs[3] + offsetof(struct Argv, text));
287 cpu_memory_rw_debug(
288 env, regs[3], (uint8_t *)&argv, sizeof(argv), 1);
289 }
290 break;
291
292 case TARGET_SYS_memset:
293 {
294 uint32_t base = regs[3];
295 uint32_t sz = regs[5];
296
297 while (sz) {
298 hwaddr len = sz;
299 void *buf = cpu_physical_memory_map(base, &len, 1);
300
301 if (buf && len) {
302 memset(buf, regs[4], len);
303 cpu_physical_memory_unmap(buf, len, 1, len);
304 } else {
305 len = 1;
306 }
307 base += len;
308 sz -= len;
309 }
310 regs[2] = regs[3];
311 regs[3] = 0;
312 }
313 break;
314
315 default:
316 qemu_log("%s(%d): not implemented\n", __func__, regs[2]);
317 regs[2] = -1;
318 regs[3] = TARGET_ENOSYS;
319 break;
320 }
321 }
Qemu copy for testing