Clean up extension confirmation prompts and make them consistent between Views and...
[chromium-blink-merge.git] / sandbox / linux / seccomp-bpf-helpers / sigsys_handlers.cc
blob05250d147f64409401d78afbcd24f8f6d9e1a502
1 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 // Note: any code in this file MUST be async-signal safe.
7 #include "sandbox/linux/seccomp-bpf-helpers/sigsys_handlers.h"
9 #include <sys/syscall.h>
10 #include <unistd.h>
12 #include "base/logging.h"
13 #include "base/posix/eintr_wrapper.h"
14 #include "build/build_config.h"
15 #include "sandbox/linux/bpf_dsl/bpf_dsl.h"
16 #include "sandbox/linux/seccomp-bpf/sandbox_bpf.h"
17 #include "sandbox/linux/seccomp-bpf/syscall.h"
18 #include "sandbox/linux/services/syscall_wrappers.h"
19 #include "sandbox/linux/system_headers/linux_syscalls.h"
21 #if defined(__mips__)
22 // __NR_Linux, is defined in <asm/unistd.h>.
23 #include <asm/unistd.h>
24 #endif
26 #define SECCOMP_MESSAGE_COMMON_CONTENT "seccomp-bpf failure"
27 #define SECCOMP_MESSAGE_CLONE_CONTENT "clone() failure"
28 #define SECCOMP_MESSAGE_PRCTL_CONTENT "prctl() failure"
29 #define SECCOMP_MESSAGE_IOCTL_CONTENT "ioctl() failure"
30 #define SECCOMP_MESSAGE_KILL_CONTENT "(tg)kill() failure"
31 #define SECCOMP_MESSAGE_FUTEX_CONTENT "futex() failure"
33 namespace {
35 inline bool IsArchitectureX86_64() {
36 #if defined(__x86_64__)
37 return true;
38 #else
39 return false;
40 #endif
43 // Write |error_message| to stderr. Similar to RawLog(), but a bit more careful
44 // about async-signal safety. |size| is the size to write and should typically
45 // not include a terminating \0.
46 void WriteToStdErr(const char* error_message, size_t size) {
47 while (size > 0) {
48 // TODO(jln): query the current policy to check if send() is available and
49 // use it to perform a non-blocking write.
50 const int ret = HANDLE_EINTR(write(STDERR_FILENO, error_message, size));
51 // We can't handle any type of error here.
52 if (ret <= 0 || static_cast<size_t>(ret) > size) break;
53 size -= ret;
54 error_message += ret;
58 // Invalid syscall values are truncated to zero.
59 // On architectures where base value is zero (Intel and Arm),
60 // syscall number is the same as offset from base.
61 // This function returns values between 0 and 1023 on all architectures.
62 // On architectures where base value is different than zero (currently only
63 // Mips), we are truncating valid syscall values to offset from base.
64 uint32_t SyscallNumberToOffsetFromBase(uint32_t sysno) {
65 #if defined(__mips__)
66 // On MIPS syscall numbers are in different range than on x86 and ARM.
67 // Valid MIPS O32 ABI syscall __NR_syscall will be truncated to zero for
68 // simplicity.
69 sysno = sysno - __NR_Linux;
70 #endif
72 if (sysno >= 1024)
73 sysno = 0;
75 return sysno;
78 // Print a seccomp-bpf failure to handle |sysno| to stderr in an
79 // async-signal safe way.
80 void PrintSyscallError(uint32_t sysno) {
81 if (sysno >= 1024)
82 sysno = 0;
83 // TODO(markus): replace with async-signal safe snprintf when available.
84 const size_t kNumDigits = 4;
85 char sysno_base10[kNumDigits];
86 uint32_t rem = sysno;
87 uint32_t mod = 0;
88 for (int i = kNumDigits - 1; i >= 0; i--) {
89 mod = rem % 10;
90 rem /= 10;
91 sysno_base10[i] = '0' + mod;
93 #if defined(__mips__) && (_MIPS_SIM == _MIPS_SIM_ABI32)
94 static const char kSeccompErrorPrefix[] = __FILE__
95 ":**CRASHING**:" SECCOMP_MESSAGE_COMMON_CONTENT " in syscall 4000 + ";
96 #else
97 static const char kSeccompErrorPrefix[] =
98 __FILE__":**CRASHING**:" SECCOMP_MESSAGE_COMMON_CONTENT " in syscall ";
99 #endif
100 static const char kSeccompErrorPostfix[] = "\n";
101 WriteToStdErr(kSeccompErrorPrefix, sizeof(kSeccompErrorPrefix) - 1);
102 WriteToStdErr(sysno_base10, sizeof(sysno_base10));
103 WriteToStdErr(kSeccompErrorPostfix, sizeof(kSeccompErrorPostfix) - 1);
106 } // namespace.
108 namespace sandbox {
110 intptr_t CrashSIGSYS_Handler(const struct arch_seccomp_data& args, void* aux) {
111 uint32_t syscall = SyscallNumberToOffsetFromBase(args.nr);
113 PrintSyscallError(syscall);
115 // Encode 8-bits of the 1st two arguments too, so we can discern which socket
116 // type, which fcntl, ... etc., without being likely to hit a mapped
117 // address.
118 // Do not encode more bits here without thinking about increasing the
119 // likelihood of collision with mapped pages.
120 syscall |= ((args.args[0] & 0xffUL) << 12);
121 syscall |= ((args.args[1] & 0xffUL) << 20);
122 // Purposefully dereference the syscall as an address so it'll show up very
123 // clearly and easily in crash dumps.
124 volatile char* addr = reinterpret_cast<volatile char*>(syscall);
125 *addr = '\0';
126 // In case we hit a mapped address, hit the null page with just the syscall,
127 // for paranoia.
128 syscall &= 0xfffUL;
129 addr = reinterpret_cast<volatile char*>(syscall);
130 *addr = '\0';
131 for (;;)
132 _exit(1);
135 // TODO(jln): refactor the reporting functions.
137 intptr_t SIGSYSCloneFailure(const struct arch_seccomp_data& args, void* aux) {
138 static const char kSeccompCloneError[] =
139 __FILE__":**CRASHING**:" SECCOMP_MESSAGE_CLONE_CONTENT "\n";
140 WriteToStdErr(kSeccompCloneError, sizeof(kSeccompCloneError) - 1);
141 // "flags" is the first argument in the kernel's clone().
142 // Mark as volatile to be able to find the value on the stack in a minidump.
143 volatile uint64_t clone_flags = args.args[0];
144 volatile char* addr;
145 if (IsArchitectureX86_64()) {
146 addr = reinterpret_cast<volatile char*>(clone_flags & 0xFFFFFF);
147 *addr = '\0';
149 // Hit the NULL page if this fails to fault.
150 addr = reinterpret_cast<volatile char*>(clone_flags & 0xFFF);
151 *addr = '\0';
152 for (;;)
153 _exit(1);
156 intptr_t SIGSYSPrctlFailure(const struct arch_seccomp_data& args,
157 void* /* aux */) {
158 static const char kSeccompPrctlError[] =
159 __FILE__":**CRASHING**:" SECCOMP_MESSAGE_PRCTL_CONTENT "\n";
160 WriteToStdErr(kSeccompPrctlError, sizeof(kSeccompPrctlError) - 1);
161 // Mark as volatile to be able to find the value on the stack in a minidump.
162 volatile uint64_t option = args.args[0];
163 volatile char* addr =
164 reinterpret_cast<volatile char*>(option & 0xFFF);
165 *addr = '\0';
166 for (;;)
167 _exit(1);
170 intptr_t SIGSYSIoctlFailure(const struct arch_seccomp_data& args,
171 void* /* aux */) {
172 static const char kSeccompIoctlError[] =
173 __FILE__":**CRASHING**:" SECCOMP_MESSAGE_IOCTL_CONTENT "\n";
174 WriteToStdErr(kSeccompIoctlError, sizeof(kSeccompIoctlError) - 1);
175 // Make "request" volatile so that we can see it on the stack in a minidump.
176 volatile uint64_t request = args.args[1];
177 volatile char* addr = reinterpret_cast<volatile char*>(request & 0xFFFF);
178 *addr = '\0';
179 // Hit the NULL page if this fails.
180 addr = reinterpret_cast<volatile char*>(request & 0xFFF);
181 *addr = '\0';
182 for (;;)
183 _exit(1);
186 intptr_t SIGSYSKillFailure(const struct arch_seccomp_data& args,
187 void* /* aux */) {
188 static const char kSeccompKillError[] =
189 __FILE__":**CRASHING**:" SECCOMP_MESSAGE_KILL_CONTENT "\n";
190 WriteToStdErr(kSeccompKillError, sizeof(kSeccompKillError) - 1);
191 // Make "pid" volatile so that we can see it on the stack in a minidump.
192 volatile uint64_t my_pid = sys_getpid();
193 volatile char* addr = reinterpret_cast<volatile char*>(my_pid & 0xFFF);
194 *addr = '\0';
195 for (;;)
196 _exit(1);
199 intptr_t SIGSYSFutexFailure(const struct arch_seccomp_data& args,
200 void* /* aux */) {
201 static const char kSeccompFutexError[] =
202 __FILE__ ":**CRASHING**:" SECCOMP_MESSAGE_FUTEX_CONTENT "\n";
203 WriteToStdErr(kSeccompFutexError, sizeof(kSeccompFutexError) - 1);
204 volatile int futex_op = args.args[1];
205 volatile char* addr = reinterpret_cast<volatile char*>(futex_op & 0xFFF);
206 *addr = '\0';
207 for (;;)
208 _exit(1);
211 intptr_t SIGSYSSchedHandler(const struct arch_seccomp_data& args,
212 void* aux) {
213 switch (args.nr) {
214 case __NR_sched_getaffinity:
215 case __NR_sched_getattr:
216 case __NR_sched_getparam:
217 case __NR_sched_getscheduler:
218 case __NR_sched_rr_get_interval:
219 case __NR_sched_setaffinity:
220 case __NR_sched_setattr:
221 case __NR_sched_setparam:
222 case __NR_sched_setscheduler:
223 const pid_t tid = sys_gettid();
224 // The first argument is the pid. If is our thread id, then replace it
225 // with 0, which is equivalent and allowed by the policy.
226 if (args.args[0] == static_cast<uint64_t>(tid)) {
227 return Syscall::Call(args.nr,
229 static_cast<intptr_t>(args.args[1]),
230 static_cast<intptr_t>(args.args[2]),
231 static_cast<intptr_t>(args.args[3]),
232 static_cast<intptr_t>(args.args[4]),
233 static_cast<intptr_t>(args.args[5]));
235 break;
238 CrashSIGSYS_Handler(args, aux);
240 // Should never be reached.
241 RAW_CHECK(false);
242 return -ENOSYS;
245 bpf_dsl::ResultExpr CrashSIGSYS() {
246 return bpf_dsl::Trap(CrashSIGSYS_Handler, NULL);
249 bpf_dsl::ResultExpr CrashSIGSYSClone() {
250 return bpf_dsl::Trap(SIGSYSCloneFailure, NULL);
253 bpf_dsl::ResultExpr CrashSIGSYSPrctl() {
254 return bpf_dsl::Trap(SIGSYSPrctlFailure, NULL);
257 bpf_dsl::ResultExpr CrashSIGSYSIoctl() {
258 return bpf_dsl::Trap(SIGSYSIoctlFailure, NULL);
261 bpf_dsl::ResultExpr CrashSIGSYSKill() {
262 return bpf_dsl::Trap(SIGSYSKillFailure, NULL);
265 bpf_dsl::ResultExpr CrashSIGSYSFutex() {
266 return bpf_dsl::Trap(SIGSYSFutexFailure, NULL);
269 bpf_dsl::ResultExpr RewriteSchedSIGSYS() {
270 return bpf_dsl::Trap(SIGSYSSchedHandler, NULL);
273 const char* GetErrorMessageContentForTests() {
274 return SECCOMP_MESSAGE_COMMON_CONTENT;
277 const char* GetCloneErrorMessageContentForTests() {
278 return SECCOMP_MESSAGE_CLONE_CONTENT;
281 const char* GetPrctlErrorMessageContentForTests() {
282 return SECCOMP_MESSAGE_PRCTL_CONTENT;
285 const char* GetIoctlErrorMessageContentForTests() {
286 return SECCOMP_MESSAGE_IOCTL_CONTENT;
289 const char* GetKillErrorMessageContentForTests() {
290 return SECCOMP_MESSAGE_KILL_CONTENT;
293 const char* GetFutexErrorMessageContentForTests() {
294 return SECCOMP_MESSAGE_FUTEX_CONTENT;
297 } // namespace sandbox.