Don't show supervised user as "already on this device" while they're being imported.
[chromium-blink-merge.git] / sandbox / win / src / crosscall_client.h
blob5b1bce71b2eab30b727a87afe9f35138e0580d85
1 // Copyright (c) 2012 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 #ifndef SANDBOX_SRC_CROSSCALL_CLIENT_H_
6 #define SANDBOX_SRC_CROSSCALL_CLIENT_H_
8 #include "sandbox/win/src/crosscall_params.h"
9 #include "sandbox/win/src/sandbox.h"
11 // This header defines the CrossCall(..) family of templated functions
12 // Their purpose is to simulate the syntax of regular call but to generate
13 // and IPC from the client-side.
15 // The basic pattern is to
16 // 1) use template argument deduction to compute the size of each
17 // parameter and the appropriate copy method
18 // 2) pack the parameters in the appropriate ActualCallParams< > object
19 // 3) call the IPC interface IPCProvider::DoCall( )
21 // The general interface of CrossCall is:
22 // ResultCode CrossCall(IPCProvider& ipc_provider,
23 // uint32 tag,
24 // const Par1& p1, const Par2& p2,...pn
25 // CrossCallReturn* answer)
27 // where:
28 // ipc_provider: is a specific implementation of the ipc transport see
29 // sharedmem_ipc_server.h for an example.
30 // tag : is the unique id for this IPC call. Is used to route the call to
31 // the appropriate service.
32 // p1, p2,.. pn : The input parameters of the IPC. Use only simple types
33 // and wide strings (can add support for others).
34 // answer : If the IPC was successful. The server-side answer is here. The
35 // interpretation of the answer is private to client and server.
37 // The return value is ALL_OK if the IPC was delivered to the server, other
38 // return codes indicate that the IPC transport failed to deliver it.
39 namespace sandbox {
41 // this is the assumed channel size. This can be overridden in a given
42 // IPC implementation.
43 const uint32 kIPCChannelSize = 1024;
45 // The copy helper uses templates to deduce the appropriate copy function to
46 // copy the input parameters in the buffer that is going to be send across the
47 // IPC. These template facility can be made more sophisticated as need arises.
49 // The default copy helper. It catches the general case where no other
50 // specialized template matches better. We set the type to UINT32_TYPE, so this
51 // only works with objects whose size is 32 bits.
52 template<typename T>
53 class CopyHelper {
54 public:
55 CopyHelper(const T& t) : t_(t) {}
57 // Returns the pointer to the start of the input.
58 const void* GetStart() const {
59 return &t_;
62 // Update the stored value with the value in the buffer. This is not
63 // supported for this type.
64 bool Update(void* buffer) {
65 // Not supported;
66 return true;
69 // Returns the size of the input in bytes.
70 uint32 GetSize() const {
71 return sizeof(T);
74 // Returns true if the current type is used as an In or InOut parameter.
75 bool IsInOut() {
76 return false;
79 // Returns this object's type.
80 ArgType GetType() {
81 static_assert(sizeof(T) == sizeof(uint32), "specialization needed");
82 return UINT32_TYPE;
85 private:
86 const T& t_;
89 // This copy helper template specialization if for the void pointer
90 // case both 32 and 64 bit.
91 template<>
92 class CopyHelper<void*> {
93 public:
94 CopyHelper(void* t) : t_(t) {}
96 // Returns the pointer to the start of the input.
97 const void* GetStart() const {
98 return &t_;
101 // Update the stored value with the value in the buffer. This is not
102 // supported for this type.
103 bool Update(void* buffer) {
104 // Not supported;
105 return true;
108 // Returns the size of the input in bytes.
109 uint32 GetSize() const {
110 return sizeof(t_);
113 // Returns true if the current type is used as an In or InOut parameter.
114 bool IsInOut() {
115 return false;
118 // Returns this object's type.
119 ArgType GetType() {
120 return VOIDPTR_TYPE;
123 private:
124 const void* t_;
127 // This copy helper template specialization catches the cases where the
128 // parameter is a pointer to a string.
129 template<>
130 class CopyHelper<const wchar_t*> {
131 public:
132 CopyHelper(const wchar_t* t)
133 : t_(t) {
136 // Returns the pointer to the start of the string.
137 const void* GetStart() const {
138 return t_;
141 // Update the stored value with the value in the buffer. This is not
142 // supported for this type.
143 bool Update(void* buffer) {
144 // Not supported;
145 return true;
148 // Returns the size of the string in bytes. We define a NULL string to
149 // be of zero length.
150 uint32 GetSize() const {
151 __try {
152 return (!t_) ? 0 : static_cast<uint32>(StringLength(t_) * sizeof(t_[0]));
154 __except(EXCEPTION_EXECUTE_HANDLER) {
155 return kuint32max;
159 // Returns true if the current type is used as an In or InOut parameter.
160 bool IsInOut() {
161 return false;
164 ArgType GetType() {
165 return WCHAR_TYPE;
168 private:
169 // We provide our not very optimized version of wcslen(), since we don't
170 // want to risk having the linker use the version in the CRT since the CRT
171 // might not be present when we do an early IPC call.
172 static size_t __cdecl StringLength(const wchar_t* wcs) {
173 const wchar_t *eos = wcs;
174 while (*eos++);
175 return static_cast<size_t>(eos - wcs - 1);
178 const wchar_t* t_;
181 // Specialization for non-const strings. We just reuse the implementation of the
182 // const string specialization.
183 template<>
184 class CopyHelper<wchar_t*> : public CopyHelper<const wchar_t*> {
185 public:
186 typedef CopyHelper<const wchar_t*> Base;
187 CopyHelper(wchar_t* t) : Base(t) {}
189 const void* GetStart() const {
190 return Base::GetStart();
193 bool Update(void* buffer) {
194 return Base::Update(buffer);
197 uint32 GetSize() const {
198 return Base::GetSize();
201 bool IsInOut() {
202 return Base::IsInOut();
205 ArgType GetType() {
206 return Base::GetType();
210 // Specialization for wchar_t arrays strings. We just reuse the implementation
211 // of the const string specialization.
212 template<size_t n>
213 class CopyHelper<const wchar_t[n]> : public CopyHelper<const wchar_t*> {
214 public:
215 typedef const wchar_t array[n];
216 typedef CopyHelper<const wchar_t*> Base;
217 CopyHelper(array t) : Base(t) {}
219 const void* GetStart() const {
220 return Base::GetStart();
223 bool Update(void* buffer) {
224 return Base::Update(buffer);
227 uint32 GetSize() const {
228 return Base::GetSize();
231 bool IsInOut() {
232 return Base::IsInOut();
235 ArgType GetType() {
236 return Base::GetType();
240 // Generic encapsulation class containing a pointer to a buffer and the
241 // size of the buffer. It is used by the IPC to be able to pass in/out
242 // parameters.
243 class InOutCountedBuffer : public CountedBuffer {
244 public:
245 InOutCountedBuffer(void* buffer, uint32 size) : CountedBuffer(buffer, size) {}
248 // This copy helper template specialization catches the cases where the
249 // parameter is a an input/output buffer.
250 template<>
251 class CopyHelper<InOutCountedBuffer> {
252 public:
253 CopyHelper(const InOutCountedBuffer t) : t_(t) {}
255 // Returns the pointer to the start of the string.
256 const void* GetStart() const {
257 return t_.Buffer();
260 // Updates the buffer with the value from the new buffer in parameter.
261 bool Update(void* buffer) {
262 // We are touching user memory, this has to be done from inside a try
263 // except.
264 __try {
265 memcpy(t_.Buffer(), buffer, t_.Size());
267 __except(EXCEPTION_EXECUTE_HANDLER) {
268 return false;
270 return true;
273 // Returns the size of the string in bytes. We define a NULL string to
274 // be of zero length.
275 uint32 GetSize() const {
276 return t_.Size();
279 // Returns true if the current type is used as an In or InOut parameter.
280 bool IsInOut() {
281 return true;
284 ArgType GetType() {
285 return INOUTPTR_TYPE;
288 private:
289 const InOutCountedBuffer t_;
292 // The following two macros make it less error prone the generation
293 // of CrossCall functions with ever more input parameters.
295 #define XCALL_GEN_PARAMS_OBJ(num, params) \
296 typedef ActualCallParams<num, kIPCChannelSize> ActualParams; \
297 void* raw_mem = ipc_provider.GetBuffer(); \
298 if (NULL == raw_mem) \
299 return SBOX_ERROR_NO_SPACE; \
300 ActualParams* params = new(raw_mem) ActualParams(tag);
302 #define XCALL_GEN_COPY_PARAM(num, params) \
303 static_assert(kMaxIpcParams >= num, "too many parameters"); \
304 CopyHelper<Par##num> ch##num(p##num); \
305 if (!params->CopyParamIn(num - 1, ch##num.GetStart(), ch##num.GetSize(), \
306 ch##num.IsInOut(), ch##num.GetType())) \
307 return SBOX_ERROR_NO_SPACE;
309 #define XCALL_GEN_UPDATE_PARAM(num, params) \
310 if (!ch##num.Update(params->GetParamPtr(num-1))) {\
311 ipc_provider.FreeBuffer(raw_mem); \
312 return SBOX_ERROR_BAD_PARAMS; \
315 #define XCALL_GEN_FREE_CHANNEL() \
316 ipc_provider.FreeBuffer(raw_mem);
318 // CrossCall template with one input parameter
319 template <typename IPCProvider, typename Par1>
320 ResultCode CrossCall(IPCProvider& ipc_provider, uint32 tag, const Par1& p1,
321 CrossCallReturn* answer) {
322 XCALL_GEN_PARAMS_OBJ(1, call_params);
323 XCALL_GEN_COPY_PARAM(1, call_params);
325 ResultCode result = ipc_provider.DoCall(call_params, answer);
327 if (SBOX_ERROR_CHANNEL_ERROR != result) {
328 XCALL_GEN_UPDATE_PARAM(1, call_params);
329 XCALL_GEN_FREE_CHANNEL();
332 return result;
335 // CrossCall template with two input parameters.
336 template <typename IPCProvider, typename Par1, typename Par2>
337 ResultCode CrossCall(IPCProvider& ipc_provider, uint32 tag, const Par1& p1,
338 const Par2& p2, CrossCallReturn* answer) {
339 XCALL_GEN_PARAMS_OBJ(2, call_params);
340 XCALL_GEN_COPY_PARAM(1, call_params);
341 XCALL_GEN_COPY_PARAM(2, call_params);
343 ResultCode result = ipc_provider.DoCall(call_params, answer);
345 if (SBOX_ERROR_CHANNEL_ERROR != result) {
346 XCALL_GEN_UPDATE_PARAM(1, call_params);
347 XCALL_GEN_UPDATE_PARAM(2, call_params);
348 XCALL_GEN_FREE_CHANNEL();
350 return result;
353 // CrossCall template with three input parameters.
354 template <typename IPCProvider, typename Par1, typename Par2, typename Par3>
355 ResultCode CrossCall(IPCProvider& ipc_provider, uint32 tag, const Par1& p1,
356 const Par2& p2, const Par3& p3, CrossCallReturn* answer) {
357 XCALL_GEN_PARAMS_OBJ(3, call_params);
358 XCALL_GEN_COPY_PARAM(1, call_params);
359 XCALL_GEN_COPY_PARAM(2, call_params);
360 XCALL_GEN_COPY_PARAM(3, call_params);
362 ResultCode result = ipc_provider.DoCall(call_params, answer);
364 if (SBOX_ERROR_CHANNEL_ERROR != result) {
365 XCALL_GEN_UPDATE_PARAM(1, call_params);
366 XCALL_GEN_UPDATE_PARAM(2, call_params);
367 XCALL_GEN_UPDATE_PARAM(3, call_params);
368 XCALL_GEN_FREE_CHANNEL();
370 return result;
373 // CrossCall template with four input parameters.
374 template <typename IPCProvider, typename Par1, typename Par2, typename Par3,
375 typename Par4>
376 ResultCode CrossCall(IPCProvider& ipc_provider, uint32 tag, const Par1& p1,
377 const Par2& p2, const Par3& p3, const Par4& p4,
378 CrossCallReturn* answer) {
379 XCALL_GEN_PARAMS_OBJ(4, call_params);
380 XCALL_GEN_COPY_PARAM(1, call_params);
381 XCALL_GEN_COPY_PARAM(2, call_params);
382 XCALL_GEN_COPY_PARAM(3, call_params);
383 XCALL_GEN_COPY_PARAM(4, call_params);
385 ResultCode result = ipc_provider.DoCall(call_params, answer);
387 if (SBOX_ERROR_CHANNEL_ERROR != result) {
388 XCALL_GEN_UPDATE_PARAM(1, call_params);
389 XCALL_GEN_UPDATE_PARAM(2, call_params);
390 XCALL_GEN_UPDATE_PARAM(3, call_params);
391 XCALL_GEN_UPDATE_PARAM(4, call_params);
392 XCALL_GEN_FREE_CHANNEL();
394 return result;
397 // CrossCall template with five input parameters.
398 template <typename IPCProvider, typename Par1, typename Par2, typename Par3,
399 typename Par4, typename Par5>
400 ResultCode CrossCall(IPCProvider& ipc_provider, uint32 tag, const Par1& p1,
401 const Par2& p2, const Par3& p3, const Par4& p4,
402 const Par5& p5, CrossCallReturn* answer) {
403 XCALL_GEN_PARAMS_OBJ(5, call_params);
404 XCALL_GEN_COPY_PARAM(1, call_params);
405 XCALL_GEN_COPY_PARAM(2, call_params);
406 XCALL_GEN_COPY_PARAM(3, call_params);
407 XCALL_GEN_COPY_PARAM(4, call_params);
408 XCALL_GEN_COPY_PARAM(5, call_params);
410 ResultCode result = ipc_provider.DoCall(call_params, answer);
412 if (SBOX_ERROR_CHANNEL_ERROR != result) {
413 XCALL_GEN_UPDATE_PARAM(1, call_params);
414 XCALL_GEN_UPDATE_PARAM(2, call_params);
415 XCALL_GEN_UPDATE_PARAM(3, call_params);
416 XCALL_GEN_UPDATE_PARAM(4, call_params);
417 XCALL_GEN_UPDATE_PARAM(5, call_params);
418 XCALL_GEN_FREE_CHANNEL();
420 return result;
423 // CrossCall template with six input parameters.
424 template <typename IPCProvider, typename Par1, typename Par2, typename Par3,
425 typename Par4, typename Par5, typename Par6>
426 ResultCode CrossCall(IPCProvider& ipc_provider, uint32 tag, const Par1& p1,
427 const Par2& p2, const Par3& p3, const Par4& p4,
428 const Par5& p5, const Par6& p6, CrossCallReturn* answer) {
429 XCALL_GEN_PARAMS_OBJ(6, call_params);
430 XCALL_GEN_COPY_PARAM(1, call_params);
431 XCALL_GEN_COPY_PARAM(2, call_params);
432 XCALL_GEN_COPY_PARAM(3, call_params);
433 XCALL_GEN_COPY_PARAM(4, call_params);
434 XCALL_GEN_COPY_PARAM(5, call_params);
435 XCALL_GEN_COPY_PARAM(6, call_params);
437 ResultCode result = ipc_provider.DoCall(call_params, answer);
439 if (SBOX_ERROR_CHANNEL_ERROR != result) {
440 XCALL_GEN_UPDATE_PARAM(1, call_params);
441 XCALL_GEN_UPDATE_PARAM(2, call_params);
442 XCALL_GEN_UPDATE_PARAM(3, call_params);
443 XCALL_GEN_UPDATE_PARAM(4, call_params);
444 XCALL_GEN_UPDATE_PARAM(5, call_params);
445 XCALL_GEN_UPDATE_PARAM(6, call_params);
446 XCALL_GEN_FREE_CHANNEL();
448 return result;
451 // CrossCall template with seven input parameters.
452 template <typename IPCProvider, typename Par1, typename Par2, typename Par3,
453 typename Par4, typename Par5, typename Par6, typename Par7>
454 ResultCode CrossCall(IPCProvider& ipc_provider, uint32 tag, const Par1& p1,
455 const Par2& p2, const Par3& p3, const Par4& p4,
456 const Par5& p5, const Par6& p6, const Par7& p7,
457 CrossCallReturn* answer) {
458 XCALL_GEN_PARAMS_OBJ(7, call_params);
459 XCALL_GEN_COPY_PARAM(1, call_params);
460 XCALL_GEN_COPY_PARAM(2, call_params);
461 XCALL_GEN_COPY_PARAM(3, call_params);
462 XCALL_GEN_COPY_PARAM(4, call_params);
463 XCALL_GEN_COPY_PARAM(5, call_params);
464 XCALL_GEN_COPY_PARAM(6, call_params);
465 XCALL_GEN_COPY_PARAM(7, call_params);
467 ResultCode result = ipc_provider.DoCall(call_params, answer);
469 if (SBOX_ERROR_CHANNEL_ERROR != result) {
470 XCALL_GEN_UPDATE_PARAM(1, call_params);
471 XCALL_GEN_UPDATE_PARAM(2, call_params);
472 XCALL_GEN_UPDATE_PARAM(3, call_params);
473 XCALL_GEN_UPDATE_PARAM(4, call_params);
474 XCALL_GEN_UPDATE_PARAM(5, call_params);
475 XCALL_GEN_UPDATE_PARAM(6, call_params);
476 XCALL_GEN_UPDATE_PARAM(7, call_params);
477 XCALL_GEN_FREE_CHANNEL();
479 return result;
481 } // namespace sandbox
483 #endif // SANDBOX_SRC_CROSSCALL_CLIENT_H__