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android / platform / external / fastrpc / d9d953a35f7b0309f5670349ca1aef7840b599da / . / src / apps_std_imp.c
blob: d2559c60d2d6ea4cfe4123d26febd655068e3bf8 [file] [log] [blame]
/*
* Copyright (c) 2019, The Linux Foundation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifdef _WIN32
#ifndef _CRT_SECURE_NO_WARNINGS
#define _CRT_SECURE_NO_WARNINGS
#endif// _CRT_SECURE_NO_WARNINGS
#pragma warning( disable : 4996 )
#define strtok_r strtok_s
#define S_ISDIR(mode) (mode & S_IFDIR)
#endif //_WIN32
#ifndef VERIFY_PRINT_ERROR
#define VERIFY_PRINT_ERROR
#endif //VERIFY_PRINT_ERROR
#define FARF_ERROR 1
#include <stdlib.h>
#include <errno.h>
#include <string.h>
#include <pthread.h>
#include <dlfcn.h>
#include <dirent.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <stdio.h>
#include "remote.h"
#include "verify.h"
#include "apps_std.h"
#include "AEEstd.h"
#include "AEEStdErr.h"
#include "AEEatomic.h"
#include "AEEQList.h"
#include "platform_libs.h"
#include "fastrpc_apps_user.h"
#include "HAP_farf.h"
#include "rpcmem.h"
#ifndef _WIN32
#include <unistd.h>
#endif // _WiN32
#ifndef C_ASSERT
#define C_ASSERT(test) \
switch(0) {\
case 0:\
case test:;\
}
#endif //C_ASSERT
#define APPS_FD_BASE 100
#define ERRNO (errno == 0 ? -1 : errno)
#define APPS_STD_STREAM_FILE 1
#define APPS_STD_STREAM_BUF 2
#define ION_HEAP_ID_QSEECOM 27
#define FREEIF(pv) \
do {\
if(pv) { \
void* tmp = (void*)pv;\
pv = 0;\
free(tmp);\
tmp = 0;\
} \
} while(0)
extern int get_domain_id();
struct apps_std_buf_info {
char* fbuf;
int flen;
int pos;
};
struct apps_std_info {
QNode qn;
int type;
union {
FILE* stream;
struct apps_std_buf_info binfo;
} u;
apps_std_FILE fd;
};
static QList apps_std_qlst;
static pthread_mutex_t apps_std_mt;
int setenv(const char *name, const char *value, int overwrite);
int unsetenv(const char *name);
int apps_std_init(void) {
QList_Ctor(&apps_std_qlst);
pthread_mutex_init(&apps_std_mt, 0);
return AEE_SUCCESS;
}
void apps_std_deinit(void) {
pthread_mutex_destroy(&apps_std_mt);
}
PL_DEFINE(apps_std, apps_std_init, apps_std_deinit);
static int apps_std_FILE_free(struct apps_std_info* sfree) {
int nErr = AEE_SUCCESS;
pthread_mutex_lock(&apps_std_mt);
QNode_Dequeue(&sfree->qn);
pthread_mutex_unlock(&apps_std_mt);
free(sfree);
sfree = NULL;
return nErr;
}
static int apps_std_FILE_alloc(FILE *stream, apps_std_FILE *fd) {
struct apps_std_info *sinfo = 0, *info;
QNode *pn = 0;
apps_std_FILE prevfd = APPS_FD_BASE - 1;
int nErr = AEE_SUCCESS;
VERIFYC(0 != (sinfo = calloc(1, sizeof(*sinfo))), AEE_ENOMEMORY);
QNode_CtorZ(&sinfo->qn);
sinfo->type = APPS_STD_STREAM_FILE;
pthread_mutex_lock(&apps_std_mt);
pn = QList_GetFirst(&apps_std_qlst);
if(pn) {
info = STD_RECOVER_REC(struct apps_std_info, qn, pn);
prevfd = info->fd;
QLIST_FOR_REST(&apps_std_qlst, pn) {
info = STD_RECOVER_REC(struct apps_std_info, qn, pn);
if (info->fd != prevfd + 1) {
sinfo->fd = prevfd + 1;
QNode_InsPrev(pn, &sinfo->qn);
break;
}
prevfd = info->fd;
}
}
if(!QNode_IsQueuedZ(&sinfo->qn)) {
sinfo->fd = prevfd + 1;
QList_AppendNode(&apps_std_qlst, &sinfo->qn);
}
pthread_mutex_unlock(&apps_std_mt);
sinfo->u.stream = stream;
*fd = sinfo->fd;
bail:
if(nErr) {
FREEIF(sinfo);
VERIFY_EPRINTF("Error %x: apps_std_FILE_alloc failed\n", nErr);
}
return nErr;
}
static int apps_std_FILE_get(apps_std_FILE fd, struct apps_std_info** info) {
struct apps_std_info *sinfo = 0;
QNode *pn, *pnn;
FILE* stream = NULL;
int nErr = AEE_ENOSUCHSTREAM;
pthread_mutex_lock(&apps_std_mt);
QLIST_NEXTSAFE_FOR_ALL(&apps_std_qlst, pn, pnn) {
sinfo = STD_RECOVER_REC(struct apps_std_info, qn, pn);
if(sinfo->fd == fd) {
*info = sinfo;
nErr = AEE_SUCCESS;
break;
}
}
pthread_mutex_unlock(&apps_std_mt);
return nErr;
}
static void apps_std_FILE_set_buffer_stream(struct apps_std_info* sinfo, char* fbuf, int flen, int pos) {
pthread_mutex_lock(&apps_std_mt);
fclose(sinfo->u.stream);
sinfo->type = APPS_STD_STREAM_BUF;
sinfo->u.binfo.fbuf = fbuf;
sinfo->u.binfo.flen = flen;
sinfo->u.binfo.pos = pos;
pthread_mutex_unlock(&apps_std_mt);
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fopen)(const char* name, const char* mode, apps_std_FILE* psout) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
FILE* stream = fopen(name, mode);
if(stream) {
return apps_std_FILE_alloc(stream, psout);
} else {
nErr = AEE_ENOSUCHFILE;
}
if(nErr != AEE_SUCCESS) {
// Ignoring this error, as fopen happens on all ADSP_LIBRARY_PATHs
VERIFY_IPRINTF("Error %x: fopen for %s failed. errno: %s\n", nErr, name, strerror(ERRNO));
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_freopen)(apps_std_FILE sin, const char* name, const char* mode, apps_std_FILE* psout) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
FILE* stream;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
VERIFY(sinfo->type == APPS_STD_STREAM_FILE);
stream = freopen(name, mode, sinfo->u.stream);
if(stream) {
FARF(HIGH, "freopen success: %s %x\n", name, stream);
return apps_std_FILE_alloc(stream, psout);
} else {
nErr = AEE_EFOPEN;
}
bail:
if(nErr != AEE_SUCCESS) {
VERIFY_EPRINTF("Error %x: freopen for %s failed. errno: %s\n", nErr, name, strerror(ERRNO));
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fflush)(apps_std_FILE sin) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
VERIFYC(0 == fflush(sinfo->u.stream), AEE_EFFLUSH);
}
bail:
if(nErr != AEE_SUCCESS) {
VERIFY_EPRINTF("Error %x: fflush for %x failed. errno: %s\n", nErr, sin, strerror(ERRNO));
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fclose)(apps_std_FILE sin) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
VERIFYC(0 == fclose(sinfo->u.stream), AEE_EFCLOSE);
} else {
if(sinfo->u.binfo.fbuf) {
rpcmem_free_internal(sinfo->u.binfo.fbuf);
sinfo->u.binfo.fbuf = NULL;
}
}
apps_std_FILE_free(sinfo);
bail:
if(nErr != AEE_SUCCESS) {
VERIFY_EPRINTF("Error %x: freopen for %x failed. errno: %s\n", nErr, sin, strerror(ERRNO));
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fread)(apps_std_FILE sin, byte* buf, int bufLen, int* bytesRead, int* bEOF) __QAIC_IMPL_ATTRIBUTE {
int out = 0, nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
out = fread(buf, 1, bufLen, sinfo->u.stream);
*bEOF = FALSE;
if(out <= bufLen) {
int err;
if(0 == out && (0 != (err = ferror(sinfo->u.stream)))) {
nErr = AEE_EFREAD;
VERIFY_EPRINTF("Error %x: fread returning %d bytes, requested was %d bytes, errno is %x\n", nErr, out, bufLen, err);
return nErr;
}
*bEOF = feof(sinfo->u.stream);
}
*bytesRead = out;
} else {
*bytesRead = std_memscpy(buf, bufLen, sinfo->u.binfo.fbuf + sinfo->u.binfo.pos,
sinfo->u.binfo.flen - sinfo->u.binfo.pos);
sinfo->u.binfo.pos += *bytesRead;
*bEOF = sinfo->u.binfo.pos == sinfo->u.binfo.flen ? TRUE : FALSE;
}
FARF(HIGH, "fread returning %d %d 0", out, bufLen);
bail:
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fwrite)(apps_std_FILE sin, const byte* buf, int bufLen, int* bytesRead, int* bEOF) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
int out = fwrite(buf, 1, bufLen, sinfo->u.stream);
*bEOF = FALSE;
if(out <= bufLen) {
int err;
if(0 == out && (0 != (err = ferror(sinfo->u.stream)))) {
nErr = AEE_EFWRITE;
VERIFY_EPRINTF("Error %x: fwrite returning %d bytes, requested was %d bytes, errno is %x\n", nErr, out, bufLen, err);
return nErr;
}
*bEOF = feof(sinfo->u.stream);
}
*bytesRead = out;
} else {
nErr = AEE_EFWRITE;
}
bail:
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fgetpos)(apps_std_FILE sin, byte* pos, int posLen, int* posLenReq) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
fpos_t fpos;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
if(0 == fgetpos(sinfo->u.stream, &fpos)) {
std_memmove(pos, &fpos, STD_MIN((int)sizeof(fpos), posLen));
*posLenReq = sizeof(fpos);
return AEE_SUCCESS;
} else {
nErr = AEE_EFGETPOS;
}
} else {
nErr = AEE_EFGETPOS;
}
bail:
VERIFY_EPRINTF("Error %x: fgetpos failed for %x, errno is %s\n", nErr, sin, strerror(ERRNO));
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fsetpos)(apps_std_FILE sin, const byte* pos, int posLen) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
fpos_t fpos;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
if(sizeof(fpos) != posLen) {
return AEE_EBADSIZE;
}
std_memmove(&fpos, pos, sizeof(fpos));
if(0 == fsetpos(sinfo->u.stream, &fpos)) {
return AEE_SUCCESS;
} else {
nErr = AEE_EFSETPOS;
}
} else {
nErr = AEE_EFSETPOS;
}
bail:
VERIFY_EPRINTF("Error %x: fsetpos failed for %x, errno is %s\n", nErr, sin, strerror(ERRNO));
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_ftell)(apps_std_FILE sin, int* pos) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
if((*pos = ftell(sinfo->u.stream)) >= 0) {
return AEE_SUCCESS;
} else {
nErr = AEE_EFTELL;
}
} else {
*pos = sinfo->u.binfo.pos;
return AEE_SUCCESS;
}
bail:
VERIFY_EPRINTF("Error %x: ftell failed for %x, errno is %s\n", nErr, sin, strerror(ERRNO));
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fseek)(apps_std_FILE sin, int offset, apps_std_SEEK whence) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
int op = (int)whence;
struct apps_std_info* sinfo = 0;
C_ASSERT(APPS_STD_SEEK_SET == SEEK_SET);
C_ASSERT(APPS_STD_SEEK_CUR == SEEK_CUR);
C_ASSERT(APPS_STD_SEEK_END == SEEK_END);
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
if(0 == fseek(sinfo->u.stream, offset, whence)) {
return AEE_SUCCESS;
} else {
nErr = AEE_EFSEEK;
}
} else {
switch(op) {
case APPS_STD_SEEK_SET:
VERIFYC(offset <= sinfo->u.binfo.flen, AEE_EFSEEK);
sinfo->u.binfo.pos = offset;
break;
case APPS_STD_SEEK_CUR:
VERIFYC(offset + sinfo->u.binfo.pos <= sinfo->u.binfo.flen, AEE_EFSEEK);
sinfo->u.binfo.pos += offset;
break;
case APPS_STD_SEEK_END:
VERIFYC(offset + sinfo->u.binfo.flen <= sinfo->u.binfo.flen, AEE_EFSEEK);
sinfo->u.binfo.pos += offset + sinfo->u.binfo.flen;
break;
}
}
bail:
if(nErr != AEE_SUCCESS) {
VERIFY_EPRINTF("Error %x: fseek failed for %x, errno is %s\n", nErr, sin, strerror(ERRNO));
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_rewind)(apps_std_FILE sin) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
rewind(sinfo->u.stream);
} else {
sinfo->u.binfo.pos = 0;
}
bail:
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_feof)(apps_std_FILE sin, int* bEOF) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
*bEOF = feof(sinfo->u.stream);
} else {
nErr = AEE_EUNSUPPORTED;
}
bail:
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_ferror)(apps_std_FILE sin, int* err) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
*err = ferror(sinfo->u.stream);
} else {
nErr = AEE_EUNSUPPORTED;
}
bail:
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_clearerr)(apps_std_FILE sin) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
clearerr(sinfo->u.stream);
} else {
nErr = AEE_EUNSUPPORTED;
}
bail:
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_flen)(apps_std_FILE sin, uint64* len) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
struct stat st_buf;
int fd = fileno(sinfo->u.stream);
C_ASSERT(sizeof(st_buf.st_size) <= sizeof(*len));
if(fd == -1) {
nErr = AEE_EFLEN;
VERIFY_EPRINTF("Error %x: flen failed for %x, errno is %s\n", nErr, sin, strerror(ERRNO));
return nErr;
}
if(0 != fstat(fd, &st_buf)) {
nErr = AEE_EFLEN;
VERIFY_EPRINTF("Error %x: flen failed for %x, errno is %s\n", nErr, sin, strerror(ERRNO));
return nErr;
}
*len = st_buf.st_size;
} else {
*len = sinfo->u.binfo.flen;
}
bail:
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_print_string)(const char* str) __QAIC_IMPL_ATTRIBUTE {
printf("%s", str);
return AEE_SUCCESS;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_getenv)(const char* name, char* val, int valLen, int* valLenReq) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
char* vv = getenv(name);
if(vv) {
*valLenReq = std_strlen(vv) + 1;
std_strlcpy(val, vv, valLen);
return AEE_SUCCESS;
}
nErr = AEE_EGETENV;
VERIFY_IPRINTF("Error %x: apps_std getenv failed: %s %s\n", nErr, name, strerror(ERRNO));
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_setenv)(const char* name, const char* val, int override) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
#ifdef _WIN32
return AEE_EUNSUPPORTED;
#else //_WIN32
if(0 != setenv(name, val, override)) {
nErr = AEE_ESETENV;
VERIFY_EPRINTF("Error %x: setenv failed for %s, errno is %s\n", nErr, name, strerror(ERRNO));
return nErr;
}
return AEE_SUCCESS;
#endif //_WIN32
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_unsetenv)(const char* name) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
#ifdef _WIN32
return AEE_EUNSUPPORTED;
#else //_WIN32
if(0 != unsetenv(name)) {
nErr = AEE_ESETENV;
VERIFY_EPRINTF("Error %x: unsetenv failed for %s, errno is %s\n", nErr, name, strerror(ERRNO));
return nErr;
}
return AEE_SUCCESS;
#endif //_WIN32
}
#if (defined LE_ENABLE)
static char* ADSP_LIBRARY_PATH=";/usr/lib/rfsa/adsp;/usr/lib;/dsp;/usr/share/fastrpc";
static char* ADSP_AVS_CFG_PATH=";/etc/acdbdata/";
#elif (defined __BRILLO__)
static char* ADSP_LIBRARY_PATH=";/system/etc/lib/rfsa/adsp;/system/vendor/etc/lib/rfsa/adsp;/dsp";
static char* ADSP_AVS_CFG_PATH=";/etc/acdbdata/";
#elif (defined _ANDROID) || (defined ANDROID)
#if (defined ANDROID_P) && (defined FULL_TREBLE)
#ifdef SYSTEM_RPC_LIBRARY
static char* ADSP_LIBRARY_PATH=";/system/lib/rfsa/adsp";
static char* ADSP_AVS_CFG_PATH=";/etc/acdbdata/";
#else
static char* ADSP_LIBRARY_PATH=";/vendor/lib/rfsa/adsp;/vendor/dsp";
static char* ADSP_AVS_CFG_PATH=";/vendor/etc/acdbdata/";
#endif
#else
static char* ADSP_LIBRARY_PATH=";/system/lib/rfsa/adsp;/system/vendor/lib/rfsa/adsp;/dsp;/vendor/dsp";
static char* ADSP_AVS_CFG_PATH=";/etc/acdbdata/;/vendor/etc/acdbdata/";
#endif
#elif (defined __QNX__)
static char* ADSP_LIBRARY_PATH="/radio/lib/firmware";
#else
static char* ADSP_LIBRARY_PATH="";
#endif
#define EMTPY_STR ""
#define ENV_LEN_GUESS 256
static int get_dirlist_from_env(const char* envvarname, char** ppDirList){
char *envList = NULL;
char *envListBuf = NULL;
char *dirList = NULL;
char *dirListBuf = NULL;
char *srcStr = NULL;
int nErr = AEE_SUCCESS;
int envListLen = 0;
int listLen = 0;
int envLenGuess = STD_MAX(ENV_LEN_GUESS, 1 + std_strlen(ADSP_LIBRARY_PATH));
VERIFYC(NULL != ppDirList, AEE_EMEMPTR);
VERIFYC(envListBuf = (char*)malloc(sizeof(char) * envLenGuess), AEE_ENOMEMORY);
envList = envListBuf;
*envList = '\0';
if (0 == apps_std_getenv(envvarname, envList, envLenGuess, &envListLen)) {
if (envLenGuess < envListLen) {
FREEIF(envListBuf);
VERIFYC(envListBuf = realloc(envListBuf, sizeof(char) * envListLen), AEE_ENOMEMORY);
envList = envListBuf;
VERIFY(0 == (nErr = apps_std_getenv(envvarname, envList, envListLen, &listLen)));
}
} else if(std_strncmp(envvarname, "ADSP_LIBRARY_PATH", 17) == 0) {
envListLen = listLen = 1 + std_strlcpy(envListBuf, ADSP_LIBRARY_PATH, envLenGuess);
} else if(std_strncmp(envvarname, "ADSP_AVS_CFG_PATH", 17) == 0) {
envListLen = listLen = 1 + std_strlcpy(envListBuf, ADSP_AVS_CFG_PATH, envLenGuess);
}
/*
* Allocate mem. to copy envvarname.
* If envvarname not set, allocate mem to create an empty string
*/
if('\0' != *envList) {
srcStr = envList;
} else {
srcStr = EMTPY_STR;
envListLen = std_strlen(EMTPY_STR) + 1;
}
VERIFYC(dirListBuf = (char*)malloc(sizeof(char) * envListLen), AEE_ENOMEMORY);
dirList = dirListBuf;
std_strlcpy(dirList, srcStr, envListLen);
*ppDirList = dirListBuf;
bail:
FREEIF(envListBuf);
if(nErr != AEE_SUCCESS) {
VERIFY_EPRINTF("Error %x: get dirlist from env failed for %s\n", nErr, envvarname);
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fopen_with_env)(const char* envvarname,
const char* delim, const char* name, const char* mode,
apps_std_FILE* psout) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
char *dirName = NULL;
char *pos = NULL;
char *dirListBuf = NULL;
char *dirList = NULL;
char *absName = NULL;
uint16 absNameLen = 0;
int domain;
VERIFYC(NULL != mode, AEE_EINVALIDMODE);
VERIFYC(NULL != delim, AEE_EINVALIDFORMAT);
VERIFYC(NULL != name, AEE_EMEMPTR);
VERIFY(0 == (nErr = get_dirlist_from_env(envvarname, &dirListBuf )));
VERIFYC(NULL != (dirList = dirListBuf), AEE_EMEMPTR);
while(dirList)
{
pos = strstr(dirList, delim);
dirName = dirList;
if (pos) {
*pos = '\0';
dirList = pos + std_strlen(delim);
} else {
dirList = 0;
}
// Account for slash char
absNameLen = std_strlen(dirName) + std_strlen(name) + 2;
VERIFYC(NULL != (absName = (char*)malloc(sizeof(char) * absNameLen)), AEE_ENOMEMORY);
if ('\0' != *dirName) {
std_strlcpy(absName, dirName, absNameLen);
std_strlcat(absName, "/", absNameLen);
std_strlcat(absName, name, absNameLen);
} else {
std_strlcpy(absName, name, absNameLen);
}
nErr = apps_std_fopen(absName, mode, psout);
FREEIF(absName);
if (AEE_SUCCESS == nErr) {
// Success
goto bail;
}
}
domain = get_domain_id() & DOMAIN_ID_MASK;
#ifdef ANDROID_P
absNameLen = std_strlen("/vendor/dsp/adsp/") + std_strlen(name) + 1;
VERIFYC(NULL != (absName = (char*)malloc(sizeof(char) * absNameLen)), AEE_ENOMEMORY);
if (domain == ADSP_DOMAIN_ID){
std_strlcpy(absName, "/vendor/dsp/adsp/", absNameLen);
std_strlcat(absName, name,absNameLen);
} else if (domain == MDSP_DOMAIN_ID){
std_strlcpy(absName, "/vendor/dsp/mdsp/", absNameLen);
std_strlcat(absName, name,absNameLen);
} else if (domain == SDSP_DOMAIN_ID){
std_strlcpy(absName, "/vendor/dsp/sdsp/", absNameLen);
std_strlcat(absName, name,absNameLen);
} else if (domain == CDSP_DOMAIN_ID) {
std_strlcpy(absName, "/vendor/dsp/cdsp/", absNameLen);
std_strlcat(absName, name,absNameLen);
} else {
absName[0] = '\0';
}
nErr = apps_std_fopen(absName, mode, psout);
#else
absNameLen = std_strlen("/dsp/adsp/") + std_strlen(name) + 1;
VERIFYC(NULL != (absName = (char*)malloc(sizeof(char) * absNameLen)), AEE_ENOMEMORY);
if (domain == ADSP_DOMAIN_ID){
std_strlcpy(absName, "/dsp/adsp/", absNameLen);
std_strlcat(absName, name,absNameLen);
} else if (domain == MDSP_DOMAIN_ID){
std_strlcpy(absName, "/dsp/mdsp/", absNameLen);
std_strlcat(absName, name,absNameLen);
} else if (domain == SDSP_DOMAIN_ID){
std_strlcpy(absName, "/dsp/sdsp/", absNameLen);
std_strlcat(absName, name,absNameLen);
} else if (domain == CDSP_DOMAIN_ID) {
std_strlcpy(absName, "/dsp/cdsp/", absNameLen);
std_strlcat(absName, name,absNameLen);
} else {
absName[0] = '\0';
}
nErr = apps_std_fopen(absName, mode, psout);
#endif
bail:
FREEIF(absName);
FREEIF(dirListBuf);
if (nErr != AEE_SUCCESS) {
VERIFY_IPRINTF("Error %x: fopen failed for %s. (%s)", nErr, name, strerror(ERRNO));
}
return nErr;
}
__QAIC_HEADER_EXPORT int __QAIC_IMPL(apps_std_get_search_paths_with_env)(
const char* envvarname, const char* delim, _cstring1_t* paths,
int pathsLen, uint32* numPaths, uint16* maxPathLen) __QAIC_IMPL_ATTRIBUTE{
char *path = NULL;
int nErr = AEE_SUCCESS;
char *dirListBuf = NULL;
int i = 0;
char *saveptr = NULL;
struct stat st;
VERIFYC(NULL != numPaths, AEE_EBADSIZE);
VERIFYC(NULL != delim, AEE_EINVALIDFORMAT);
VERIFYC(NULL != maxPathLen, AEE_EBADSIZE);
VERIFY(AEE_SUCCESS == (nErr = get_dirlist_from_env(envvarname, &dirListBuf )));
*numPaths = 0;
*maxPathLen = 0;
// Get the number of folders
path = strtok_r (dirListBuf, delim, &saveptr);
while (path != NULL){
// If the path exists, add it to the return
if ((stat(path, &st) == 0) && (S_ISDIR(st.st_mode))) {
*maxPathLen = STD_MAX(*maxPathLen, std_strlen(path)+1);
if (paths && i < pathsLen && paths[i].data && paths[i].dataLen >= std_strlen(path)) {
std_strlcpy(paths[i].data, path, paths[i].dataLen);
}
i++;
}
path = strtok_r (NULL, delim, &saveptr);
}
*numPaths = i;
bail:
FREEIF(dirListBuf);
if (nErr != AEE_SUCCESS) {
VERIFY_EPRINTF("Error %x: apps_std_get_search_paths_with_env failed\n", nErr);
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fgets)(apps_std_FILE sin, byte* buf, int bufLen, int* bEOF) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
char* out = fgets((char*)buf, bufLen, sinfo->u.stream);
*bEOF = FALSE;
if(!out) {
int err;
if(0 != (err = ferror(sinfo->u.stream))) {
nErr = AEE_EFGETS;
VERIFY_EPRINTF("Error %x: fgets failed for %x, errno is %s\n", nErr, sin, strerror(ERRNO));
return nErr;
}
*bEOF = feof(sinfo->u.stream);
}
} else {
nErr = AEE_EUNSUPPORTED;
}
bail:
return nErr;
}
__QAIC_HEADER_EXPORT int __QAIC_HEADER(apps_std_fileExists)(const char* path, boolean* exists) __QAIC_HEADER_ATTRIBUTE{
int nErr = AEE_SUCCESS;
struct stat buffer;
VERIFYC(path != NULL, AEE_EMEMPTR);
VERIFYC(exists != NULL, AEE_EMEMPTR);
*exists = (stat (path, &buffer) == 0);
bail:
if (nErr != AEE_SUCCESS) {
VERIFY_EPRINTF("Error %x: fileExists failed for path %s\n", nErr, path);
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fsync)(apps_std_FILE sin) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct apps_std_info* sinfo = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
// This flushes the given sin file stream to user-space buffer.
// NOTE: this does NOT ensure data is physically sotred on disk
nErr = fflush(sinfo->u.stream);
if(nErr != AEE_SUCCESS){
VERIFY_EPRINTF("Error %x: apps_std fsync failed,errno is %s\n", nErr, strerror(ERRNO));
}
} else {
nErr = AEE_EUNSUPPORTED;
}
bail:
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fremove)(const char* name) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
if(NULL == name){
return nErr;
}
nErr = remove(name);
if(nErr != AEE_SUCCESS){
VERIFY_EPRINTF("Error %x: failed to remove file %s,errno is %s\n", nErr, name, strerror(ERRNO));
}
return nErr;
}
static int decrypt_int(char* fbuf, int size) {
int nErr = 0, fd;
void* handle = 0;
int32_t (*l_init)(void);
int32_t (*l_deinit)(void);
int32_t (*l_decrypt)(int32_t, int32_t);
VERIFYC(NULL != (handle = dlopen("liblmclient.so", RTLD_NOW)), AEE_EBADHANDLE);
VERIFYC(NULL != (l_init = dlsym(handle, "license_manager_init")), AEE_ENOSUCHSYMBOL);
VERIFYC(NULL != (l_deinit = dlsym(handle, "license_manager_deinit")), AEE_ENOSUCHSYMBOL);
VERIFYC(NULL != (l_decrypt = dlsym(handle, "license_manager_decrypt")), AEE_ENOSUCHSYMBOL);
VERIFY(0 == (nErr = l_init()));
VERIFY(-1 != (fd = rpcmem_to_fd_internal(fbuf)));
VERIFY(0 == (nErr = l_decrypt(fd, size)));
VERIFY(0 == (nErr = l_deinit()));
bail:
if(nErr) {
VERIFY_EPRINTF("Error %x: dlopen for licmgr failed. errno: %s\n", nErr, dlerror());
}
if(handle) {
dlclose(handle);
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_fdopen_decrypt)(apps_std_FILE sin, apps_std_FILE *psout) __QAIC_IMPL_ATTRIBUTE {
int fd, nErr = AEE_SUCCESS;
struct stat st_buf;
struct apps_std_info* sinfo = 0;
int sz, pos;
char* fbuf = 0;
VERIFY(0 == (nErr = apps_std_FILE_get(sin, &sinfo)));
if(sinfo->type == APPS_STD_STREAM_FILE) {
pos = ftell(sinfo->u.stream);
VERIFYC(-1 != (fd = fileno(sinfo->u.stream)), AEE_EFLEN);
VERIFYC(0 == fstat(fd, &st_buf), AEE_EFLEN);
sz = (int)st_buf.st_size;
VERIFYC(0 != (fbuf = rpcmem_alloc_internal(ION_HEAP_ID_QSEECOM, 1, sz)), AEE_EMEMPTR);
VERIFYC(0 == fseek(sinfo->u.stream, 0, SEEK_SET), AEE_EFSEEK);
VERIFYC(sz == (int)fread(fbuf, 1, sz, sinfo->u.stream), AEE_EFREAD);
VERIFY(0 == (nErr = decrypt_int(fbuf, sz)));
apps_std_FILE_set_buffer_stream(sinfo, fbuf, sz, pos);
*psout = sin;
} else {
nErr = AEE_EUNSUPPORTED;
}
bail:
if(nErr) {
if(fbuf) {
rpcmem_free_internal(fbuf);
fbuf = NULL;
}
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_HEADER(apps_std_opendir)(const char* name, apps_std_DIR* dir) __QAIC_IMPL_ATTRIBUTE {
int nErr = 0;
DIR *odir;
if(NULL == dir) {
return AEE_EBADPARM;
}
odir = opendir(name);
if(odir != NULL) {
dir->handle = (uint64)odir;
} else {
nErr = -1;
VERIFY_EPRINTF("Error %x: failed to opendir %s,errno is %s\n", nErr, name, strerror(ERRNO));
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_HEADER(apps_std_closedir)(const apps_std_DIR* dir) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
if((NULL == dir) || (0 == dir->handle)){
return AEE_EBADPARM;
}
nErr = closedir((DIR *)dir->handle);
if(nErr != AEE_SUCCESS) {
VERIFY_EPRINTF("Error %x: failed to closedir, errno is %s\n", nErr, strerror(ERRNO));
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_HEADER(apps_std_readdir)(const apps_std_DIR* dir, apps_std_DIRENT* dirent, int *bEOF) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
struct dirent *odirent;
if((NULL == dir) || (0 == dir->handle)){
return AEE_EBADPARM;
}
*bEOF = 0;
errno = 0;
odirent = readdir((DIR *)dir->handle);
if(odirent != NULL) {
dirent->ino = (int)odirent->d_ino;
std_strlcpy(dirent->name, odirent->d_name, sizeof(dirent->name));
} else {
if(errno == 0) {
*bEOF = 1;
} else {
nErr = -1;
}
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_HEADER(apps_std_mkdir)(const char* name, int mode) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
if(NULL == name){
return nErr;
}
nErr = mkdir(name, mode);
if(nErr != AEE_SUCCESS){
VERIFY_EPRINTF("Error %x: failed to mkdir %s,errno is %s\n", nErr, name, strerror(ERRNO));
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_HEADER(apps_std_rmdir)(const char* name) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
if(NULL == name){
return nErr;
}
nErr = rmdir(name);
if(nErr != AEE_SUCCESS){
VERIFY_EPRINTF("Error %x: failed to rmdir %s,errno is %s\n", nErr, name, strerror(ERRNO));
}
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_HEADER(apps_std_stat)(const char* name, apps_std_STAT* ist) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS, nOpenErr = AEE_SUCCESS, fd = -1;
apps_std_FILE ps;
struct apps_std_info* sinfo = 0;
struct stat st;
if((NULL == name) || (NULL == ist)) {
return AEE_EBADPARM;
}
VERIFYC(0 == (nOpenErr = apps_std_fopen_with_env("ADSP_LIBRARY_PATH", ";", name, "r", &ps)), AEE_EFOPEN);
VERIFYC(0 == (nErr = apps_std_FILE_get(ps, &sinfo)), AEE_EBADFD);
VERIFYC(-1 != (fd = fileno(sinfo->u.stream)), AEE_EBADFD);
VERIFYC(0 == fstat(fd, &st), AEE_EBADFD);
ist->dev = st.st_dev;
ist->ino = st.st_ino;
ist->mode = st.st_mode;
ist->nlink = st.st_nlink;
ist->rdev = st.st_rdev;
ist->size = st.st_size;
ist->atime = (int64)st.st_atim.tv_sec;
ist->atimensec = (int64)st.st_atim.tv_nsec;
ist->mtime = (int64)st.st_mtim.tv_sec;
ist->mtimensec =(int64)st.st_mtim.tv_nsec;
ist->ctime = (int64)st.st_ctim.tv_nsec;
ist->ctimensec = (int64)st.st_ctim.tv_nsec;
bail:
if(nErr != AEE_SUCCESS) {
VERIFY_EPRINTF("Error %x: failed to stat %s, file open returned %x, errno is %s\n", nErr, name, nOpenErr, strerror(ERRNO));
}
if (nOpenErr == AEE_SUCCESS) {
apps_std_fclose(ps);
sinfo = 0;
}
if(sinfo) {
apps_std_FILE_free(sinfo);
}
return nErr;
}
__QAIC_HEADER_EXPORT int __QAIC_HEADER(apps_std_ftrunc)(apps_std_FILE sin, int offset) __QAIC_HEADER_ATTRIBUTE {
int nErr = 0, fd = -1;
struct apps_std_info* sinfo = 0;
VERIFYC(0 == (nErr = apps_std_FILE_get(sin, &sinfo)), AEE_EBADFD);
VERIFYC(-1 != (fd = fileno(sinfo->u.stream)), AEE_EBADFD);
if(0 != ftruncate(fd, offset)) {
return ERRNO;
}
bail:
return nErr;
}
__QAIC_IMPL_EXPORT int __QAIC_IMPL(apps_std_frename)(const char* oldname, const char* newname) __QAIC_IMPL_ATTRIBUTE {
int nErr = AEE_SUCCESS;
VERIFYC(NULL != oldname && NULL != newname, AEE_EBADPARM);
nErr = rename(oldname, newname);
bail:
if(nErr != AEE_SUCCESS) {
VERIFY_EPRINTF("Error %x: failed to rename file, errno is %s\n", nErr, strerror(ERRNO));
}
return nErr;
}