date/ios.mm

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//
// The MIT License (MIT)
//
// Copyright (c) 2016 Alexander Kormanovsky
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
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//
#include "ios.h"
#if TARGET_OS_IPHONE
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#include <Foundation/Foundation.h>
#include <iostream>
#include <zlib.h>
#include <sys/stat.h>
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#ifndef TAR_DEBUG
# define TAR_DEBUG 0
#endif
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#define INTERNAL_DIR "Library/tzdata"
#define TARGZ_EXTENSION "tar.gz"
#define TAR_BLOCK_SIZE 512
#define TAR_TYPE_POSITION 156
#define TAR_NAME_POSITION 0
#define TAR_NAME_SIZE 100
#define TAR_SIZE_POSITION 124
#define TAR_SIZE_SIZE 12
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namespace date
{
namespace iOSUtils
{
struct TarInfo
{
char objType;
std::string objName;
int64_t realContentSize; // writable size without padding zeroes
int64_t blocksContentSize; // adjusted size to 512 bytes blocks
bool success;
};
char* convertCFStringRefPathToCStringPath(CFStringRef ref);
bool extractTzdata(CFURLRef homeUrl, CFURLRef archiveUrl, std::string destPath);
TarInfo getTarObjectInfo(CFReadStreamRef readStream, int64_t location);
std::string getTarObject(CFReadStreamRef readStream, int64_t size);
bool writeFile(CFURLRef tzdataUrl, std::string fileName, std::string data,
int64_t realContentSize);
std::string
date::iOSUtils::get_tzdata_path()
{
CFURLRef ref = CFCopyHomeDirectoryURL();
CFStringRef homePath = CFURLCopyPath(CFCopyHomeDirectoryURL());
std::string tzdata_path(std::string(convertCFStringRefPathToCStringPath(homePath)) +
INTERNAL_DIR);
if (access(tzdata_path.c_str(), F_OK) == 0)
{
#if TAR_DEBUG
printf("tzdata exists\n");
#endif
return tzdata_path;
}
CFBundleRef mainBundle = CFBundleGetMainBundle();
CFArrayRef paths = CFBundleCopyResourceURLsOfType(mainBundle, CFSTR(TARGZ_EXTENSION),
NULL);
if (CFArrayGetCount(paths) != 0)
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{
// get archive path, assume there is no other tar.gz in bundle
CFURLRef archiveUrl = static_cast<CFURLRef>(CFArrayGetValueAtIndex(paths, 0));
CFStringRef archiveName= CFURLCopyPath(archiveUrl);
archiveUrl = CFBundleCopyResourceURL(mainBundle, archiveName, NULL, NULL);
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extractTzdata(CFCopyHomeDirectoryURL(), archiveUrl, tzdata_path);
}
return tzdata_path;
}
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char*
convertCFStringRefPathToCStringPath(CFStringRef ref)
{
CFIndex bufferSize = CFStringGetMaximumSizeOfFileSystemRepresentation(ref);
char *buffer = new char[bufferSize];
CFStringGetFileSystemRepresentation(ref, buffer, bufferSize);
return buffer;
}
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bool extractTzdata(CFURLRef homeUrl, CFURLRef archiveUrl, std::string destPath)
{
const char *TAR_TMP_PATH = "/tmp.tar";
// create Library path
CFStringRef libraryStr = CFStringCreateWithCString(NULL, "Library",
CFStringGetSystemEncoding());
CFURLRef libraryUrl = CFURLCreateCopyAppendingPathComponent(kCFAllocatorDefault,
homeUrl, libraryStr,
false);
// create tzdata path
CFStringRef tzdataPathRef = CFStringCreateWithCString(NULL, INTERNAL_DIR,
CFStringGetSystemEncoding());
CFURLRef tzdataPathUrl = CFURLCreateCopyAppendingPathComponent(NULL, homeUrl,
tzdataPathRef, false);
// create src archive path
CFStringRef archivePath = CFURLCopyPath(archiveUrl);
gzFile tarFile = gzopen(convertCFStringRefPathToCStringPath(archivePath), "rb");
// create tar unpacking path
CFStringRef tarName = CFStringCreateWithCString(NULL, TAR_TMP_PATH,
CFStringGetSystemEncoding());
CFURLRef tarUrl = CFURLCreateCopyAppendingPathComponent(NULL, libraryUrl, tarName,
false);
const char *tarPath = convertCFStringRefPathToCStringPath(CFURLCopyPath(tarUrl));
// create tzdata directory
mkdir(destPath.c_str(), S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH);
// create stream
CFWriteStreamRef writeStream = CFWriteStreamCreateWithFile(NULL, tarUrl);
bool success = true;
if (!CFWriteStreamOpen(writeStream))
{
CFStreamError err = CFWriteStreamGetError(writeStream);
if (err.domain == kCFStreamErrorDomainPOSIX)
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{
printf("kCFStreamErrorDomainPOSIX %i\n", err.error);
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}
else if(err.domain == kCFStreamErrorDomainMacOSStatus)
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{
printf("kCFStreamErrorDomainMacOSStatus %i\n", err.error);
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}
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success = false;
}
if (!success)
{
remove(tarPath);
return false;
}
// ======= extract tar ========
unsigned int bufferLength = 1024 * 256; // 256Kb
void *buffer = malloc(bufferLength);
while (true)
{
int readBytes = gzread(tarFile, buffer, bufferLength);
if (readBytes > 0)
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{
CFIndex writtenBytes = CFWriteStreamWrite(writeStream, (unsigned char*)buffer,
readBytes);
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if (writtenBytes < 0)
{
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CFStreamError err = CFWriteStreamGetError(writeStream);
printf("write stream error %i\n", err.error);
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success = false;
break;
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}
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}
else if (readBytes == 0)
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{
break;
}
else if (readBytes == -1)
{
printf("decompression failed\n");
success = false;
break;
}
else
{
printf("unexpected zlib state\n");
success = false;
break;
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}
}
CFWriteStreamClose(writeStream);
CFRelease(writeStream);
free(buffer);
gzclose(tarFile);
if (!success)
{
remove(tarPath);
return false;
}
// ======== extract files =========
uint64_t location = 0; // Position in the file
// get file size
struct stat stat_buf;
int res = stat(tarPath, &stat_buf);
if (res != 0)
{
printf("error file size\n");
remove(tarPath);
return false;
}
int64_t tarSize = stat_buf.st_size;
// create read stream
CFReadStreamRef readStream = CFReadStreamCreateWithFile(kCFAllocatorDefault, tarUrl);
if (!CFReadStreamOpen(readStream))
{
CFStreamError err = CFReadStreamGetError(readStream);
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if (err.domain == kCFStreamErrorDomainPOSIX)
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{
printf("kCFStreamErrorDomainPOSIX %i", err.error);
}
else if(err.domain == kCFStreamErrorDomainMacOSStatus)
{
printf("kCFStreamErrorDomainMacOSStatus %i", err.error);
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}
success = false;
}
if (!success)
{
CFRelease(readStream);
remove(tarPath);
return false;
}
int count = 0;
long size = 0;
// process files
while (location < tarSize)
{
TarInfo info = getTarObjectInfo(readStream, location);
if (!info.success || info.realContentSize == 0)
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{
break; // something wrong or all files are read
}
switch (info.objType)
{
case '0': // file
case '\0': //
{
std::string obj = getTarObject(readStream, info.blocksContentSize);
#if TAR_DEBUG
size += info.realContentSize;
printf("#%i %s file size %lld written total %ld from %lld\n", ++count,
info.objName.c_str(), info.realContentSize, size, tarSize);
#endif
writeFile(tzdataPathUrl, info.objName, obj, info.realContentSize);
location += info.blocksContentSize;
break;
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}
}
}
CFReadStreamClose(readStream);
CFRelease(readStream);
remove(tarPath);
return true;
}
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TarInfo
getTarObjectInfo(CFReadStreamRef readStream, int64_t location)
{
int64_t length = TAR_BLOCK_SIZE;
uint8_t buffer[length];
char type;
char name[TAR_NAME_SIZE + 1];
char sizeBuf[TAR_SIZE_SIZE + 1];
CFIndex bytesRead;
bool avail = CFReadStreamHasBytesAvailable(readStream);
bytesRead = CFReadStreamRead(readStream, buffer, length);
if (bytesRead < 0)
{
CFStreamError err = CFReadStreamGetError(readStream);
printf("error reading tar object info %i", err.error);
return {false};
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}
memcpy(&type, &buffer[TAR_TYPE_POSITION], 1);
memset(&name, '\0', TAR_NAME_SIZE + 1);
memcpy(&name, &buffer[TAR_NAME_POSITION], TAR_NAME_SIZE);
memset(&sizeBuf, '\0', TAR_SIZE_SIZE + 1);
memcpy(&sizeBuf, &buffer[TAR_SIZE_POSITION], TAR_SIZE_SIZE);
int64_t realSize = strtol(sizeBuf, NULL, 8);
int64_t blocksSize = realSize + (TAR_BLOCK_SIZE - (realSize % TAR_BLOCK_SIZE));
return {type, std::string(name), realSize, blocksSize, true};
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}
std::string
getTarObject(CFReadStreamRef readStream, int64_t size)
{
uint8_t buffer[size];
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CFIndex bytesRead = CFReadStreamRead(readStream, buffer, size);
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if (bytesRead < 0)
{
CFStreamError err = CFReadStreamGetError(readStream);
printf("error reading tar object info %i", err.error);
}
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return std::string((char *)buffer);
}
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bool
writeFile(CFURLRef tzdataUrl, std::string fileName, std::string data,
int64_t realContentSize)
{
// create stream
CFStringRef fileNameRef = CFStringCreateWithCString(NULL, fileName.c_str(),
CFStringGetSystemEncoding());
CFURLRef url = CFURLCreateCopyAppendingPathComponent(NULL, tzdataUrl, fileNameRef,
false);
CFWriteStreamRef writeStream = CFWriteStreamCreateWithFile(NULL, url);
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// open stream
if (!CFWriteStreamOpen(writeStream))
{
CFStreamError err = CFWriteStreamGetError(writeStream);
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if (err.domain == kCFStreamErrorDomainPOSIX)
{
printf("kCFStreamErrorDomainPOSIX %i\n", err.error);
}
else if(err.domain == kCFStreamErrorDomainMacOSStatus)
{
printf("kCFStreamErrorDomainMacOSStatus %i\n", err.error);
}
CFRelease(writeStream);
return false;
}
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// trim empty space
uint8_t trimmedData[realContentSize + 1];
memset(&trimmedData, '\0', realContentSize);
memcpy(&trimmedData, data.c_str(), realContentSize);
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// write
CFIndex writtenBytes = CFWriteStreamWrite(writeStream, trimmedData, realContentSize);
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if (writtenBytes < 0)
{
CFStreamError err = CFWriteStreamGetError(writeStream);
printf("write stream error %i\n", err.error);
}
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CFWriteStreamClose(writeStream);
CFRelease(writeStream);
writeStream = NULL;
return true;
}
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} // namespace iOSUtils
} // namespace date
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#endif // TARGET_OS_IPHONE