#include <apt-pkg/acquire-method.h>
#include <apt-pkg/strutl.h>
#include <apt-pkg/hashes.h>
+#include <apt-pkg/configuration.h>
#include <sys/stat.h>
#include <sys/uio.h>
#include <utime.h>
#include <stdio.h>
#include <errno.h>
-#include <zlib.h>
#include <apti18n.h>
/*}}}*/
/** \brief RredMethod - ed-style incremential patch method {{{
// return values
enum State {ED_OK, ED_ORDERING, ED_PARSER, ED_FAILURE, MMAP_FAILED};
- State applyFile(gzFile &ed_cmds, FILE *in_file, FILE *out_file,
+ State applyFile(FileFd &ed_cmds, FileFd &in_file, FileFd &out_file,
unsigned long &line, char *buffer, Hashes *hash) const;
- void ignoreLineInFile(FILE *fin, char *buffer) const;
- void ignoreLineInFile(gzFile &fin, char *buffer) const;
- void copyLinesFromFileToFile(FILE *fin, FILE *fout, unsigned int lines,
- Hashes *hash, char *buffer) const;
- void copyLinesFromFileToFile(gzFile &fin, FILE *fout, unsigned int lines,
+ void ignoreLineInFile(FileFd &fin, char *buffer) const;
+ void copyLinesFromFileToFile(FileFd &fin, FileFd &fout, unsigned int lines,
Hashes *hash, char *buffer) const;
State patchFile(FileFd &Patch, FileFd &From, FileFd &out_file, Hashes *hash) const;
* \param hash the created file for correctness
* \return the success State of the ed command executor
*/
-RredMethod::State RredMethod::applyFile(gzFile &ed_cmds, FILE *in_file, FILE *out_file,
+RredMethod::State RredMethod::applyFile(FileFd &ed_cmds, FileFd &in_file, FileFd &out_file,
unsigned long &line, char *buffer, Hashes *hash) const {
// get the current command and parse it
- if (gzgets(ed_cmds, buffer, BUF_SIZE) == NULL) {
+ if (ed_cmds.ReadLine(buffer, BUF_SIZE) == NULL) {
if (Debug == true)
std::clog << "rred: encounter end of file - we can start patching now." << std::endl;
line = 0;
unsigned char mode = *idx;
// save the current position
- unsigned const long pos = gztell(ed_cmds);
+ unsigned const long long pos = ed_cmds.Tell();
// if this is add or change then go to the next full stop
unsigned int data_length = 0;
// include data from ed script
if (mode == MODE_CHANGED || mode == MODE_ADDED) {
- gzseek(ed_cmds, pos, SEEK_SET);
+ ed_cmds.Seek(pos);
copyLinesFromFileToFile(ed_cmds, out_file, data_length, hash, buffer);
}
return ED_OK;
}
/*}}}*/
-void RredMethod::copyLinesFromFileToFile(FILE *fin, FILE *fout, unsigned int lines,/*{{{*/
- Hashes *hash, char *buffer) const {
- while (0 < lines--) {
- do {
- fgets(buffer, BUF_SIZE, fin);
- size_t const written = fwrite(buffer, 1, strlen(buffer), fout);
- hash->Add((unsigned char*)buffer, written);
- } while (strlen(buffer) == (BUF_SIZE - 1) &&
- buffer[BUF_SIZE - 2] != '\n');
- }
-}
- /*}}}*/
-void RredMethod::copyLinesFromFileToFile(gzFile &fin, FILE *fout, unsigned int lines,/*{{{*/
+void RredMethod::copyLinesFromFileToFile(FileFd &fin, FileFd &fout, unsigned int lines,/*{{{*/
Hashes *hash, char *buffer) const {
while (0 < lines--) {
do {
- gzgets(fin, buffer, BUF_SIZE);
- size_t const written = fwrite(buffer, 1, strlen(buffer), fout);
- hash->Add((unsigned char*)buffer, written);
+ fin.ReadLine(buffer, BUF_SIZE);
+ unsigned long long const towrite = strlen(buffer);
+ fout.Write(buffer, towrite);
+ hash->Add((unsigned char*)buffer, towrite);
} while (strlen(buffer) == (BUF_SIZE - 1) &&
buffer[BUF_SIZE - 2] != '\n');
}
}
/*}}}*/
-void RredMethod::ignoreLineInFile(FILE *fin, char *buffer) const { /*{{{*/
- fgets(buffer, BUF_SIZE, fin);
- while (strlen(buffer) == (BUF_SIZE - 1) &&
- buffer[BUF_SIZE - 2] != '\n') {
- fgets(buffer, BUF_SIZE, fin);
- buffer[0] = ' ';
- }
-}
- /*}}}*/
-void RredMethod::ignoreLineInFile(gzFile &fin, char *buffer) const { /*{{{*/
- gzgets(fin, buffer, BUF_SIZE);
+void RredMethod::ignoreLineInFile(FileFd &fin, char *buffer) const { /*{{{*/
+ fin.ReadLine(buffer, BUF_SIZE);
while (strlen(buffer) == (BUF_SIZE - 1) &&
buffer[BUF_SIZE - 2] != '\n') {
- gzgets(fin, buffer, BUF_SIZE);
+ fin.ReadLine(buffer, BUF_SIZE);
buffer[0] = ' ';
}
}
RredMethod::State RredMethod::patchFile(FileFd &Patch, FileFd &From, /*{{{*/
FileFd &out_file, Hashes *hash) const {
char buffer[BUF_SIZE];
- FILE* fFrom = fdopen(From.Fd(), "r");
- gzFile fPatch = Patch.gzFd();
- FILE* fTo = fdopen(out_file.Fd(), "w");
/* we do a tail recursion to read the commands in the right order */
unsigned long line = -1; // assign highest possible value
- State const result = applyFile(fPatch, fFrom, fTo, line, buffer, hash);
+ State const result = applyFile(Patch, From, out_file, line, buffer, hash);
/* read the rest from infile */
if (result == ED_OK) {
- while (fgets(buffer, BUF_SIZE, fFrom) != NULL) {
- size_t const written = fwrite(buffer, 1, strlen(buffer), fTo);
- hash->Add((unsigned char*)buffer, written);
+ while (From.ReadLine(buffer, BUF_SIZE) != NULL) {
+ unsigned long long const towrite = strlen(buffer);
+ out_file.Write(buffer, towrite);
+ hash->Add((unsigned char*)buffer, towrite);
}
- fflush(fTo);
}
return result;
}
char type;
};
#define IOV_COUNT 1024 /* Don't really want IOV_MAX since it can be arbitrarily large */
+static ssize_t retry_writev(int fd, const struct iovec *iov, int iovcnt) {
+ ssize_t Res;
+ errno = 0;
+ ssize_t i = 0;
+ do {
+ Res = writev(fd, iov + i, iovcnt);
+ if (Res < 0 && errno == EINTR)
+ continue;
+ if (Res < 0)
+ return _error->Errno("writev",_("Write error"));
+ iovcnt -= Res;
+ i += Res;
+ } while (Res > 0 && iovcnt > 0);
+ return i;
+}
#endif
/*}}}*/
RredMethod::State RredMethod::patchMMap(FileFd &Patch, FileFd &From, /*{{{*/
FileFd &out_file, Hashes *hash) const {
#ifdef _POSIX_MAPPED_FILES
- MMap ed_cmds(MMap::ReadOnly);
- if (Patch.gzFd() != NULL) {
- unsigned long long mapSize = Patch.Size();
- DynamicMMap* dyn = new DynamicMMap(0, mapSize, 0);
- if (dyn->validData() == false) {
- delete dyn;
- return MMAP_FAILED;
- }
- dyn->AddSize(mapSize);
- gzread(Patch.gzFd(), dyn->Data(), mapSize);
- ed_cmds = *dyn;
- } else
- ed_cmds = MMap(Patch, MMap::ReadOnly);
-
+ MMap ed_cmds(Patch, MMap::ReadOnly);
MMap in_file(From, MMap::ReadOnly);
- if (ed_cmds.Size() == 0 || in_file.Size() == 0)
+ unsigned long long const ed_size = ed_cmds.Size();
+ unsigned long long const in_size = in_file.Size();
+ if (ed_size == 0 || in_size == 0)
return MMAP_FAILED;
EdCommand* commands = 0;
const char* begin = (char*) ed_cmds.Data();
const char* end = begin;
- const char* ed_end = (char*) ed_cmds.Data() + ed_cmds.Size();
+ const char* ed_end = (char*) ed_cmds.Data() + ed_size;
const char* input = (char*) in_file.Data();
- const char* input_end = (char*) in_file.Data() + in_file.Size();
+ const char* input_end = (char*) in_file.Data() + in_size;
size_t i;
}
if(command_count == command_alloc) {
command_alloc = (command_alloc + 64) * 3 / 2;
- commands = (EdCommand*) realloc(commands, command_alloc * sizeof(EdCommand));
+ EdCommand* newCommands = (EdCommand*) realloc(commands, command_alloc * sizeof(EdCommand));
+ if (newCommands == NULL) {
+ free(commands);
+ return MMAP_FAILED;
+ }
+ commands = newCommands;
}
commands[command_count++] = cmd;
}
hash->Add((const unsigned char*) begin, input - begin);
if(++iov_size == IOV_COUNT) {
- writev(out_file.Fd(), iov, IOV_COUNT);
+ retry_writev(out_file.Fd(), iov, IOV_COUNT);
iov_size = 0;
}
}
iov[iov_size].iov_len);
if(++iov_size == IOV_COUNT) {
- writev(out_file.Fd(), iov, IOV_COUNT);
+ retry_writev(out_file.Fd(), iov, IOV_COUNT);
iov_size = 0;
}
}
}
if(iov_size) {
- writev(out_file.Fd(), iov, iov_size);
+ retry_writev(out_file.Fd(), iov, iov_size);
iov_size = 0;
}
for(i = 0; i < iov_size; i += IOV_COUNT) {
if(iov_size - i < IOV_COUNT)
- writev(out_file.Fd(), iov + i, iov_size - i);
+ retry_writev(out_file.Fd(), iov + i, iov_size - i);
else
- writev(out_file.Fd(), iov + i, IOV_COUNT);
+ retry_writev(out_file.Fd(), iov + i, IOV_COUNT);
}
delete [] iov;
// Open the source and destination files (the d'tor of FileFd will do
// the cleanup/closing of the fds)
FileFd From(Path,FileFd::ReadOnly);
- FileFd Patch(Path+".ed",FileFd::ReadOnlyGzip);
+ FileFd Patch(Path+".ed",FileFd::ReadOnly, FileFd::Gzip);
FileFd To(Itm->DestFile,FileFd::WriteAtomic);
To.EraseOnFailure();
if (_error->PendingError() == true)