#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <assert.h>
#include <inttypes.h>
#include "utils.h"
#include "vdisk.h"
//
// vdisk_i_err
//
int vdisk_i_err(VDISK *vd, int e, int l) {
vd->errline = l;
return (vd->errcode = e);
}
void vdisk_i_pre_init(VDISK *vd) {
// Until all implementations are done, this allows to catch
// non-implemented functions during operation
vd->read_lba = vd->write_lba =
vd->read_block = vd->write_block = NULL;
}
//
// vdisk_open
//
int vdisk_open(VDISK *vd, const oschar *path, uint32_t flags) {
vd->errfunc = __func__;
if ((vd->fd = os_fopen(path)) == 0)
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
vdisk_i_pre_init(vd);
if (flags & VDISK_RAW) {
if (os_fsize(vd->fd, &vd->capacity))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
vd->format = VDISK_FORMAT_RAW;
vd->offset = 0;
vd->read_lba = vdisk_raw_read_lba;
return 0;
}
//
// Format detection
//
// This hints the function to a format and tests both reading and
// seeking capabilities on the file or device.
//
if (os_fread(vd->fd, &vd->format, 4))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (os_fseek(vd->fd, 0, SEEK_SET))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
//
// Disk detection and loading
//
uint32_t internal = 0; // Internal flags
switch (vd->format) {
case VDISK_FORMAT_VDI:
if (vdisk_vdi_open(vd, flags, internal))
return vd->errcode;
break;
case VDISK_FORMAT_VMDK:
if (vdisk_vmdk_open(vd, flags, internal))
return vd->errcode;
break;
case VDISK_FORMAT_VHD: L_FORMAT_CASE_VHD:
if (vdisk_vhd_open(vd, flags, internal))
return vd->errcode;
break;
case VDISK_FORMAT_VHDX:
if (vdisk_vhdx_open(vd, flags, internal))
return vd->errcode;
break;
case VDISK_FORMAT_QED:
if (vdisk_qed_open(vd, flags, internal))
return vd->errcode;
break;
case VDISK_FORMAT_QCOW:
if (vdisk_qcow_open(vd, flags, internal))
return vd->errcode;
break;
case VDISK_FORMAT_PHDD:
if (vdisk_phdd_open(vd, flags, internal))
return vd->errcode;
break;
default: // Attempt at different offsets
// Fixed VHD: 512 bytes before EOF
if (os_fseek(vd->fd, -512, SEEK_END))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (os_fread(vd->fd, &vd->vhd, sizeof(VHD_HDR)))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (vd->vhd.magic == VHD_MAGIC) {
vd->format = VDISK_FORMAT_VHD;
internal = 2;
goto L_FORMAT_CASE_VHD;
}
return vdisk_i_err(vd, VVD_EVDFORMAT, LINE_BEFORE);
}
return 0;
}
//
// vdisk_create
//
int vdisk_create(VDISK *vd, const oschar *path, int format, uint64_t capacity, uint16_t flags) {
vd->errfunc = __func__;
if (flags & VDISK_CREATE_TEMP) {
//TODO: Attach random number
path = osstr("vdisk.tmp");
} else if (path == NULL)
return vdisk_i_err(vd, VVD_ENULL, LINE_BEFORE);
if (capacity == 0)
return vdisk_i_err(vd, VVD_EVDBOUND, LINE_BEFORE);
if ((vd->fd = os_fcreate(path)) == 0)
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (flags & VDISK_RAW) {
vd->format = VDISK_FORMAT_RAW;
if (os_falloc(vd->fd, capacity))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
return (vd->errcode = VVD_EOK);
}
uint8_t *buffer;
int vdisk_fixed = flags & VDISK_CREATE_FIXED;
//TODO: vdisk_*_create internal functions
switch (format) {
case VDISK_FORMAT_VDI:
vd->format = VDISK_FORMAT_VDI;
vd->vdiv1.type = vdisk_fixed ? VDI_DISK_FIXED : VDI_DISK_DYN;
// Default values
// hdr
vd->vdihdr.magic = VDI_HEADER_MAGIC;
vd->vdihdr.majorv = 1;
vd->vdihdr.minorv = 1;
// struct
vd->vdiv1.blocksalloc = 0;
vd->vdiv1.blocksextra = 0;
vd->vdiv1.blocksize = VDI_BLOCKSIZE;
vd->vdiv1.cbSector = vd->vdiv1.LegacyGeometry.cbSector = 512;
vd->vdiv1.cCylinders =
vd->vdiv1.cHeads =
vd->vdiv1.cSectors =
vd->vdiv1.LegacyGeometry.cCylinders =
vd->vdiv1.LegacyGeometry.cHeads =
vd->vdiv1.LegacyGeometry.cSectors = 0;
vd->vdiv1.disksize = 0;
vd->vdiv1.fFlags = 0;
vd->vdiv1.hdrsize = (uint32_t)sizeof(VDIHEADER1);
vd->vdiv1.offBlocks = VDI_BLOCKSIZE;
vd->vdiv1.offData = 2 * VDI_BLOCKSIZE;
vd->vdiv1.blockstotal = 0;
vd->vdiv1.type = VDI_DISK_DYN;
vd->vdiv1.u32Dummy = 0; // Always
memset(vd->vdiv1.szComment, 0, VDI_COMMENT_SIZE);
memset(&vd->vdiv1.uuidCreate, 0, 16);
memset(&vd->vdiv1.uuidLinkage, 0, 16);
memset(&vd->vdiv1.uuidModify, 0, 16);
memset(&vd->vdiv1.uuidParentModify, 0, 16);
// Data
vd->u32blockcount = capacity / vd->vdiv1.blocksize;
if (vd->u32blockcount == 0)
vd->u32blockcount = 1;
uint32_t bsize = vd->u32blockcount << 2;
if ((vd->u32block = malloc(bsize)) == NULL)
return vdisk_i_err(vd, VVD_EALLOC, LINE_BEFORE);
vd->vdiv1.blockstotal = vd->u32blockcount;
vd->vdiv1.disksize = capacity;
switch (vd->vdiv1.type) {
case VDI_DISK_DYN:
for (size_t i = 0; i < vd->vdiv1.blockstotal; ++i)
vd->u32block[i] = VDI_BLOCK_ZERO;
break;
case VDI_DISK_FIXED:
if ((buffer = malloc(vd->vdiv1.blocksize)) == NULL)
return vdisk_i_err(vd, VVD_EALLOC, LINE_BEFORE);
os_fseek(vd->fd, vd->vdiv1.offData, SEEK_SET);
for (size_t i = 0; i < vd->vdiv1.blockstotal; ++i) {
vd->u32block[i] = VDI_BLOCK_FREE;
os_fwrite(vd->fd, buffer, vd->vdiv1.blocksize);
}
break;
default:
return vdisk_i_err(vd, VVD_EVDTYPE, LINE_BEFORE);
}
break;
default:
return vdisk_i_err(vd, VVD_EVDFORMAT, LINE_BEFORE);
}
return vdisk_update(vd);
}
//
//TODO: vdisk_close(VDISK *vd)
//
//
// vdisk_str
//
const char* vdisk_str(VDISK *vd) {
switch (vd->format) {
case VDISK_FORMAT_VDI: return "VDI";
case VDISK_FORMAT_VMDK: return "VMDK";
case VDISK_FORMAT_VHD: return "VHD";
case VDISK_FORMAT_VHDX: return "VHDX";
case VDISK_FORMAT_QED: return "QED";
case VDISK_FORMAT_QCOW: return "QCOW";
case VDISK_FORMAT_PHDD: return "Parallels";
case VDISK_FORMAT_RAW: return "RAW";
default: return NULL; // Not opened, etc.
}
}
//
// vdisk_update
//
int vdisk_update(VDISK *vd) {
vd->errfunc = __func__;
switch (vd->format) {
case VDISK_FORMAT_VDI:
//TODO: Move pre-header signature in creation function
if (os_fseek(vd->fd, 0, SEEK_SET))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (os_fwrite(vd->fd, VDI_SIGNATURE, 40))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
// skip signature
if (os_fseek(vd->fd, VDI_SIGNATURE_SIZE, SEEK_SET))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (os_fwrite(vd->fd, &vd->vdihdr, sizeof(VDI_HDR)))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (os_fwrite(vd->fd, &vd->vdiv1, sizeof(VDIHEADER1)))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
// blocks
if (os_fseek(vd->fd, vd->vdiv1.offBlocks, SEEK_SET))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (os_fwrite(vd->fd, vd->u32block, vd->u32blockcount * 4))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
break;
/*case VDISK_FORMAT_VMDK:
assert(0);
break;
case VDISK_FORMAT_VHD:
assert(0);
break;*/
default:
return vdisk_i_err(vd, VVD_EVDFORMAT, LINE_BEFORE);
}
return 0;
}
//
//TODO: vdisk_flush(VDISK *vd)
//
//
// vdisk_read_sector
//
int vdisk_read_sector(VDISK *vd, void *buffer, uint64_t lba) {
vd->errfunc = __func__;
//TODO: Consider an assert
if (vd->read_lba == NULL)
return vdisk_i_err(vd, VVD_EVDTODO, LINE_BEFORE);
return vd->read_lba(vd, buffer, lba);
}
//
//TODO: Consider vdisk_read_sectors
// Read multiple sectors at once
//
//
// vdisk_write_lba
//
int vdisk_write_lba(VDISK *vd, void *buffer, uint64_t lba) {
vd->errfunc = __func__;
assert(0);
return VVD_EOK;
}
//
// vdisk_read_block
//
//TODO: vdisk_get_block_ptr(VDISK)
//TODO: vdisk_get_block_size(VDISK)
//TODO: vdisk_read_block(VDISK, index)
//TODO: vdisk_write_block(VDISK, index)
//TODO: vdisk_write_block_at(VDISK, source_index, target_index)
int vdisk_read_block(VDISK *vd, void *buffer, uint64_t index) {
vd->errfunc = __func__;
uint32_t readsize;
uint64_t pos;
switch (vd->format) {
case VDISK_FORMAT_VDI:
if (index >= vd->u32blockcount)
return vdisk_i_err(vd, VVD_EVDBOUND, LINE_BEFORE);
if (vd->u32block[index] == VDI_BLOCK_ZERO)
return vdisk_i_err(vd, VVD_EVDUNALLOC, LINE_BEFORE);
readsize = vd->vdiv1.blocksize;
pos = vd->offset + (vd->u32block[index] * vd->vdiv1.blocksize);
break;
case VDISK_FORMAT_VMDK:
return vdisk_i_err(vd, VVD_EVDTODO, LINE_BEFORE);
case VDISK_FORMAT_VHD:
if (vd->vhd.type != VHD_DISK_DYN)
return vdisk_i_err(vd, VVD_EVDTYPE, LINE_BEFORE);
readsize = vd->vhddyn.blocksize;
break;
default:
return vdisk_i_err(vd, VVD_EVDFORMAT, LINE_BEFORE);
}
if (os_fseek(vd->fd, pos, SEEK_SET))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (os_fread(vd->fd, buffer, readsize))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
return (vd->errcode = VVD_EOK);
}
//
// vdisk_write_block
//
int vdisk_write_block(VDISK *vd, void *buffer, uint64_t index) {
vd->errfunc = __func__;
uint64_t pos;
uint64_t blocksize;
switch (vd->format) {
case VDISK_FORMAT_VDI:
//TODO: What should we do if we run out of allocation blocks?
if (index >= vd->u32blockcount)
return vdisk_i_err(vd, VVD_EVDBOUND, LINE_BEFORE);
if (vd->u32block[index] == VDI_BLOCK_ZERO) {
pos = vd->nextblock;
vd->u32block[index] = ((pos - vd->offset) / vd->vdiv1.blocksize);
vd->nextblock += vd->vdiv1.blocksize;
} else {
pos = (vd->u32block[index] * vd->vdiv1.blocksize) + vd->vdiv1.offData;
}
blocksize = vd->vdiv1.blocksize;
break;
default:
return vdisk_i_err(vd, VVD_EVDFORMAT, LINE_BEFORE);
}
if (os_fseek(vd->fd, pos, SEEK_SET))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (os_fwrite(vd->fd, buffer, blocksize))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
return (vd->errcode = VVD_EOK);
}
//
// vdisk_write_block_at
//
int vdisk_write_block_at(VDISK *vd, void *buffer, uint64_t bindex, uint64_t dindex) {
vd->errfunc = __func__;
uint64_t pos;
uint64_t blocksize;
switch (vd->format) {
case VDISK_FORMAT_VDI:
if (dindex >= vd->u32blockcount)
return vdisk_i_err(vd, VVD_EVDBOUND, LINE_BEFORE);
pos = (dindex * vd->vdiv1.blocksize) + vd->offset;
blocksize = vd->vdiv1.blocksize;
vd->u32block[bindex] = dindex;
break;
default:
return vdisk_i_err(vd, VVD_EVDFORMAT, LINE_BEFORE);
}
if (os_fseek(vd->fd, pos, SEEK_SET))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
if (os_fwrite(vd->fd, buffer, blocksize))
return vdisk_i_err(vd, VVD_EOS, LINE_BEFORE);
return (vd->errcode = VVD_EOK);
}
//
// vdisk_op_compact
//
int vdisk_op_compact(VDISK *vd, void(*cb)(uint32_t, void*)) {
switch (vd->format) {
case VDISK_FORMAT_VDI:
return vdisk_vdi_compact(vd, cb);
default:
return vdisk_i_err(vd, VVD_EVDFORMAT, __LINE__);
}
}
//
// vdisk_error
//
const char* vdisk_error(VDISK *vd) {
switch (vd->errcode) {
case VVD_EOK:
return "last operation was successful";
case VVD_ENULL:
return "input pointer is null";
case VVD_EVDFORMAT:
return "unsupported vdisk format";
case VVD_EVDMAGIC:
return "invalid magic";
case VVD_EVDVERSION:
return "unsupported version";
case VVD_EVDTYPE:
return "invalid disk type for vdisk function";
case VVD_EVDFULL:
return "vdisk is full";
case VVD_EVDUNALLOC:
return "block is unallocated";
case VVD_EVDBOUND:
return "block index is out of bounds";
case VVD_EVDTODO:
return "currently unimplemented";
case VVD_EVDMISC:
return "unknown error happened";
case VVD_EOS:
#if _WIN32
// We're using the Win32 API, not the CRT functions
static char _errmsgbuf[512];
vd->errcode = GetLastError();
int l = GetLocaleInfoEx( // Recommended over MAKELANGID
LOCALE_NAME_USER_DEFAULT,
LOCALE_ALL,
0,
0);
FormatMessageA(
FORMAT_MESSAGE_FROM_SYSTEM,
NULL,
vd->errcode,
l,
_errmsgbuf,
512,
NULL);
return _errmsgbuf;
#else
return strerror(vd->errcode = errno);
#endif
default:
assert(0); return NULL;
}
}
//
// vdisk_perror
//
#if _WIN32
#define ERRFMT "%08X"
#else
#define ERRFMT "%d"
#endif
void vdisk_perror(VDISK *vd) {
fprintf(stderr, "%s@%u: (" ERRFMT ") %s\n",
vd->errfunc, vd->errline, vd->errcode, vdisk_error(vd));
}
