// Read DataVault from Disk
eEsifError DataVault_ReadVault(DataVaultPtr self)
{
eEsifError rc = ESIF_OK;
IOStreamPtr memStreamPtr = NULL;
IOStreamPtr orgStreamPtr = NULL;
DataVaultHeader header = {0};
UInt32 hdrSize = 0;
UInt32 min_version = 0;
UInt32 max_version = 0;
orgStreamPtr = self->stream;
// Read the file into a memory stream for faster accesses (hash, size, etc.)
rc = IOStream_CloneAsMemoryStream(self->stream, &memStreamPtr);
if (rc != ESIF_OK) {
goto exit;
}
self->stream = memStreamPtr;
// Read in the header
rc = DataVault_ReadHeader(self, &header);
if (rc != ESIF_OK) {
goto exit;
}
hdrSize = header.headersize;
if (hdrSize < sizeof(header)) {
rc = ESIF_E_NOT_SUPPORTED;
goto exit;
}
// Verify signature
if (memcmp(header.signature, ESIFDV_SIGNATURE, sizeof(header.signature)) != 0) {
rc = ESIF_E_NOT_SUPPORTED;
goto exit;
}
// The DataVault's Major.Minor Version must be <= the App's Major.Minor Version and at least Major.1
min_version = ESIFDV_VERSION(ESIFDV_MAJOR_VERSION_MIN, 0, 0);
max_version = ESIFDV_VERSION(ESIFDV_MAJOR_VERSION, ESIFDV_MINOR_VERSION, ESIFDV_MAX_REVISION);
if ((header.version > max_version) || (header.version < min_version)) {
rc = ESIF_E_NOT_SUPPORTED;
goto exit;
}
// Save the header flags and version
self->flags = header.flags;
self->version = header.version;
rc = DataVault_ReadPayload(self);
exit:
IOStream_Close(self->stream);
self->stream = orgStreamPtr; // Restore the original stream
//esif_ccb_free(dataHdrsPtr);
IOStream_Destroy(memStreamPtr);
return rc;
}
// destructor
void DataVault_dtor (DataVaultPtr self)
{
if (self) {
DataCache_Destroy(self->cache);
IOStream_Destroy(self->stream);
WIPEPTR(self);
}
}
// destructor
static void DataVault_dtor(DataVaultPtr self)
{
if (self) {
DataCache_Destroy(self->cache);
IOStream_Destroy(self->stream);
esif_ccb_lock_uninit(&self->lock);
WIPEPTR(self);
}
}
// Load an External File into a specified memory buffer
static eEsifError ReadFileIntoBuffer(
esif_string filename,
void **buffer,
UInt32 *buf_size
)
{
eEsifError rc = ESIF_OK;
IOStreamPtr file = IOStream_Create();
BytePtr bufPtr = NULL;
size_t size = 0;
size_t bytesRead = 0;
if (IOStream_SetFile(file, filename, "rb") != EOK) {
rc = ESIF_E_IO_ERROR;
goto exit;
}
size = IOStream_GetSize(file);
bufPtr = (BytePtr) esif_ccb_malloc(size + 1);
if (NULL == bufPtr) {
rc = ESIF_E_NO_MEMORY;
goto exit;
}
if (IOStream_Open(file) != 0) {
rc = ESIF_E_IO_ERROR;
goto exit;
}
bytesRead = IOStream_ReadAt(file, bufPtr, size, 0);
if (bytesRead != size) {
rc = ESIF_E_IO_ERROR;
goto exit;
}
bufPtr[size] = 0;
*buffer = bufPtr;
*buf_size = (UInt32)size;
exit:
IOStream_Destroy(file);
if (rc != ESIF_OK) {
esif_ccb_free(bufPtr);
}
return rc;
}
// Load an External File into a specified memory buffer
static eEsifError DataVault_ReadFile (
DataVaultPtr self,
esif_string filename,
void * *buffer,
UInt32 *buf_size
)
{
eEsifError rc = ESIF_E_UNSPECIFIED;
IOStreamPtr file = IOStream_Create();
UNREFERENCED_PARAMETER(self);
if (file && IOStream_OpenMemoryCloneFile(file, filename) == 0) {
*buffer = file->memory.buffer;
*buf_size = (UInt32)file->memory.buf_len;
file->memory.buffer = 0;
file->memory.buf_len = 0;
rc = ESIF_OK;
}
IOStream_Destroy(file);
return rc;
}
// Send DSP
enum esif_rc esif_send_dsp(
char *filename,
u8 dstId
)
{
enum esif_rc rc = ESIF_OK;
int edpSize = 512;
int cmdSize = 0;
struct esif_ipc *ipcPtr = NULL;
struct esif_ipc_command *commandPtr = NULL;
struct esif_command_send_dsp *dspCommandPtr = NULL;
struct edp_dir edpDir;
size_t bytesRead;
char *edpName = 0;
IOStreamPtr ioPtr = IOStream_Create();
EsifDataPtr nameSpace = 0;
EsifDataPtr key = 0;
EsifDataPtr value = 0;
if (ioPtr == NULL) {
ESIF_TRACE_ERROR("Fail to create IOStream\n");
rc = ESIF_E_NO_MEMORY;
goto exit;
}
//
// If we have a filename provided use the contents of the file as the CPC
// note this is opaque it is up to the receiver to verify that this is in fact
// a CPC.
//
if (NULL == filename) {
ESIF_TRACE_ERROR("Filename is null\n");
rc = ESIF_E_PARAMETER_IS_NULL;
goto exit;
}
// Use name portion of filename for the DataVault key (C:\path\file.edp = file.edp)
edpName = strrchr(filename, *ESIF_PATH_SEP);
edpName = (edpName ? ++edpName : filename);
nameSpace = EsifData_CreateAs(ESIF_DATA_STRING, ESIF_DSP_NAMESPACE, 0, ESIFAUTOLEN);
key = EsifData_CreateAs(ESIF_DATA_STRING, edpName, 0, ESIFAUTOLEN);
value = EsifData_CreateAs(ESIF_DATA_AUTO, NULL, ESIF_DATA_ALLOCATE, 0);
if (nameSpace == NULL || key == NULL || value == NULL) {
rc = ESIF_E_NO_MEMORY;
goto exit;
}
// Look for EDP file on disk first then DataVault (static or file)
if (!esif_ccb_file_exists(filename) && EsifConfigGet(nameSpace, key, value) == ESIF_OK) {
filename = edpName;
IOStream_SetMemory(ioPtr, (BytePtr)value->buf_ptr, value->data_len);
} else {
IOStream_SetFile(ioPtr, filename, (char *)"rb");
}
/* FIND CPC within EDP file */
if (IOStream_Open(ioPtr) != 0) {
ESIF_TRACE_ERROR("File not found (%s)\n", filename);
rc = ESIF_E_IO_OPEN_FAILED;
goto exit;
}
bytesRead = IOStream_Read(ioPtr, &edpDir, sizeof(struct edp_dir));
if (!esif_verify_edp(&edpDir, bytesRead)) {
ESIF_TRACE_ERROR("Invalid EDP Header: Signature=%4.4s Version=%d\n", (char *)&edpDir.signature, edpDir.version);
rc = ESIF_E_NOT_SUPPORTED;
goto exit;
}
edpSize = edpDir.fpc_offset - edpDir.cpc_offset;
IOStream_Seek(ioPtr, edpDir.cpc_offset, SEEK_SET);
if (edpSize > MAX_EDP_SIZE) {
ESIF_TRACE_ERROR("The edp size %d is larger than maximum edp size\n", edpSize);
rc = -ESIF_E_UNSPECIFIED;
goto exit;
}
cmdSize = edpSize + sizeof(*dspCommandPtr);
ipcPtr = esif_ipc_alloc_command(&commandPtr, cmdSize);
if (NULL == ipcPtr || NULL == commandPtr) {
ESIF_TRACE_ERROR("Fail to allocate esif_ipc/esif_ipc_command\n");
rc = ESIF_E_NO_MEMORY;
goto exit;
}
commandPtr->type = ESIF_COMMAND_TYPE_SEND_DSP;
commandPtr->req_data_type = ESIF_DATA_STRUCTURE;
commandPtr->req_data_offset = 0;
commandPtr->req_data_len = cmdSize;
commandPtr->rsp_data_type = ESIF_DATA_VOID;
commandPtr->rsp_data_offset = 0;
commandPtr->rsp_data_len = 0;
dspCommandPtr = (struct esif_command_send_dsp *)(commandPtr + 1);
dspCommandPtr->id = dstId;
dspCommandPtr->data_len = edpSize;
bytesRead = IOStream_Read(ioPtr, dspCommandPtr + 1, edpSize);
ESIF_TRACE_DEBUG("loaded file %s bytes %d\n", filename, (int)bytesRead);
ESIF_TRACE_INFO("CPC file %s(%d) sent to participant %d\n", filename, edpSize, dstId);
ipc_execute(ipcPtr);
if (ESIF_OK != ipcPtr->return_code) {
ESIF_TRACE_ERROR("ipc error code = %s(%d)\n", esif_rc_str(ipcPtr->return_code), ipcPtr->return_code);
rc = ipcPtr->return_code;
goto exit;
}
rc = commandPtr->return_code;
if ((rc != ESIF_OK) && (rc != ESIF_E_DSP_ALREADY_LOADED)) {
ESIF_TRACE_ERROR("primitive error code = %s(%d)\n", esif_rc_str(commandPtr->return_code), commandPtr->return_code);
goto exit;
}
exit:
if (NULL != ipcPtr) {
esif_ipc_free(ipcPtr);
}
if (NULL != ioPtr) {
IOStream_Close(ioPtr);
IOStream_Destroy(ioPtr);
}
EsifData_Destroy(nameSpace);
EsifData_Destroy(key);
EsifData_Destroy(value);
return rc;
}
/* Add DSP Entry */
static eEsifError esif_dsp_entry_create(struct esif_ccb_file *file_ptr)
{
eEsifError rc = ESIF_E_UNSPECIFIED;
EsifDspPtr dspPtr = NULL;
EsifFpcPtr fpcPtr = NULL;
UInt32 fpcIsStatic = ESIF_FALSE;
UInt8 i = 0;
char path[MAX_PATH]={0};
UInt32 fpcSize = 0;
UInt32 edpSize = 0;
size_t numFpcBytesRead = 0;
struct edp_dir edp_dir;
EsifDataPtr nameSpace = 0;
EsifDataPtr key = 0;
EsifDataPtr value = 0;
IOStreamPtr ioPtr = IOStream_Create();
if ((NULL == file_ptr) || (NULL == ioPtr)) {
ESIF_TRACE_ERROR("The file pointer or IO stream is NULL\n");
goto exit;
}
nameSpace = EsifData_CreateAs(ESIF_DATA_STRING, ESIF_DSP_NAMESPACE, 0, ESIFAUTOLEN);
key = EsifData_CreateAs(ESIF_DATA_STRING, file_ptr->filename, 0, ESIFAUTOLEN);
value = EsifData_CreateAs(ESIF_DATA_AUTO, NULL, ESIF_DATA_ALLOCATE, 0);
if (nameSpace == NULL || key == NULL || value == NULL) {
rc = ESIF_E_NO_MEMORY;
goto exit;
}
ESIF_TRACE_DEBUG("Filename: %s", file_ptr->filename);
dspPtr = esif_dsp_create();
if (NULL == dspPtr) {
ESIF_TRACE_ERROR("Fail to allocate dsp entry\n");
goto exit;
}
// Look for EDP file on disk first then in DataVault (static or file)
esif_build_path(path, sizeof(path), ESIF_PATHTYPE_DSP, file_ptr->filename, NULL);
if (!esif_ccb_file_exists(path) && EsifConfigGet(nameSpace, key, value) == ESIF_OK) {
esif_ccb_strcpy(path, file_ptr->filename, MAX_PATH);
IOStream_SetMemory(ioPtr, StoreReadOnly, (BytePtr)value->buf_ptr, value->data_len);
} else {
IOStream_SetFile(ioPtr, StoreReadOnly, path, "rb");
}
ESIF_TRACE_DEBUG("Fullpath: %s", path);
if (IOStream_Open(ioPtr) != 0) {
ESIF_TRACE_ERROR("File not found (%s)", path);
goto exit;
}
/* Read FPC From EDP File */
if (esif_ccb_strstr(&path[0], ".edp")) {
/* EDP - Only Read The FPC Part */
edpSize = (UInt32)IOStream_GetSize(ioPtr);
if (!edpSize) {
goto exit;
}
numFpcBytesRead = IOStream_Read(ioPtr, &edp_dir, sizeof(edp_dir));
if (!esif_verify_edp(&edp_dir, numFpcBytesRead)) {
ESIF_TRACE_ERROR("Invalid EDP Header: Signature=%4.4s Version=%d\n", (char *)&edp_dir.signature, edp_dir.version);
goto exit;
}
if (edpSize > MAX_EDP_SIZE || edp_dir.fpc_offset > MAX_FPC_SIZE || edp_dir.fpc_offset > edpSize) {
ESIF_TRACE_ERROR("The edp or fpc file size is larger than maximum\n");
goto exit;
}
fpcSize = edpSize - edp_dir.fpc_offset;
IOStream_Seek(ioPtr, edp_dir.fpc_offset, SEEK_SET);
ESIF_TRACE_DEBUG("File found (%s) size %u, FPC size %u from offset %u", path, edpSize, fpcSize, edp_dir.fpc_offset);
} else {
ESIF_TRACE_DEBUG("File %s does not have .fpc and .edp format!", path);
}
// use static DataVault buffer (if available), otherwise allocate space for our FPC file contents (which will not be freed)
if (IOStream_GetType(ioPtr) == StreamMemory && value->buf_len == 0) {
fpcPtr = (EsifFpcPtr)IOStream_GetMemoryBuffer(ioPtr);
if (NULL == fpcPtr) {
ESIF_TRACE_ERROR("NULL buffer");
goto exit;
}
fpcPtr = (EsifFpcPtr) (((BytePtr) fpcPtr) + IOStream_GetOffset(ioPtr));
numFpcBytesRead = fpcSize;
ESIF_TRACE_DEBUG("Static vault size %u buf_ptr=0x%p\n", (int)numFpcBytesRead, fpcPtr);
fpcIsStatic = ESIF_TRUE;
} else {
fpcPtr = (EsifFpcPtr)esif_ccb_malloc(fpcSize);
if (NULL == fpcPtr) {
ESIF_TRACE_ERROR("malloc failed to allocate %u bytes\n", fpcSize);
goto exit;
}
ESIF_TRACE_DEBUG("File malloc size %u", fpcSize);
// read file contents
numFpcBytesRead = IOStream_Read(ioPtr, fpcPtr, fpcSize);
if (numFpcBytesRead < fpcSize) {
ESIF_TRACE_ERROR("Read short received %u of %u bytes\n", (int)numFpcBytesRead, fpcSize);
goto exit;
}
ESIF_TRACE_DEBUG("File read size %u", (int)numFpcBytesRead);
}
ESIF_TRACE_DEBUG("\nDecode Length: %u", fpcPtr->size);
ESIF_TRACE_DEBUG("Code: %s", fpcPtr->header.code);
ESIF_TRACE_DEBUG("Ver Major: %u", fpcPtr->header.ver_major);
ESIF_TRACE_DEBUG("Ver Minor: %u", fpcPtr->header.ver_minor);
ESIF_TRACE_DEBUG("Name: %s", fpcPtr->header.name);
ESIF_TRACE_DEBUG("Description: %s", fpcPtr->header.description);
ESIF_TRACE_DEBUG("Type: %s", fpcPtr->header.type);
ESIF_TRACE_DEBUG("Bus Enumerator: %u", fpcPtr->header.bus_enum);
ESIF_TRACE_DEBUG("ACPI Device: %s", fpcPtr->header.acpi_device);
ESIF_TRACE_DEBUG("ACPI Scope: %s", fpcPtr->header.acpi_scope);
ESIF_TRACE_DEBUG("ACPI Type: %s", fpcPtr->header.acpi_type);
ESIF_TRACE_DEBUG("ACPI UID: %s", fpcPtr->header.acpi_UID);
ESIF_TRACE_DEBUG("PCI Vendor ID: %s", fpcPtr->header.pci_vendor_id);
ESIF_TRACE_DEBUG("PCI Device ID: %s", fpcPtr->header.pci_device_id);
ESIF_TRACE_DEBUG("PCI Bus: %s", fpcPtr->header.pci_bus);
ESIF_TRACE_DEBUG("PCI Device: %s", fpcPtr->header.pci_device);
ESIF_TRACE_DEBUG("PCI Function: %s", fpcPtr->header.pci_function);
dspPtr->code_ptr = (EsifString)fpcPtr->header.name;
dspPtr->bus_enum = (UInt8 *)&fpcPtr->header.bus_enum;
dspPtr->type = (EsifString)fpcPtr->header.type;
dspPtr->ver_major_ptr = (UInt8 *)&fpcPtr->header.ver_major;
dspPtr->ver_minor_ptr = (UInt8 *)&fpcPtr->header.ver_minor;
dspPtr->acpi_device = (EsifString)fpcPtr->header.acpi_device;
dspPtr->acpi_scope = (EsifString)fpcPtr->header.acpi_scope;
dspPtr->acpi_type = (EsifString)fpcPtr->header.acpi_type;
dspPtr->acpi_uid = (EsifString)fpcPtr->header.acpi_UID;
dspPtr->vendor_id = (EsifString)fpcPtr->header.pci_vendor_id;
dspPtr->device_id = (EsifString)fpcPtr->header.pci_device_id;
dspPtr->pci_bus = (EsifString)&fpcPtr->header.pci_bus;
dspPtr->pci_bus_device = (EsifString)&fpcPtr->header.pci_device;
dspPtr->pci_function = (EsifString)&fpcPtr->header.pci_function;
/* Assign Function Pointers */
dspPtr->get_code = get_code;
dspPtr->get_ver_minor = get_ver_minor;
dspPtr->get_ver_major = get_ver_major;
dspPtr->get_temp_tc1 = get_temp_c1;
dspPtr->get_percent_xform = get_percent_xform;
dspPtr->insert_primitive = insert_primitive;
dspPtr->insert_algorithm = insert_algorithm;
dspPtr->insert_domain = insert_domain;
dspPtr->insert_event = insert_event;
dspPtr->get_primitive = get_primitive;
dspPtr->get_action = get_action;
dspPtr->get_algorithm = get_algorithm;
dspPtr->get_domain = get_domain;
dspPtr->get_event_by_type = get_event_by_type;
dspPtr->get_event_by_guid = get_event_by_guid;
dspPtr->init_fpc_iterator = init_fpc_iterator;
dspPtr->get_next_fpc_domain = get_next_fpc_domain;
dspPtr->get_domain_count = get_domain_count;
rc = esif_fpc_load(fpcPtr, dspPtr);
if (ESIF_OK == rc) {
ESIF_TRACE_DEBUG("FPC %s load successfully", path);
} else {
ESIF_TRACE_DEBUG("Unable to load FPC %s, rc %s", path, esif_rc_str(rc));
goto exit;
}
/* Lock DSP Manager */
esif_ccb_write_lock(&g_dm.lock);
/* Simple Table Lookup For Now. Scan Table And Find First Empty Slot */
/* Empty slot indicated by AVAILABLE state */
for (i = 0; i < MAX_DSP_MANAGER_ENTRY; i++) {
if (NULL == g_dm.dme[i].dsp_ptr) {
break;
}
}
/* If No Available Slots Return */
if (i >= MAX_DSP_MANAGER_ENTRY) {
esif_ccb_write_unlock(&g_dm.lock);
ESIF_TRACE_ERROR("No free dsp manager entry is available for %s\n", file_ptr->filename);
goto exit;
}
/*
** Take Slot
*/
g_dm.dme[i].dsp_ptr = dspPtr;
g_dm.dme[i].file_ptr = file_ptr;
g_dm.dme[i].fpc_ptr = (fpcIsStatic ? 0 : fpcPtr);
g_dm.dme_count++;
dspPtr = NULL; // Prevent deallocate on exit
fpcPtr = NULL; // Prevent deallocate on exit
esif_ccb_write_unlock(&g_dm.lock);
rc = ESIF_OK;
ESIF_TRACE_INFO("Create entry in dsp manager successfully for %s\n", file_ptr->filename);
exit:
IOStream_Destroy(ioPtr);
EsifData_Destroy(nameSpace);
EsifData_Destroy(key);
EsifData_Destroy(value);
esif_dsp_destroy(dspPtr);
if (!fpcIsStatic) {
esif_ccb_free(fpcPtr);
}
return rc;
}
// Write DataVault to Disk
eEsifError DataVault_WriteVault(DataVaultPtr self)
{
eEsifError rc = ESIF_OK;
DataCacheEntryPtr pairPtr = NULL;
IOStreamPtr diskStreamPtr = NULL;
IOStreamPtr memStreamPtr = NULL;
BytePtr memStreamBuffer = NULL;
size_t memStreamBufSize = 0;
UInt32 idx;
DataCachePtr cacheClonePtr = NULL;
if (FLAGS_TEST(self->flags, ESIF_SERVICE_CONFIG_STATIC | ESIF_SERVICE_CONFIG_READONLY)) {
rc = ESIF_E_READONLY;
goto exit;
}
if (self->stream->file.name == NULL || self->cache == NULL) {
rc = ESIF_E_PARAMETER_IS_NULL;
goto exit;
}
//
// As the cache data can be modified while writing the data vault (due to
// non-cached values), we create a clone of the current cache so that we can
// fall back to it in case of a failure.
//
cacheClonePtr = DataCache_Clone(self->cache);
if ((NULL == cacheClonePtr) && (self->cache != NULL)) {
rc = ESIF_E_NO_MEMORY;
goto exit;
}
//
// Use a memory stream for creation before writing the final output to a file
//
memStreamPtr = IOStream_Create();
if (!memStreamPtr) {
rc = ESIF_E_NO_MEMORY;
goto exit;
}
if (IOStream_SetMemory(memStreamPtr, NULL, 0) != EOK) {
rc = ESIF_E_NO_MEMORY;
goto exit;
}
//
// If any rows contain NOCACHE PERSIST values, we need to read them from the
// original file before we overwrite it
//
diskStreamPtr = IOStream_Create();
if (diskStreamPtr == NULL) {
rc = ESIF_E_NO_MEMORY;
goto exit;
}
if (IOStream_Seek(memStreamPtr, sizeof(DataVaultHeader), SEEK_CUR) != EOK) {
rc = ESIF_E_IO_ERROR;
goto exit;
}
//
// Write the key/value pairs to the memory stream for each data category
// Fill in the data header for each category after the key/value pairs are written
// Note: Only write persisted data
//
// Write All Persisted Rows from Sorted List to DataVault
for (idx = 0; rc == ESIF_OK && idx < self->cache->size; idx++) {
pairPtr = &self->cache->elements[idx];
if (!(pairPtr->flags & ESIF_SERVICE_CONFIG_PERSIST)) {
continue;
}
rc = DataVault_WriteKeyValuePair(self, pairPtr, memStreamPtr);
if (rc != ESIF_OK) {
goto exit;
}
}
//
// Now go back and complete the headers
// Fill in and write the main header
//
if (IOStream_Open(memStreamPtr) != EOK) {
rc = ESIF_E_IO_ERROR;
goto exit;
}
DataVaultHeader header = { 0 };
esif_ccb_memcpy(&header.signature, ESIFDV_SIGNATURE, sizeof(header.signature));
header.headersize = sizeof(header);
header.version = ESIFDV_VERSION(1, 0, ESIFDV_REVISION);
header.flags = self->flags;
if (IOStream_Write(memStreamPtr, &header, sizeof(header)) != sizeof(header)) {
rc = ESIF_E_IO_ERROR;
goto exit;
}
memStreamBuffer = IOStream_GetMemoryBuffer(memStreamPtr);
memStreamBufSize = IOStream_GetSize(memStreamPtr);
//
// Now write the memory stream to the disk
//
if (rc == ESIF_OK && IOStream_OpenFile(diskStreamPtr, self->stream->file.name, "wb") != EOK) {
rc = ESIF_E_IO_OPEN_FAILED;
goto exit;
}
if (rc == ESIF_OK && (IOStream_Write(diskStreamPtr, memStreamBuffer, memStreamBufSize) != memStreamBufSize)) {
rc = ESIF_E_IO_ERROR;
goto exit;
}
exit:
IOStream_Destroy(diskStreamPtr);
IOStream_Destroy(memStreamPtr);
if (rc != ESIF_OK && cacheClonePtr != NULL) {
DataCache_Destroy(self->cache);
self->cache = cacheClonePtr;
} else {
DataCache_Destroy(cacheClonePtr);
}
return rc;
}
// Write DataVault to Disk
eEsifError DataVault_WriteVault (DataVaultPtr self)
{
eEsifError rc = ESIF_E_NOT_FOUND;
DataVaultHeader header;
struct esif_ccb_file dv_file = {0};
struct esif_ccb_file dv_filebak = {0};
IOStreamPtr vault = 0;
IOStreamPtr vaultBak = 0;
u32 idx;
if (FLAGS_TEST(self->flags, ESIF_SERVICE_CONFIG_STATIC | ESIF_SERVICE_CONFIG_READONLY)) {
return ESIF_E_READONLY;
}
// TODO: Locking
vault = IOStream_Create();
if (!vault) {
return ESIF_E_NO_MEMORY;
}
// If any rows contain NOCACHE PERSIST values, we need to make a copy the original DataVault while creating the new one
// esif_ccb_sprintf(MAX_PATH, dv_file.filename, "%s%s", esif_build_path(dv_file.filename, MAX_PATH, NULL, self->name), ESIFDV_FILEEXT);
esif_ccb_sprintf(MAX_PATH, dv_file.filename, "%s%s%s", ESIFDV_DIR, self->name, ESIFDV_FILEEXT);
for (idx = 0; idx < self->cache->size; idx++)
if (FLAGS_TESTALL(self->cache->elements[idx].flags, ESIF_SERVICE_CONFIG_NOCACHE | ESIF_SERVICE_CONFIG_PERSIST) &&
self->cache->elements[idx].value.buf_len == 0) {
struct stat filebak_stat = {0};
esif_ccb_sprintf(MAX_PATH, dv_filebak.filename, "%s%s%s", ESIFDV_DIR, self->name, ESIFDV_BAKFILEEXT);
// Delete BAK file if it exists
if (esif_ccb_stat(dv_filebak.filename, &filebak_stat) == 0) {
esif_ccb_unlink(dv_filebak.filename);
}
if (esif_ccb_rename(dv_file.filename, dv_filebak.filename) == 0) {
if ((vaultBak = IOStream_Create()) == NULL) {
rc = ESIF_E_NO_MEMORY;
}
if (!vaultBak || IOStream_OpenFile(vaultBak, dv_filebak.filename, "rb") != 0) {
IOStream_Destroy(vault);
IOStream_Destroy(vaultBak);
return rc;
}
}
break;
}
// Create DataVault, Overwrite if necessary
IOStream_SetFile(vault, self->stream->file.name, "wb");
if (IOStream_Open(vault) != 0) {
if (vaultBak) {
IOStream_Destroy(vaultBak);
esif_ccb_unlink(dv_filebak.filename);
}
IOStream_Destroy(vault);
return rc;
}
// Create File Header
memset(&header, 0, sizeof(header));
esif_ccb_memcpy(&header.signature, ESIFDV_SIGNATURE, sizeof(header.signature));
header.headersize = sizeof(header);
header.version = ESIFDV_VERSION(ESIFDV_MAJOR_VERSION, ESIFDV_MINOR_VERSION, ESIFDV_REVISION);
header.flags = 0; // TODO: get from self->flags
// Write File Header
IOStream_Seek(vault, 0, SEEK_SET);
IOStream_Write(vault, &header, sizeof(header));
rc = ESIF_OK;
// Write All Persisted Rows from Sorted List to DataVault
for (idx = 0; idx < self->cache->size; idx++) {
DataCacheEntryPtr keypair = &self->cache->elements[idx];
if (keypair->flags & ESIF_SERVICE_CONFIG_PERSIST) {
UInt8 *buffer = 0;
UInt32 buffer_len = 0;
UInt32 byte = 0;
IOStream_Write(vault, &keypair->flags, sizeof(keypair->flags));
IOStream_Write(vault, &keypair->key.data_len, sizeof(keypair->key.data_len));
IOStream_Write(vault, keypair->key.buf_ptr, keypair->key.data_len);
IOStream_Write(vault, &keypair->value.type, sizeof(keypair->value.type));
IOStream_Write(vault, &keypair->value.data_len, sizeof(keypair->value.data_len));
// Read NOCACHE Entries from Backup file
if (keypair->flags & ESIF_SERVICE_CONFIG_NOCACHE) {
size_t offset = IOStream_GetOffset(vault);
// Read Block from BAK file
if (keypair->value.buf_len == 0) {
size_t bakoffset = (size_t)keypair->value.buf_ptr;
buffer = (UInt8*)esif_ccb_malloc(keypair->value.data_len);
buffer_len = keypair->value.data_len;
if (!buffer) {
rc = ESIF_E_NO_MEMORY;
break;
}
if (IOStream_Seek(vaultBak, bakoffset, SEEK_SET) != 0 || IOStream_Read(vaultBak, buffer, buffer_len) != buffer_len) {
esif_ccb_free(buffer);
rc = ESIF_E_UNSPECIFIED;// TODO: ESIF_E_IOERROR;
break;
}
keypair->value.buf_ptr = (void*)offset;
}
// Convert internal storage to NOCACHE
else {
buffer = (UInt8*)keypair->value.buf_ptr;
buffer_len = keypair->value.data_len;
keypair->value.buf_ptr = (void*)offset;
keypair->value.buf_len = 0;
}
}
// Encrypt Data?
if (keypair->flags & ESIF_SERVICE_CONFIG_ENCRYPT) {
if (!buffer) {
buffer = (UInt8*)esif_ccb_malloc(keypair->value.data_len);
buffer_len = keypair->value.data_len;
if (!buffer) {
rc = ESIF_E_NO_MEMORY;
break;
}
}
for (byte = 0; byte < keypair->value.data_len; byte++)
buffer[byte] = ~((UInt8*)(keypair->value.buf_ptr))[byte];
}
if (buffer) {
IOStream_Write(vault, buffer, buffer_len);
esif_ccb_free(buffer);
} else {
IOStream_Write(vault, keypair->value.buf_ptr, keypair->value.data_len);
}
}
}
// Rollback on Error
if (rc != ESIF_OK) {
IOStream_Destroy(vaultBak);
IOStream_Destroy(vault);
esif_ccb_unlink(dv_file.filename);
IGNORE_RESULT(esif_ccb_rename(dv_filebak.filename, dv_file.filename));
return rc;
}
// Remove BAK file and Commit
if (vaultBak) {
IOStream_Close(vaultBak);
esif_ccb_unlink(dv_filebak.filename);
IOStream_Destroy(vaultBak);
}
IOStream_Close(vault);
IOStream_Destroy(vault);
return rc;
}
