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writefrudata.C
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writefrudata.C
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#include <vector>
#include <stdlib.h>
#include <dlfcn.h>
#include <errno.h>
#include <stdio.h>
#include <systemd/sd-bus.h>
#include <unistd.h>
#include <host-ipmid/ipmid-api.h>
#include <iostream>
#include <memory>
#include <algorithm>
#include <fstream>
#include <sstream>
#include "frup.h"
#include "fru-area.H"
// OpenBMC System Manager dbus framework
const char *sys_bus_name = "org.openbmc.managers.System";
const char *sys_object_name = "/org/openbmc/managers/System";
const char *sys_intf_name = "org.openbmc.managers.System";
//----------------------------------------------------------------
// Constructor
//----------------------------------------------------------------
ipmi_fru::ipmi_fru(const uint8_t fruid, const ipmi_fru_area_type type,
sd_bus *bus_type, bool bmc_fru)
{
iv_fruid = fruid;
iv_type = type;
iv_bmc_fru = bmc_fru;
iv_bus_type = bus_type;
iv_valid = false;
iv_data = NULL;
iv_present = false;
if(iv_type == IPMI_FRU_AREA_INTERNAL_USE)
{
iv_name = "INTERNAL_";
}
else if(iv_type == IPMI_FRU_AREA_CHASSIS_INFO)
{
iv_name = "CHASSIS_";
}
else if(iv_type == IPMI_FRU_AREA_BOARD_INFO)
{
iv_name = "BOARD_";
}
else if(iv_type == IPMI_FRU_AREA_PRODUCT_INFO)
{
iv_name = "PRODUCT_";
}
else if(iv_type == IPMI_FRU_AREA_MULTI_RECORD)
{
iv_name = "MULTI_";
}
else
{
iv_name = IPMI_FRU_AREA_TYPE_MAX;
fprintf(stderr, "ERROR: Invalid Area type :[%d]\n",iv_type);
}
}
//-----------------------------------------------------
// For a FRU area type, accepts the data and updates
// area specific data.
//-----------------------------------------------------
void ipmi_fru::set_data(const uint8_t *data, const size_t len)
{
iv_len = len;
iv_data = new uint8_t[len];
memcpy(iv_data, data, len);
}
//-----------------------------------------------------
// Sets the dbus parameters
//-----------------------------------------------------
void ipmi_fru::update_dbus_paths(const char *bus_name,
const char *obj_path, const char *intf_name)
{
iv_bus_name = bus_name;
iv_obj_path = obj_path;
iv_intf_name = intf_name;
}
//-------------------
// Destructor
//-------------------
ipmi_fru::~ipmi_fru()
{
sd_bus_error bus_error = SD_BUS_ERROR_NULL;
sd_bus_message *response = NULL;
int rc = 0;
if(iv_data != NULL)
{
delete [] iv_data;
iv_data = NULL;
}
// If we have not been successful in doing some updates and we are a BMC
// fru, then need to set the fault bits.
bool valid_dbus = !(iv_bus_name.empty()) &&
!(iv_obj_path.empty()) &&
!(iv_intf_name.empty());
// Based on bmc_fru, success in updating the FRU inventory we need to set
// some special bits.
if(iv_bmc_fru && valid_dbus)
{
// Set the Fault bit if we did not successfully process the fru
const char *fault_bit = iv_valid ? "False" : "True";
rc = sd_bus_call_method(iv_bus_type, // On the System Bus
iv_bus_name.c_str(), // Service to contact
iv_obj_path.c_str(), // Object path
iv_intf_name.c_str(), // Interface name
"setFault", // Method to be called
&bus_error, // object to return error
&response, // Response message on success
"s", // input message (string)
fault_bit); // First argument to setFault
if(rc <0)
{
fprintf(stderr,"Failed to set Fault bit, value:[%s] for fruid:[%d], path:[%s]\n",
fault_bit, iv_fruid, iv_obj_path.c_str());
}
else
{
printf("Fault bit set to :[%s] for fruid:[%d], Path:[%s]\n",
fault_bit, iv_fruid,iv_obj_path.c_str());
}
sd_bus_error_free(&bus_error);
sd_bus_message_unref(response);
// Set the Present bits
const char *present_bit = iv_present ? "True" : "False";
rc = sd_bus_call_method(iv_bus_type, // On the System Bus
iv_bus_name.c_str(), // Service to contact
iv_obj_path.c_str(), // Object path
iv_intf_name.c_str(), // Interface name
"setPresent", // Method to be called
&bus_error, // object to return error
&response, // Response message on success
"s", // input message (string)
present_bit); // First argument to setPresent
if(rc < 0)
{
fprintf(stderr,"Failed to set Present bit for fruid:[%d], path:[%s]\n",
iv_fruid, iv_obj_path.c_str());
}
else
{
printf("Present bit set to :[%s] for fruid:[%d], Path[%s]:\n",
present_bit, iv_fruid, iv_obj_path.c_str());
}
sd_bus_error_free(&bus_error);
sd_bus_message_unref(response);
}
}
// Sets up the sd_bus structures for the given fru type
int ipmi_fru::setup_sd_bus_paths(void)
{
// Need this to get respective DBUS objects
sd_bus_error bus_error = SD_BUS_ERROR_NULL;
sd_bus_message *response = NULL;
int rc = 0;
// What we need is BOARD_1, PRODUCT_1, CHASSIS_1 etc..
char *inv_bus_name, *inv_obj_path, *inv_intf_name;
char fru_area_name[16] = {0};
sprintf(fru_area_name,"%s%d",iv_name.c_str(), iv_fruid);
#ifdef __IPMI_DEBUG__
printf("Getting sd_bus for :[%s]\n",fru_area_name);
#endif
// We want to call a method "getObjectFromId" on System Bus that is
// made available over OpenBmc system services.
rc = sd_bus_call_method(iv_bus_type, // On the System Bus
sys_bus_name, // Service to contact
sys_object_name, // Object path
sys_intf_name, // Interface name
"getObjectFromId", // Method to be called
&bus_error, // object to return error
&response, // Response message on success
"ss", // input message (string,string)
"FRU_STR", // First argument to getObjectFromId
fru_area_name); // Second Argument
if(rc < 0)
{
fprintf(stderr, "Failed to resolve fruid:[%d] to dbus: [%s]\n", iv_fruid, bus_error.message);
}
else
{
// Method getObjectFromId returns 3 parameters and all are strings, namely
// bus_name , object_path and interface name for accessing that particular
// FRU over Inventory SDBUS manager. 'sss' here mentions that format.
rc = sd_bus_message_read(response, "(sss)", &inv_bus_name, &inv_obj_path, &inv_intf_name);
if(rc < 0)
{
fprintf(stderr, "Failed to parse response message:[%s]\n", strerror(-rc));
}
else
{
// Update the paths in the area object
update_dbus_paths(inv_bus_name, inv_obj_path, inv_intf_name);
}
}
#ifdef __IPMI_DEBUG__
printf("fru_area=[%s], inv_bus_name=[%s], inv_obj_path=[%s], inv_intf_name=[%s]\n",
fru_area_name, inv_bus_name, inv_obj_path, inv_intf_name);
#endif
sd_bus_error_free(&bus_error);
sd_bus_message_unref(response);
return rc;
}
//------------------------------------------------
// Takes the pointer to stream of bytes and length
// and returns the 8 bit checksum
// This algo is per IPMI V2.0 spec
//-------------------------------------------------
unsigned char calculate_crc(const unsigned char *data, size_t len)
{
char crc = 0;
size_t byte = 0;
for(byte = 0; byte < len; byte++)
{
crc += *data++;
}
return(-crc);
}
//---------------------------------------------------------------------
// Accepts a fru area offset in commom hdr and tells which area it is.
//---------------------------------------------------------------------
ipmi_fru_area_type get_fru_area_type(uint8_t area_offset)
{
ipmi_fru_area_type type = IPMI_FRU_AREA_TYPE_MAX;
switch(area_offset)
{
case IPMI_FRU_INTERNAL_OFFSET:
type = IPMI_FRU_AREA_INTERNAL_USE;
break;
case IPMI_FRU_CHASSIS_OFFSET:
type = IPMI_FRU_AREA_CHASSIS_INFO;
break;
case IPMI_FRU_BOARD_OFFSET:
type = IPMI_FRU_AREA_BOARD_INFO;
break;
case IPMI_FRU_PRODUCT_OFFSET:
type = IPMI_FRU_AREA_PRODUCT_INFO;
break;
case IPMI_FRU_MULTI_OFFSET:
type = IPMI_FRU_AREA_MULTI_RECORD;
break;
default:
type = IPMI_FRU_AREA_TYPE_MAX;
}
return type;
}
///-----------------------------------------------
// Validates the data for crc and mandatory fields
///-----------------------------------------------
int verify_fru_data(const uint8_t *data, const size_t len)
{
uint8_t checksum = 0;
int rc = -1;
// Validate for first byte to always have a value of [1]
if(data[0] != IPMI_FRU_HDR_BYTE_ZERO)
{
fprintf(stderr, "Invalid entry:[%d] in byte-0\n",data[0]);
return rc;
}
#ifdef __IPMI_DEBUG__
else
{
printf("SUCCESS: Validated [0x%X] in entry_1 of fru_data\n",data[0]);
}
#endif
// See if the calculated CRC matches with the embedded one.
// CRC to be calculated on all except the last one that is CRC itself.
checksum = calculate_crc(data, len - 1);
if(checksum != data[len-1])
{
#ifdef __IPMI_DEBUG__
fprintf(stderr, "Checksum mismatch."
" Calculated:[0x%X], Embedded:[0x%X]\n",
checksum, data[len]);
#endif
return rc;
}
#ifdef __IPMI_DEBUG__
else
{
printf("SUCCESS: Checksum matches:[0x%X]\n",checksum);
}
#endif
return EXIT_SUCCESS;
}
//------------------------------------------------------------------------
// Takes FRU data, invokes Parser for each fru record area and updates
// Inventory
//------------------------------------------------------------------------
int ipmi_update_inventory(fru_area_vec_t & area_vec)
{
// Generic error reporter
int rc = 0;
// Dictionary object to hold Name:Value pair
sd_bus_message *fru_dict = NULL;
// SD Bus error report mechanism.
sd_bus_error bus_error = SD_BUS_ERROR_NULL;
// Response from sd bus calls
sd_bus_message *response = NULL;
// For each FRU area, extract the needed data , get it parsed and update
// the Inventory.
for(auto& iter : area_vec)
{
// Start fresh on each.
sd_bus_error_free(&bus_error);
sd_bus_message_unref(response);
sd_bus_message_unref(fru_dict);
// Constructor to allow further initializations and customization.
rc = sd_bus_message_new_method_call((iter)->get_bus_type(),
&fru_dict,
(iter)->get_bus_name(),
(iter)->get_obj_path(),
(iter)->get_intf_name(),
"update");
if(rc < 0)
{
fprintf(stderr,"ERROR: creating a update method call for bus_name:[%s]\n",
(iter)->get_bus_name());
break;
}
// A Dictionary ({}) having (string, variant)
rc = sd_bus_message_open_container(fru_dict, 'a', "{sv}");
if(rc < 0)
{
fprintf(stderr,"ERROR:[%d] creating a dict container:\n",errno);
break;
}
// Fill the container with information
rc = parse_fru_area((iter)->get_type(), (void *)(iter)->get_data(), (iter)->get_len(), fru_dict);
if(rc < 0)
{
fprintf(stderr,"ERROR parsing FRU records\n");
break;
}
sd_bus_message_close_container(fru_dict);
// Now, Make the actual call to update the FRU inventory database with the
// dictionary given by FRU Parser. There is no response message expected for
// this.
rc = sd_bus_call((iter)->get_bus_type(), // On the System Bus
fru_dict, // With the Name:value dictionary array
0, //
&bus_error, // Object to return error.
&response); // Response message if any.
if(rc < 0)
{
fprintf(stderr, "ERROR:[%s] updating FRU inventory for ID:[0x%X]\n",
bus_error.message, (iter)->get_fruid());
break;
}
else if((iter)->is_bmc_fru())
{
// For FRUs that are accessible by HostBoot, host boot does all of
// these.
printf("SUCCESS: Updated:[%s_%d] successfully. Setting Valid bit\n",
(iter)->get_name(), (iter)->get_fruid());
(iter)->set_valid(true);
}
else
{
printf("SUCCESS: Updated:[%s_%d] successfully\n",
(iter)->get_name(), (iter)->get_fruid());
}
} // END walking the vector of areas and updating
sd_bus_error_free(&bus_error);
sd_bus_message_unref(response);
sd_bus_message_unref(fru_dict);
return rc;
}
///----------------------------------------------------
// Checks if a particular fru area is populated or not
///----------------------------------------------------
bool remove_invalid_area(const std::unique_ptr<ipmi_fru> &fru_area)
{
// Filter the ones that do not have dbus reference.
if((strlen((fru_area)->get_bus_name()) == 0) ||
(strlen((fru_area)->get_obj_path()) == 0) ||
(strlen((fru_area)->get_intf_name()) == 0))
{
return true;
}
return false;
}
///----------------------------------------------------------------------------------
// Populates various FRU areas
// @prereq : This must be called only after validating common header.
///----------------------------------------------------------------------------------
int ipmi_populate_fru_areas(uint8_t *fru_data, const size_t data_len,
fru_area_vec_t & fru_area_vec)
{
size_t area_offset = 0;
int rc = -1;
// Now walk the common header and see if the file size has atleast the last
// offset mentioned by the common_hdr. If the file size is less than the
// offset of any if the fru areas mentioned in the common header, then we do
// not have a complete file.
for(uint8_t fru_entry = IPMI_FRU_INTERNAL_OFFSET;
fru_entry < (sizeof(struct common_header) -2); fru_entry++)
{
rc = -1;
// Actual offset in the payload is the offset mentioned in common header
// multipled by 8. Common header is always the first 8 bytes.
area_offset = fru_data[fru_entry] * IPMI_EIGHT_BYTES;
if(area_offset && (data_len < (area_offset + 2)))
{
// Our file size is less than what it needs to be. +2 because we are
// using area len that is at 2 byte off area_offset
fprintf(stderr, "fru file is incomplete. Size:[%d]\n",data_len);
return rc;
}
else if(area_offset)
{
// Read 2 bytes to know the actual size of area.
uint8_t area_hdr[2] = {0};
memcpy(area_hdr, &((uint8_t *)fru_data)[area_offset], sizeof(area_hdr));
// Size of this area will be the 2nd byte in the fru area header.
size_t area_len = area_hdr[1] * IPMI_EIGHT_BYTES;
uint8_t area_data[area_len] = {0};
printf("fru data size:[%d], area offset:[%d], area_size:[%d]\n",
data_len, area_offset, area_len);
// See if we really have that much buffer. We have area offset amd
// from there, the actual len.
if(data_len < (area_len + area_offset))
{
fprintf(stderr, "Incomplete Fru file.. Size:[%d]\n",data_len);
return rc;
}
// Save off the data.
memcpy(area_data, &((uint8_t *)fru_data)[area_offset], area_len);
// Validate the crc
rc = verify_fru_data(area_data, area_len);
if(rc < 0)
{
fprintf(stderr, "Error validating fru area. offset:[%d]\n",area_offset);
return rc;
}
else
{
printf("Successfully verified area checksum. offset:[%d]\n",area_offset);
}
// We already have a vector that is passed to us containing all
// of the fields populated. Update the data portion now.
for(auto& iter : fru_area_vec)
{
if((iter)->get_type() == get_fru_area_type(fru_entry))
{
(iter)->set_data(area_data, area_len);
}
}
} // If we have fru data present
} // Walk common_hdr
// Not all the fields will be populated in a fru data. Mostly all cases will
// not have more than 2 or 3.
fru_area_vec.erase(std::remove_if(fru_area_vec.begin(), fru_area_vec.end(),
remove_invalid_area), fru_area_vec.end());
return EXIT_SUCCESS;
}
///---------------------------------------------------------
// Validates the fru data per ipmi common header constructs.
// Returns with updated common_hdr and also file_size
//----------------------------------------------------------
int ipmi_validate_common_hdr(const uint8_t *fru_data, const size_t data_len)
{
int rc = -1;
uint8_t common_hdr[sizeof(struct common_header)] = {0};
if(data_len >= sizeof(common_hdr))
{
memcpy(common_hdr, fru_data, sizeof(common_hdr));
}
else
{
fprintf(stderr, "Incomplete fru data file. Size:[%d]\n", data_len);
return rc;
}
// Verify the crc and size
rc = verify_fru_data(common_hdr, sizeof(common_hdr));
if(rc < 0)
{
fprintf(stderr, "Failed to validate common header\n");
return rc;
}
return EXIT_SUCCESS;
}
//------------------------------------------------------------
// Cleanup routine
//------------------------------------------------------------
int cleanup_error(FILE *fru_fp, fru_area_vec_t & fru_area_vec)
{
if(fru_fp != NULL)
{
fclose(fru_fp);
fru_fp = NULL;
}
if(!(fru_area_vec.empty()))
{
fru_area_vec.clear();
}
return -1;
}
///-----------------------------------------------------
// Get the fru area names defined in BMC for a given @fruid.
//----------------------------------------------------
int get_defined_fru_area(sd_bus *bus_type, const uint8_t fruid,
std::vector<std::string> &defined_fru_area)
{
// Need this to get respective DBUS objects
sd_bus_error bus_error = SD_BUS_ERROR_NULL;
sd_bus_message *response = NULL;
int rc = 0;
char *areas = NULL;
#ifdef __IPMI_DEBUG__
printf("Getting fru areas defined in Skeleton for :[%d]\n", fruid);
#endif
// We want to call a method "getFRUArea" on System Bus that is
// made available over OpenBmc system services.
rc = sd_bus_call_method(bus_type, // On the System Bus
sys_bus_name, // Service to contact
sys_object_name, // Object path
sys_intf_name, // Interface name
"getFRUArea", // Method to be called
&bus_error, // object to return error
&response, // Response message on success
"y", // input message (integer)
fruid); // Argument
if(rc < 0)
{
fprintf(stderr, "Failed to get fru area for fruid:[%d] to dbus: [%s]\n",
fruid, bus_error.message);
}
else
{
// if several fru area names are defined, the names are combined to
// a string seperated by ','
rc = sd_bus_message_read(response, "s", &areas);
if(rc < 0)
{
fprintf(stderr, "Failed to parse response message from getFRUArea:[%s]\n",
strerror(-rc));
}
else
{
#ifdef __IPMI_DEBUG__
printf("get defined fru area: id: %d, areas: %s\n", fruid, areas);
#endif
std::string area_name;
std::stringstream ss(areas);
// fru area names string is seperated by ',', parse it into tokens
while (std::getline(ss, area_name, ','))
{
if (!area_name.empty())
defined_fru_area.emplace_back(area_name);
}
}
}
sd_bus_error_free(&bus_error);
sd_bus_message_unref(response);
return rc;
}
///-----------------------------------------------------
// Accepts the filename and validates per IPMI FRU spec
//----------------------------------------------------
int ipmi_validate_fru_area(const uint8_t fruid, const char *fru_file_name,
sd_bus *bus_type, const bool bmc_fru)
{
size_t data_len = 0;
size_t bytes_read = 0;
int rc = -1;
// Vector that holds individual IPMI FRU AREAs. Although MULTI and INTERNAL
// are not used, keeping it here for completeness.
fru_area_vec_t fru_area_vec;
std::vector<std::string> defined_fru_area;
// BMC defines fru areas that should be present in Skeleton
rc = get_defined_fru_area(bus_type, fruid, defined_fru_area);
if(rc < 0)
{
fprintf(stderr, "ERROR: cannot get defined fru area\n");
return rc;
}
for(uint8_t fru_entry = IPMI_FRU_INTERNAL_OFFSET;
fru_entry < (sizeof(struct common_header) -2); fru_entry++)
{
// Create an object and push onto a vector.
std::unique_ptr<ipmi_fru> fru_area = std::make_unique<ipmi_fru>
(fruid, get_fru_area_type(fru_entry), bus_type, bmc_fru);
// Physically being present
bool present = access(fru_file_name, F_OK) == 0;
fru_area->set_present(present);
// Only setup dbus path for areas defined in BMC.
// Otherwise Skeleton will report 'not found' error
std::string fru_area_name = fru_area->get_name() + std::to_string(fruid);
auto iter = std::find(defined_fru_area.begin(), defined_fru_area.end(),
fru_area_name);
if (iter != defined_fru_area.end())
{
fru_area->setup_sd_bus_paths();
}
fru_area_vec.emplace_back(std::move(fru_area));
}
FILE *fru_fp = fopen(fru_file_name,"rb");
if(fru_fp == NULL)
{
fprintf(stderr, "ERROR: opening:[%s]\n",fru_file_name);
perror("Error:");
return cleanup_error(fru_fp, fru_area_vec);
}
// Get the size of the file to see if it meets minimum requirement
if(fseek(fru_fp, 0, SEEK_END))
{
perror("Error:");
return cleanup_error(fru_fp, fru_area_vec);
}
// Allocate a buffer to hold entire file content
data_len = ftell(fru_fp);
uint8_t fru_data[data_len] = {0};
rewind(fru_fp);
bytes_read = fread(fru_data, data_len, 1, fru_fp);
if(bytes_read != 1)
{
fprintf(stderr, "Failed reading fru data. Bytes_read=[%d]\n",bytes_read);
perror("Error:");
return cleanup_error(fru_fp, fru_area_vec);
}
// We are done reading.
fclose(fru_fp);
fru_fp = NULL;
rc = ipmi_validate_common_hdr(fru_data, data_len);
if(rc < 0)
{
return cleanup_error(fru_fp, fru_area_vec);
}
// Now that we validated the common header, populate various fru sections if we have them here.
rc = ipmi_populate_fru_areas(fru_data, data_len, fru_area_vec);
if(rc < 0)
{
fprintf(stderr,"Populating FRU areas failed for:[%d]\n",fruid);
return cleanup_error(fru_fp, fru_area_vec);
}
else
{
printf("SUCCESS: Populated FRU areas for:[%s]\n",fru_file_name);
}
#ifdef __IPMI_DEBUG__
for(auto& iter : fru_area_vec)
{
printf("FRU ID : [%d]\n",(iter)->get_fruid());
printf("AREA NAME : [%s]\n",(iter)->get_name());
printf("TYPE : [%d]\n",(iter)->get_type());
printf("LEN : [%d]\n",(iter)->get_len());
printf("BUS NAME : [%s]\n", (iter)->get_bus_name());
printf("OBJ PATH : [%s]\n", (iter)->get_obj_path());
printf("INTF NAME :[%s]\n", (iter)->get_intf_name());
}
#endif
// If the vector is populated with everything, then go ahead and update the
// inventory.
if(!(fru_area_vec.empty()))
{
#ifdef __IPMI_DEBUG__
printf("\n SIZE of vector is : [%d] \n",fru_area_vec.size());
#endif
rc = ipmi_update_inventory(fru_area_vec);
if(rc <0)
{
fprintf(stderr, "Error updating inventory\n");
}
}
// we are done with all that we wanted to do. This will do the job of
// calling any destructors too.
fru_area_vec.clear();
return rc;
}