diff options
author | Jörg Frings-Fürst <debian@jff-webhosting.net> | 2014-07-23 15:03:00 +0200 |
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committer | Jörg Frings-Fürst <debian@jff-webhosting.net> | 2014-07-23 15:03:00 +0200 |
commit | b32d92e890caac903491116e9d817aa780c0323b (patch) | |
tree | 5a135c37eaa9ac94772819a28ce5beedd18e5c4a /lib/ipmi_hpmfwupg.c | |
parent | c3445516ecd58e97de483cf4b7fafcc1104890d7 (diff) |
Imported Upstream version 1.8.14upstream/1.8.14
Diffstat (limited to 'lib/ipmi_hpmfwupg.c')
-rw-r--r-- | lib/ipmi_hpmfwupg.c | 2624 |
1 files changed, 2624 insertions, 0 deletions
diff --git a/lib/ipmi_hpmfwupg.c b/lib/ipmi_hpmfwupg.c new file mode 100644 index 0000000..69950b7 --- /dev/null +++ b/lib/ipmi_hpmfwupg.c @@ -0,0 +1,2624 @@ +/* + * Copyright (c) 2006 Kontron Canada, Inc. All Rights Reserved. + * Copyright (c) 2003 Sun Microsystems, Inc. All Rights Reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * Redistribution of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * + * Redistribution in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * + * Neither the name of Sun Microsystems, Inc. or the names of + * contributors may be used to endorse or promote products derived + * from this software without specific prior written permission. + * + * This software is provided "AS IS," without a warranty of any kind. + * ALL EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, + * INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A + * PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. + * SUN MICROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL NOT BE LIABLE + * FOR ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING + * OR DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL + * SUN OR ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, + * OR FOR DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR + * PUNITIVE DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF + * LIABILITY, ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, + * EVEN IF SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. + */ + +#include <ipmitool/ipmi_intf.h> +#include <ipmitool/ipmi_mc.h> +#include <ipmitool/ipmi_hpmfwupg.h> +#include <ipmitool/helper.h> +#include <ipmitool/ipmi_strings.h> +#include <ipmitool/log.h> +#include "../src/plugins/lan/md5.h" +#include <stdio.h> +#include <time.h> +#include <sys/param.h> + +#if HAVE_CONFIG_H +# include <config.h> +#endif + +extern int verbose; + +int HpmfwupgUpgrade(struct ipmi_intf *intf, char *imageFilename, + int activate, int, int); +int HpmfwupgValidateImageIntegrity(struct HpmfwupgUpgradeCtx *pFwupgCtx); +int HpmfwupgPreparationStage(struct ipmi_intf *intf, + struct HpmfwupgUpgradeCtx *pFwupgCtx, int option); +int HpmfwupgUpgradeStage(struct ipmi_intf *intf, + struct HpmfwupgUpgradeCtx *pFwupgCtx, int option); +int HpmfwupgActivationStage(struct ipmi_intf *intf, + struct HpmfwupgUpgradeCtx *pFwupgCtx); +int HpmfwupgGetTargetUpgCapabilities(struct ipmi_intf *intf, + struct HpmfwupgGetTargetUpgCapabilitiesCtx *pCtx); +int HpmfwupgGetComponentProperties(struct ipmi_intf *intf, + struct HpmfwupgGetComponentPropertiesCtx *pCtx); +int HpmfwupgQuerySelftestResult(struct ipmi_intf *intf, + struct HpmfwupgQuerySelftestResultCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx); +int HpmfwupgQueryRollbackStatus(struct ipmi_intf *intf, + struct HpmfwupgQueryRollbackStatusCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx); +int HpmfwupgAbortUpgrade(struct ipmi_intf *intf, + struct HpmfwupgAbortUpgradeCtx *pCtx); +int HpmfwupgInitiateUpgradeAction(struct ipmi_intf *intf, + struct HpmfwupgInitiateUpgradeActionCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx); +int HpmfwupgUploadFirmwareBlock(struct ipmi_intf *intf, + struct HpmfwupgUploadFirmwareBlockCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx, int count, + unsigned int *pOffset, unsigned int *blockLen); +int HpmfwupgFinishFirmwareUpload(struct ipmi_intf *intf, + struct HpmfwupgFinishFirmwareUploadCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx, int option); +int HpmfwupgActivateFirmware(struct ipmi_intf *intf, + struct HpmfwupgActivateFirmwareCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx); +int HpmfwupgGetUpgradeStatus(struct ipmi_intf *intf, + struct HpmfwupgGetUpgradeStatusCtx *pCtxstruct, + struct HpmfwupgUpgradeCtx *pFwupgCtx, int silent); +int HpmfwupgManualFirmwareRollback(struct ipmi_intf *intf, + struct HpmfwupgManualFirmwareRollbackCtx *pCtx); +void HpmfwupgPrintUsage(void); +unsigned char HpmfwupgCalculateChecksum(unsigned char *pData, + unsigned int length); +int HpmfwupgGetDeviceId(struct ipmi_intf *intf, + struct ipm_devid_rsp *pGetDevId); +int HpmfwupgGetBufferFromFile(char *imageFilename, + struct HpmfwupgUpgradeCtx *pFwupgCtx); +int HpmfwupgWaitLongDurationCmd(struct ipmi_intf *intf, + struct HpmfwupgUpgradeCtx *pFwupgCtx); +struct ipmi_rs *HpmfwupgSendCmd(struct ipmi_intf *intf, + struct ipmi_rq req, struct HpmfwupgUpgradeCtx* pFwupgCtx); + + +int HpmFwupgActionUploadFirmware(struct HpmfwupgComponentBitMask components, + struct HpmfwupgUpgradeCtx* pFwupgCtx, + unsigned char **pImagePtr, + struct ipmi_intf *intf, + int option, + int *pFlagColdReset); + +/* HpmGetuserInput - get input from user + * + * returns TRUE if its Yes or FALSE if its No + */ +int +HpmGetUserInput(char *str) +{ + char userInput[2]; + int ret; + + printf("%s", str); + ret = scanf("%s", userInput); + if (!ret) { + return 1; + } + if (toupper(userInput[0]) == 'Y') { + return 1; + } + return 0; +} + +/* HpmDisplayLine - display the line with the given character + */ +void +HpmDisplayLine(char *s, int n) +{ + while (n--) { + printf ("%c", *s); + } + printf("\n"); +} + +/* HpmDisplayUpgradeHeader - display the Upgrade header information + */ +void +HpmDisplayUpgradeHeader(void) +{ + printf("\n"); + HpmDisplayLine("-", 79); + printf( +"|ID | Name | Versions | %% |\n"); + printf( +"| | | Active | Backup | File | |\n"); + printf( +"|----|-------------|-----------------|-----------------|-----------------|----|\n"); +} + +/* HpmDisplayUpgrade - display the progress of the upgrade; prints the "." + * for every 5% of its completion. + */ +void +HpmDisplayUpgrade(int skip, unsigned int totalSent, + unsigned int displayFWLength, time_t timeElapsed) +{ + int percent; + static int old_percent = -1; + if (skip) { + printf("Skip|\n"); + return; + } + fflush(stdout); + + percent = ((float)totalSent / displayFWLength) * 100; + if (percent != old_percent) { + if (old_percent != -1) { + printf("\b\b\b\b\b"); + } + printf("%3d%%|", percent); + old_percent = percent; + } + if (totalSent == displayFWLength) { + /* Display the time taken to complete the upgrade */ + printf( +"\n| |Upload Time: %02ld:%02ld | Image Size: %7d bytes |\n", + timeElapsed / 60, timeElapsed % 60, totalSent); + old_percent = -1; + } +} + +/* HpmDisplayVersionHeader - display the information about version header + */ +void +HpmDisplayVersionHeader(int mode) +{ + if (mode & IMAGE_VER) { + HpmDisplayLine("-", 74); + printf( +"|ID | Name | Versions |\n"); + printf( +"| | | Active | Backup | File |\n"); + HpmDisplayLine("-", 74); + } else { + HpmDisplayLine("-",74 ); + printf( +"|ID | Name | Versions |\n"); + printf( +"| | | Active | Backup | Deferred |\n"); + HpmDisplayLine("-", 74); + } +} + +/* HpmDisplayVersion - display the version of the image and target + */ +void +HpmDisplayVersion(int mode, VERSIONINFO *pVersion, int upgradable) +{ + /* + * If the cold reset is required then we can display * on it + * so that user is aware that he needs to do payload power + * cycle after upgrade + */ + printf("|%c%c%2d|%-13s|", + pVersion->coldResetRequired ? '*' : ' ', + upgradable ? '^' : ' ', + pVersion->componentId, pVersion->descString); + + if (mode & TARGET_VER) { + if ((pVersion->targetMajor == 0xFF + || (pVersion->targetMajor == 0x7F)) + && pVersion->targetMinor == 0xFF) { + printf(" ---.-- -------- |"); + } else { + printf(" %3d.%02x %02X%02X%02X%02X |", + pVersion->targetMajor, + pVersion->targetMinor, + pVersion->targetAux[0], + pVersion->targetAux[1], + pVersion->targetAux[2], + pVersion->targetAux[3]); + } + if (mode & ROLLBACK_VER) { + if ((pVersion->rollbackMajor == 0xFF + || (pVersion->rollbackMajor == 0x7F)) + && pVersion->rollbackMinor == 0xFF) { + printf(" ---.-- -------- |"); + } else { + printf(" %3d.%02x %02X%02X%02X%02X |", + pVersion->rollbackMajor, + pVersion->rollbackMinor, + pVersion->rollbackAux[0], + pVersion->rollbackAux[1], + pVersion->rollbackAux[2], + pVersion->rollbackAux[3]); + } + } else { + printf(" ---.-- -------- |"); + } + } + if (mode & IMAGE_VER) { + if ((pVersion->imageMajor == 0xFF + || (pVersion->imageMajor == 0x7F)) + && pVersion->imageMinor == 0xFF) { + printf(" ---.-- |"); + } else { + printf(" %3d.%02x %02X%02X%02X%02X |", + pVersion->imageMajor, + pVersion->imageMinor, + pVersion->imageAux[0], + pVersion->imageAux[1], + pVersion->imageAux[2], + pVersion->imageAux[3]); + } + } else { + if ((pVersion->deferredMajor == 0xFF + || (pVersion->deferredMajor == 0x7F)) + && pVersion->deferredMinor == 0xFF) { + printf(" ---.-- -------- |"); + } else { + printf(" %3d.%02x %02X%02X%02X%02X |", + pVersion->deferredMajor, + pVersion->deferredMinor, + pVersion->deferredAux[0], + pVersion->deferredAux[1], + pVersion->deferredAux[2], + pVersion->deferredAux[3]); + } + } +} + +/* HpmfwupgTargerCheck - get target information and displays it on the screen + */ +int +HpmfwupgTargetCheck(struct ipmi_intf *intf, int option) +{ + struct HpmfwupgGetTargetUpgCapabilitiesCtx targetCapCmd; + int rc = HPMFWUPG_SUCCESS; + int componentId = 0; + int flagColdReset = FALSE; + struct ipm_devid_rsp devIdrsp; + struct HpmfwupgGetComponentPropertiesCtx getCompProp; + int mode = 0; + rc = HpmfwupgGetDeviceId(intf, &devIdrsp); + if (rc != HPMFWUPG_SUCCESS) { + lprintf(LOG_NOTICE, + "Verify whether the Target board is present \n"); + return HPMFWUPG_ERROR; + } + rc = HpmfwupgGetTargetUpgCapabilities(intf, &targetCapCmd); + if (rc != HPMFWUPG_SUCCESS) { + /* That indicates the target is not responding to the command + * May be that there is no HPM support + */ + lprintf(LOG_NOTICE, + "Board might not be supporting the HPM.1 Standards\n"); + return rc; + } + if (option & VIEW_MODE) { + lprintf(LOG_NOTICE, "-------Target Information-------"); + lprintf(LOG_NOTICE, "Device Id : 0x%x", + devIdrsp.device_id); + lprintf(LOG_NOTICE, "Device Revision : 0x%x", + devIdrsp.device_revision); + lprintf(LOG_NOTICE, "Product Id : 0x%04x", + buf2short(devIdrsp.product_id)); + lprintf(LOG_NOTICE, "Manufacturer Id : 0x%04x (%s)\n\n", + buf2short(devIdrsp.manufacturer_id), + val2str(buf2short(devIdrsp.manufacturer_id),ipmi_oem_info)); + HpmDisplayVersionHeader(TARGET_VER|ROLLBACK_VER); + } + for (componentId = HPMFWUPG_COMPONENT_ID_0; + componentId < HPMFWUPG_COMPONENT_ID_MAX; + componentId++ ) { + /* If the component is supported */ + if (((1 << componentId) & targetCapCmd.resp.componentsPresent.ComponentBits.byte)) { + memset((PVERSIONINFO)&gVersionInfo[componentId], 0x00, sizeof(VERSIONINFO)); + getCompProp.req.componentId = componentId; + getCompProp.req.selector = HPMFWUPG_COMP_GEN_PROPERTIES; + rc = HpmfwupgGetComponentProperties(intf, &getCompProp); + if (rc != HPMFWUPG_SUCCESS) { + lprintf(LOG_NOTICE, "Get CompGenProp Failed for component Id %d\n", + componentId); + return rc; + } + gVersionInfo[componentId].rollbackSupported = getCompProp.resp.Response. + generalPropResp.GeneralCompProperties.bitfield.rollbackBackup; + gVersionInfo[componentId].coldResetRequired = getCompProp.resp.Response. + generalPropResp.GeneralCompProperties.bitfield.payloadColdReset; + getCompProp.req.selector = HPMFWUPG_COMP_DESCRIPTION_STRING; + rc = HpmfwupgGetComponentProperties(intf, &getCompProp); + if (rc != HPMFWUPG_SUCCESS) { + lprintf(LOG_NOTICE, + "Get CompDescString Failed for component Id %d\n", + componentId); + return rc; + } + memcpy(gVersionInfo[componentId].descString, + getCompProp.resp.Response.descStringResp.descString, + HPMFWUPG_DESC_STRING_LENGTH); + gVersionInfo[componentId].descString[HPMFWUPG_DESC_STRING_LENGTH] = '\0'; + getCompProp.req.selector = HPMFWUPG_COMP_CURRENT_VERSION; + rc = HpmfwupgGetComponentProperties(intf, &getCompProp); + if (rc != HPMFWUPG_SUCCESS) { + lprintf(LOG_NOTICE, + "Get CompCurrentVersion Failed for component Id %d\n", + componentId); + return rc; + } + gVersionInfo[componentId].componentId = componentId; + gVersionInfo[componentId].targetMajor = getCompProp.resp.Response. + currentVersionResp.currentVersion[0]; + gVersionInfo[componentId].targetMinor = getCompProp.resp.Response. + currentVersionResp.currentVersion[1]; + gVersionInfo[componentId].targetAux[0] = getCompProp.resp.Response. + currentVersionResp.currentVersion[2]; + gVersionInfo[componentId].targetAux[1] = getCompProp.resp.Response. + currentVersionResp.currentVersion[3]; + gVersionInfo[componentId].targetAux[2] = getCompProp.resp.Response. + currentVersionResp.currentVersion[4]; + gVersionInfo[componentId].targetAux[3] = getCompProp.resp.Response. + currentVersionResp.currentVersion[5]; + mode = TARGET_VER; + if (gVersionInfo[componentId].rollbackSupported) { + getCompProp.req.selector = HPMFWUPG_COMP_ROLLBACK_FIRMWARE_VERSION; + rc = HpmfwupgGetComponentProperties(intf, &getCompProp); + if (rc != HPMFWUPG_SUCCESS) { + lprintf(LOG_NOTICE, + "Get CompRollbackVersion Failed for component Id %d\n", + componentId); + } else { + gVersionInfo[componentId].rollbackMajor = getCompProp.resp + .Response.rollbackFwVersionResp.rollbackFwVersion[0]; + gVersionInfo[componentId].rollbackMinor = getCompProp.resp + .Response.rollbackFwVersionResp.rollbackFwVersion[1]; + gVersionInfo[componentId].rollbackAux[0] = getCompProp.resp.Response.rollbackFwVersionResp.rollbackFwVersion[2]; + gVersionInfo[componentId].rollbackAux[1] = getCompProp.resp.Response.rollbackFwVersionResp.rollbackFwVersion[3]; + gVersionInfo[componentId].rollbackAux[2] = getCompProp.resp.Response.rollbackFwVersionResp.rollbackFwVersion[4]; + gVersionInfo[componentId].rollbackAux[3] = getCompProp.resp.Response.rollbackFwVersionResp.rollbackFwVersion[5]; + } + getCompProp.req.selector = HPMFWUPG_COMP_DEFERRED_FIRMWARE_VERSION; + rc = HpmfwupgGetComponentProperties(intf, &getCompProp); + if (rc != HPMFWUPG_SUCCESS) { + lprintf(LOG_NOTICE, + "Get CompRollbackVersion Failed for component Id %d\n", + componentId); + } else { + gVersionInfo[componentId].deferredMajor = getCompProp.resp + .Response.deferredFwVersionResp.deferredFwVersion[0]; + gVersionInfo[componentId].deferredMinor = getCompProp.resp + .Response.deferredFwVersionResp.deferredFwVersion[1]; + gVersionInfo[componentId].deferredAux[0] = getCompProp.resp.Response.deferredFwVersionResp.deferredFwVersion[2]; + gVersionInfo[componentId].deferredAux[1] = getCompProp.resp.Response.deferredFwVersionResp.deferredFwVersion[3]; + gVersionInfo[componentId].deferredAux[2] = getCompProp.resp.Response.deferredFwVersionResp.deferredFwVersion[4]; + gVersionInfo[componentId].deferredAux[3] = getCompProp.resp.Response.deferredFwVersionResp.deferredFwVersion[5]; + } + mode |= ROLLBACK_VER; + } else { + gVersionInfo[componentId].rollbackMajor = 0xff; + gVersionInfo[componentId].rollbackMinor = 0xff; + gVersionInfo[componentId].rollbackAux[0] = 0xff; + gVersionInfo[componentId].rollbackAux[1] = 0xff; + gVersionInfo[componentId].rollbackAux[2] = 0xff; + gVersionInfo[componentId].rollbackAux[3] = 0xff; + gVersionInfo[componentId].deferredMajor = 0xff; + gVersionInfo[componentId].deferredMinor = 0xff; + gVersionInfo[componentId].deferredAux[0] = 0xff; + gVersionInfo[componentId].deferredAux[1] = 0xff; + gVersionInfo[componentId].deferredAux[2] = 0xff; + gVersionInfo[componentId].deferredAux[3] = 0xff; + } + if (gVersionInfo[componentId].coldResetRequired) { + /* + * If any of the component indicates that the Payload Cold reset is required + * then set the flag + */ + flagColdReset = TRUE; + } + if (option & VIEW_MODE) { + HpmDisplayVersion(mode, + &gVersionInfo[componentId], + 0); + printf("\n"); + } + } + } + if (option & VIEW_MODE) { + HpmDisplayLine("-",74 ); + fflush(stdout); + lprintf(LOG_NOTICE, + "(*) Component requires Payload Cold Reset"); + printf("\n\n"); + } + return HPMFWUPG_SUCCESS; +} + +/* HpmfwupgUpgrade - perform the HPM.1 firmware upgrade procedure as defined + * the IPM Controller Firmware Upgrade Specification version 1.0 + */ +int +HpmfwupgUpgrade(struct ipmi_intf *intf, char *imageFilename, int activate, + int componentMask, int option) +{ + int rc = HPMFWUPG_SUCCESS; + struct HpmfwupgUpgradeCtx fwupgCtx; + /* INITIALIZE UPGRADE CONTEXT */ + memset(&fwupgCtx, 0, sizeof (fwupgCtx)); + /* GET IMAGE BUFFER FROM FILE */ + rc = HpmfwupgGetBufferFromFile(imageFilename, &fwupgCtx); + /* VALIDATE IMAGE INTEGRITY */ + if (rc == HPMFWUPG_SUCCESS) { + printf("Validating firmware image integrity..."); + fflush(stdout); + rc = HpmfwupgValidateImageIntegrity(&fwupgCtx); + if (rc == HPMFWUPG_SUCCESS) { + printf("OK\n"); + fflush(stdout); + } + } + /* PREPARATION STAGE */ + if (rc == HPMFWUPG_SUCCESS) { + printf("Performing preparation stage..."); + fflush(stdout); + rc = HpmfwupgPreparationStage(intf, &fwupgCtx, option); + if (rc == HPMFWUPG_SUCCESS) { + printf("OK\n"); + fflush(stdout); + } + } + /* UPGRADE STAGE */ + if (rc == HPMFWUPG_SUCCESS) { + if (option & VIEW_MODE) { + lprintf(LOG_NOTICE, + "\nComparing Target & Image File version"); + } else if (option & COMPARE_MODE) { + lprintf(LOG_NOTICE, + "\nPerforming upload for compare stage:"); + } else { + lprintf(LOG_NOTICE, "\nPerforming upgrade stage:"); + } + if (option & VIEW_MODE) { + rc = HpmfwupgPreUpgradeCheck(intf, + &fwupgCtx,componentMask, VIEW_MODE); + } else { + rc = HpmfwupgPreUpgradeCheck(intf, &fwupgCtx, + componentMask, option); + if (rc == HPMFWUPG_SUCCESS) { + if (verbose) { + printf("Component update mask : 0x%02x\n", + fwupgCtx.compUpdateMask.ComponentBits.byte); + } + rc = HpmfwupgUpgradeStage(intf, &fwupgCtx, option); + } + } + } + /* ACTIVATION STAGE */ + if (rc == HPMFWUPG_SUCCESS && activate) { + /* check if upgrade components mask is non-zero */ + if (fwupgCtx.compUpdateMask.ComponentBits.byte) { + lprintf(LOG_NOTICE, "Performing activation stage: "); + rc = HpmfwupgActivationStage(intf, &fwupgCtx); + } else { + lprintf(LOG_NOTICE, + "No components updated. Skipping activation stage.\n"); + } + } + if (rc == HPMFWUPG_SUCCESS) { + if (option & VIEW_MODE) { + /* Dont display anything here in case we are just viewing it */ + lprintf(LOG_NOTICE," "); + } else if (option & COMPARE_MODE) { + lprintf(LOG_NOTICE, + "\nFirmware comparison procedure complete\n"); + } else { + lprintf(LOG_NOTICE, + "\nFirmware upgrade procedure successful\n"); + } + } else if (option & VIEW_MODE) { + /* Dont display anything here in case we are just viewing it */ + lprintf(LOG_NOTICE," "); + } else if (option & COMPARE_MODE) { + lprintf(LOG_NOTICE, + "Firmware comparison procedure failed\n"); + } else { + lprintf(LOG_NOTICE, "Firmware upgrade procedure failed\n"); + } + if (fwupgCtx.pImageData) { + free(fwupgCtx.pImageData); + fwupgCtx.pImageData = NULL; + } + return rc; +} + +/* HpmfwupgValidateImageIntegrity - validate a HPM.1 firmware image file as + * defined in section 4 of the IPM Controller Firmware Upgrade Specification + * version 1.0 + */ +int +HpmfwupgValidateImageIntegrity(struct HpmfwupgUpgradeCtx *pFwupgCtx) +{ + struct HpmfwupgImageHeader *pImageHeader = (struct HpmfwupgImageHeader*)pFwupgCtx->pImageData; + md5_state_t ctx; + static unsigned char md[HPMFWUPG_MD5_SIGNATURE_LENGTH]; + unsigned char *pMd5Sig = pFwupgCtx->pImageData + + (pFwupgCtx->imageSize - HPMFWUPG_MD5_SIGNATURE_LENGTH); + /* Validate MD5 checksum */ + memset(md, 0, HPMFWUPG_MD5_SIGNATURE_LENGTH); + memset(&ctx, 0, sizeof(md5_state_t)); + md5_init(&ctx); + md5_append(&ctx, pFwupgCtx->pImageData, + pFwupgCtx->imageSize - HPMFWUPG_MD5_SIGNATURE_LENGTH); + md5_finish(&ctx, md); + if (memcmp(md, pMd5Sig, HPMFWUPG_MD5_SIGNATURE_LENGTH) != 0) { + lprintf(LOG_NOTICE, "\n Invalid MD5 signature"); + return HPMFWUPG_ERROR; + } + /* Validate Header signature */ + if(strncmp(pImageHeader->signature, + HPMFWUPG_IMAGE_SIGNATURE, + HPMFWUPG_HEADER_SIGNATURE_LENGTH) != 0) { + lprintf(LOG_NOTICE,"\n Invalid image signature"); + return HPMFWUPG_ERROR; + } + /* Validate Header image format version */ + if (pImageHeader->formatVersion != HPMFWUPG_IMAGE_HEADER_VERSION) { + lprintf(LOG_NOTICE,"\n Unrecognized image version"); + return HPMFWUPG_ERROR; + } + /* Validate header checksum */ + if (HpmfwupgCalculateChecksum((unsigned char*)pImageHeader, + sizeof(struct HpmfwupgImageHeader) + + pImageHeader->oemDataLength + + sizeof(unsigned char)/*checksum*/) != 0) { + lprintf(LOG_NOTICE,"\n Invalid header checksum"); + return HPMFWUPG_ERROR; + } + return HPMFWUPG_SUCCESS; +} + +/* HpmfwupgPreparationStage - prepere stage of a firmware upgrade procedure as + * defined in section 3.2 of the IPM Controller Firmware Upgrade Specification + * version 1.0 + */ +int +HpmfwupgPreparationStage(struct ipmi_intf *intf, + struct HpmfwupgUpgradeCtx *pFwupgCtx, int option) +{ + int componentId; + int rc = HPMFWUPG_SUCCESS; + struct HpmfwupgGetTargetUpgCapabilitiesCtx targetCapCmd; + struct HpmfwupgImageHeader *pImageHeader = (struct HpmfwupgImageHeader*) + pFwupgCtx->pImageData; + /* Get device ID */ + rc = HpmfwupgGetDeviceId(intf, &pFwupgCtx->devId); + /* Match current IPMC IDs with upgrade image */ + if (rc != HPMFWUPG_SUCCESS) { + return HPMFWUPG_ERROR; + } + /* Validate device ID */ + if (pImageHeader->deviceId == pFwupgCtx->devId.device_id) { + /* Validate product ID */ + if (memcmp(pImageHeader->prodId, + pFwupgCtx->devId.product_id, + HPMFWUPG_PRODUCT_ID_LENGTH ) == 0) { + /* Validate man ID */ + if (memcmp(pImageHeader->manId, + pFwupgCtx->devId.manufacturer_id, + HPMFWUPG_MANUFATURER_ID_LENGTH) != 0) { + lprintf(LOG_NOTICE, + "\n Invalid image file for manufacturer %u", + buf2short(pFwupgCtx->devId.manufacturer_id)); + rc = HPMFWUPG_ERROR; + } + } else { + lprintf(LOG_NOTICE, + "\n Invalid image file for product %u", + buf2short(pFwupgCtx->devId.product_id)); + rc = HPMFWUPG_ERROR; + } + } else { + lprintf(LOG_NOTICE, "\n Invalid device ID %x", + pFwupgCtx->devId.device_id); + rc = HPMFWUPG_ERROR; + } + if (rc != HPMFWUPG_SUCCESS) { + /* Giving one more chance to user to check whether its OK to continue even if the + * product ID does not match. This is helpful as sometimes we just want to update + * and dont care whether we have a different product Id. If the user says NO then + * we need to just bail out from here + */ + if (!((option & FORCE_MODE) || (option & VIEW_MODE))) { + printf("\n\n Use \"force\" option for copying all the components\n"); + return HPMFWUPG_ERROR; + } + printf("\n Image Information"); + printf("\n Device Id : 0x%x", pImageHeader->deviceId); + printf("\n Prod Id : 0x%02x%02x", + pImageHeader->prodId[1], pImageHeader->prodId[0]); + printf("\n Manuf Id : 0x%02x%02x%02x", + pImageHeader->manId[2], + pImageHeader->manId[1], + pImageHeader->manId[0]); + printf("\n Board Information"); + printf("\n Device Id : 0x%x", pFwupgCtx->devId.device_id); + printf("\n Prod Id : 0x%02x%02x", + pFwupgCtx->devId.product_id[1], pFwupgCtx->devId.product_id[0]); + printf("\n Manuf Id : 0x%02x%02x%02x", + pFwupgCtx->devId.manufacturer_id[2], + pFwupgCtx->devId.manufacturer_id[1], + pFwupgCtx->devId.manufacturer_id[0]); + if (HpmGetUserInput("\n Continue ignoring DeviceID/ProductID/ManufacturingID (Y/N): ")) { + rc = HPMFWUPG_SUCCESS; + } else { + return HPMFWUPG_ERROR; + } + } + /* Validate earliest compatible revision */ + /* Validate major & minor revision */ + if (pImageHeader->compRevision[0] > pFwupgCtx->devId.fw_rev1 + || (pImageHeader->compRevision[0] == pFwupgCtx->devId.fw_rev1 + && pImageHeader->compRevision[1] > pFwupgCtx->devId.fw_rev2)) { + /* Version not compatible for upgrade */ + lprintf(LOG_NOTICE, "\n Version: Major: %d", pImageHeader->compRevision[0]); + lprintf(LOG_NOTICE, " Minor: %x", pImageHeader->compRevision[1]); + lprintf(LOG_NOTICE, " Not compatible with "); + lprintf(LOG_NOTICE, " Version: Major: %d", pFwupgCtx->devId.fw_rev1); + lprintf(LOG_NOTICE, " Minor: %x", pFwupgCtx->devId.fw_rev2); + /* Confirming it once again */ + if (!((option & FORCE_MODE) || (option & VIEW_MODE))) { + return HPMFWUPG_ERROR; + } + if (HpmGetUserInput("\n Continue IGNORING Earliest compatibility (Y/N): ")) { + rc = HPMFWUPG_SUCCESS; + } else { + return HPMFWUPG_ERROR; + } + } + /* Get target upgrade capabilities */ + rc = HpmfwupgGetTargetUpgCapabilities(intf, &targetCapCmd); + if (rc != HPMFWUPG_SUCCESS) { + return HPMFWUPG_ERROR; + } + /* Copy response to context */ + memcpy(&pFwupgCtx->targetCap, + &targetCapCmd.resp, + sizeof(struct HpmfwupgGetTargetUpgCapabilitiesResp)); + if (option & VIEW_MODE) { + /* do nothing */ + } else { + /* Make sure all component IDs defined in the + * upgrade image are supported by the IPMC + */ + if ((pImageHeader->components.ComponentBits.byte & + pFwupgCtx->targetCap.componentsPresent.ComponentBits.byte) != + pImageHeader->components.ComponentBits.byte) { + lprintf(LOG_NOTICE, + "\n Some components present in the image file are not supported by the IPMC"); + return HPMFWUPG_ERROR; + } + /* Make sure the upgrade is desirable rigth now */ + if (pFwupgCtx->targetCap.GlobalCapabilities.bitField.fwUpgUndesirable == 1) { + lprintf(LOG_NOTICE, "\n Upgrade undesirable at this moment"); + return HPMFWUPG_ERROR; + } + /* Get confimation from the user if he wants to continue when + * service affected during upgrade + */ + if (!(option & COMPARE_MODE) + && (pFwupgCtx->targetCap.GlobalCapabilities.bitField.servAffectDuringUpg == 1 + || pImageHeader->imageCapabilities.bitField.servAffected == 1)) { + if (HpmGetUserInput("\nServices may be affected during upgrade. Do you wish to continue? (y/n): ")) { + rc = HPMFWUPG_SUCCESS; + } else { + return HPMFWUPG_ERROR; + } + } + } + /* Get the general properties of each component present in image */ + for (componentId = HPMFWUPG_COMPONENT_ID_0; + componentId < HPMFWUPG_COMPONENT_ID_MAX; + componentId++) { + /* Reset component properties */ + memset(&pFwupgCtx->genCompProp[componentId], 0, + sizeof (struct HpmfwupgGetGeneralPropResp)); + if ((1 << componentId & pImageHeader->components.ComponentBits.byte)) { + struct HpmfwupgGetComponentPropertiesCtx getCompPropCmd; + /* Get general component properties */ + getCompPropCmd.req.componentId = componentId; + getCompPropCmd.req.selector = HPMFWUPG_COMP_GEN_PROPERTIES; + rc = HpmfwupgGetComponentProperties(intf, &getCompPropCmd); + if (rc == HPMFWUPG_SUCCESS) { + /* Copy response to context */ + memcpy(&pFwupgCtx->genCompProp[componentId], + &getCompPropCmd.resp, + sizeof(struct HpmfwupgGetGeneralPropResp)); + } + } + } + return rc; +} + +int +image_version_upgradable(VERSIONINFO *pVersionInfo) +{ + /* If the image and active target versions are different, then + * upgrade */ + if ((pVersionInfo->imageMajor != pVersionInfo->targetMajor) + || (pVersionInfo->imageMinor != pVersionInfo->targetMinor) + || (pVersionInfo->imageAux[0] != pVersionInfo->targetAux[0]) + || (pVersionInfo->imageAux[1] != pVersionInfo->targetAux[1]) + || (pVersionInfo->imageAux[2] != pVersionInfo->targetAux[2]) + || (pVersionInfo->imageAux[3] != pVersionInfo->targetAux[3])) { + return (1); + } + /* If the image and active target versions are the same and rollback + * is not supported, then there's nothing to do, skip the upgrade + */ + if (!pVersionInfo->rollbackSupported) { + return (0); + } + /* If the image and rollback target versions are different, then + * go ahead and upgrade + */ + if ((pVersionInfo->imageMajor != pVersionInfo->rollbackMajor) + || (pVersionInfo->imageMinor != pVersionInfo->rollbackMinor) + || (pVersionInfo->imageAux[0] != pVersionInfo->rollbackAux[0]) + || (pVersionInfo->imageAux[1] != pVersionInfo->rollbackAux[1]) + || (pVersionInfo->imageAux[2] != pVersionInfo->rollbackAux[2]) + || (pVersionInfo->imageAux[3] != pVersionInfo->rollbackAux[3])) { + return (1); + } + /* Image and rollback target versions are the same too, skip it */ + return (0); +} + +/* HpmfwupgValidateActionRecordChecksum - validate checksum of the specified + * action record header. + */ +int +HpmfwupgValidateActionRecordChecksum(struct HpmfwupgActionRecord *pActionRecord) +{ + int rc = HPMFWUPG_SUCCESS; + /* Validate action record checksum */ + if (HpmfwupgCalculateChecksum((unsigned char*)pActionRecord, + sizeof(struct HpmfwupgActionRecord)) != 0) { + /* Due to ambiguity in the HPM.1 specification, for the case of + * the Upload Firmware Image action type, the record header length + * might be thought as either the first 3 bytes, or the first 34 bytes + * which precede the firmware image data. + * For the latter case we re-calculate the Upload Firmware Image + * record checksum for the 34 byte header length. + */ + if (pActionRecord->actionType != HPMFWUPG_ACTION_UPLOAD_FIRMWARE + || HpmfwupgCalculateChecksum((unsigned char*)pActionRecord, + sizeof(struct HpmfwupgActionRecord) + + sizeof(struct HpmfwupgFirmwareImage))) { + lprintf(LOG_NOTICE, " Invalid Action record."); + rc = HPMFWUPG_ERROR; + } + } + return rc; +} + +/* HpmfwupgPreUpgradeCheck - make pre-Upgrade check, this mainly helps in + * checking which all version upgrade is skippable because the image version + * is same as target version. + */ +int +HpmfwupgPreUpgradeCheck(struct ipmi_intf *intf, + struct HpmfwupgUpgradeCtx *pFwupgCtx, + int componentMask, int option) +{ + unsigned char *pImagePtr; + struct HpmfwupgActionRecord *pActionRecord; + struct HpmfwupgImageHeader *pImageHeader; + int componentId; + pImageHeader = (struct HpmfwupgImageHeader*)pFwupgCtx->pImageData; + /* Put pointer after image header */ + pImagePtr = (unsigned char*)(pFwupgCtx->pImageData + + sizeof(struct HpmfwupgImageHeader) + + pImageHeader->oemDataLength + + sizeof(unsigned char)/*chksum*/); + if (option & VIEW_MODE) { + HpmDisplayVersionHeader(TARGET_VER|ROLLBACK_VER|IMAGE_VER); + } + /* Perform actions defined in the image */ + while (pImagePtr < (pFwupgCtx->pImageData + pFwupgCtx->imageSize + - HPMFWUPG_MD5_SIGNATURE_LENGTH)) { + /* Get action record */ + pActionRecord = (struct HpmfwupgActionRecord*)pImagePtr; + /* Validate action record checksum */ + if (HpmfwupgValidateActionRecordChecksum(pActionRecord) != HPMFWUPG_SUCCESS) { + return HPMFWUPG_ERROR; + } + /* Validate affected components */ + if (pActionRecord->components.ComponentBits.byte + && !pFwupgCtx->targetCap.componentsPresent.ComponentBits.byte) { + lprintf(LOG_NOTICE, + " Invalid action record. One or more affected components is not supported"); + return HPMFWUPG_ERROR; + } + switch (pActionRecord->actionType) { + case HPMFWUPG_ACTION_BACKUP_COMPONENTS: + { + /* Make sure every component specified by + * this action record + * supports the backup operation + */ + for (componentId = HPMFWUPG_COMPONENT_ID_0; + componentId < HPMFWUPG_COMPONENT_ID_MAX; + componentId++) { + if (((1 << componentId) & pActionRecord->components.ComponentBits.byte) + && pFwupgCtx->genCompProp[componentId].GeneralCompProperties.bitfield.rollbackBackup == 0) { + lprintf(LOG_NOTICE, + " Component ID %d does not support backup", + componentId); + return HPMFWUPG_ERROR; + } + } + pImagePtr += sizeof(struct HpmfwupgActionRecord); + } + break; + case HPMFWUPG_ACTION_PREPARE_COMPONENTS: + { + /* Make sure every components specified by + * this action + * supports the prepare operation + */ + for (componentId = HPMFWUPG_COMPONENT_ID_0; + componentId < HPMFWUPG_COMPONENT_ID_MAX; + componentId++) { + if (((1 << componentId) & pActionRecord->components.ComponentBits.byte) + && pFwupgCtx->genCompProp[componentId].GeneralCompProperties.bitfield.preparationSupport == 0) { + lprintf(LOG_NOTICE, + " Component ID %d does not support preparation", + componentId); + return HPMFWUPG_ERROR; + } + } + pImagePtr += sizeof(struct HpmfwupgActionRecord); + } + break; + case HPMFWUPG_ACTION_UPLOAD_FIRMWARE: + /* Upload all firmware blocks */ + { + struct HpmfwupgFirmwareImage *pFwImage; + unsigned char *pData; + unsigned int firmwareLength; + unsigned char mode; + unsigned char componentId; + unsigned char componentIdByte; + unsigned int upgrade_comp; + VERSIONINFO *pVersionInfo; + /* Save component ID on which the upload is done */ + componentIdByte = pActionRecord->components.ComponentBits.byte; + componentId = 0; + while ((componentIdByte >>= 1) != 0) { + componentId++; + } + pFwImage = (struct HpmfwupgFirmwareImage*)(pImagePtr + + sizeof(struct HpmfwupgActionRecord)); + pData = ((unsigned char*)pFwImage + + sizeof(struct HpmfwupgFirmwareImage)); + /* Get firmware length */ + firmwareLength = pFwImage->length[0]; + firmwareLength |= (pFwImage->length[1] << 8) & 0xff00; + firmwareLength |= (pFwImage->length[2] << 16) & 0xff0000; + firmwareLength |= (pFwImage->length[3] << 24) & 0xff000000; + + pVersionInfo = &gVersionInfo[componentId]; + + pVersionInfo->imageMajor = pFwImage->version[0]; + pVersionInfo->imageMinor = pFwImage->version[1]; + pVersionInfo->imageAux[0] = pFwImage->version[2]; + pVersionInfo->imageAux[1] = pFwImage->version[3]; + pVersionInfo->imageAux[2] = pFwImage->version[4]; + pVersionInfo->imageAux[3] = pFwImage->version[5]; + + mode = TARGET_VER | IMAGE_VER; + /* check if component is selected for upgrade */ + upgrade_comp = !componentMask + || (componentMask & pActionRecord->components.ComponentBits.byte); + /* check if current component version requires upgrade */ + if (upgrade_comp && !(option & (FORCE_MODE|COMPARE_MODE))) { + upgrade_comp = image_version_upgradable(pVersionInfo); + } + if (verbose) { + lprintf(LOG_NOTICE, + "%s component %d", + (upgrade_comp ? "Updating" : "Skipping"), + componentId); + } + if (upgrade_comp) { + pFwupgCtx->compUpdateMask.ComponentBits.byte|= 1 << componentId; + } + if (option & VIEW_MODE) { + if (pVersionInfo->rollbackSupported) { + mode|= ROLLBACK_VER; + } + HpmDisplayVersion(mode,pVersionInfo, upgrade_comp); + printf("\n"); + } + pImagePtr = pData + firmwareLength; + } + break; + default: + lprintf(LOG_NOTICE, + " Invalid Action type. Cannot continue"); + return HPMFWUPG_ERROR; + break; + } + } + if (option & VIEW_MODE) { + HpmDisplayLine("-",74); + fflush(stdout); + lprintf(LOG_NOTICE, + "(*) Component requires Payload Cold Reset"); + lprintf(LOG_NOTICE, + "(^) Indicates component would be upgraded"); + } + return HPMFWUPG_SUCCESS; +} + +/* HpmfwupgUpgradeStage - upgrade stage of a firmware upgrade procedure as + * defined in section 3.3 of the IPM Controller Firmware Upgrade Specification + * version 1.0 + */ +int +HpmfwupgUpgradeStage(struct ipmi_intf *intf, + struct HpmfwupgUpgradeCtx *pFwupgCtx, int option) +{ + struct HpmfwupgImageHeader *pImageHeader = (struct HpmfwupgImageHeader*) + pFwupgCtx->pImageData; + struct HpmfwupgActionRecord* pActionRecord; + int rc = HPMFWUPG_SUCCESS; + unsigned char *pImagePtr; + unsigned int actionsSize; + int flagColdReset = FALSE; + time_t start,end; + /* Put pointer after image header */ + pImagePtr = (unsigned char*) + (pFwupgCtx->pImageData + sizeof(struct HpmfwupgImageHeader) + + pImageHeader->oemDataLength + sizeof(unsigned char)/*checksum*/); + /* Deternime actions size */ + actionsSize = pFwupgCtx->imageSize - sizeof(struct HpmfwupgImageHeader); + if (!(option & VIEW_MODE)) { + HpmDisplayUpgradeHeader(); + } + /* Perform actions defined in the image */ + while (( pImagePtr < (pFwupgCtx->pImageData + pFwupgCtx->imageSize - + HPMFWUPG_MD5_SIGNATURE_LENGTH)) + && (rc == HPMFWUPG_SUCCESS)) { + /* Get action record */ + pActionRecord = (struct HpmfwupgActionRecord*)pImagePtr; + /* Validate action record checksum */ + rc = HpmfwupgValidateActionRecordChecksum(pActionRecord); + if (rc != HPMFWUPG_SUCCESS) { + continue; + } + switch(pActionRecord->actionType) { + case HPMFWUPG_ACTION_BACKUP_COMPONENTS: + { + if (!(option & COMPARE_MODE)) { + /* Send Upgrade Action command */ + struct HpmfwupgInitiateUpgradeActionCtx initUpgActionCmd; + /* Affect only selected components */ + initUpgActionCmd.req.componentsMask.ComponentBits.byte = + pFwupgCtx->compUpdateMask.ComponentBits.byte & + pActionRecord->components.ComponentBits.byte; + /* Action is prepare components */ + if (initUpgActionCmd.req.componentsMask.ComponentBits.byte) { + initUpgActionCmd.req.upgradeAction = HPMFWUPG_UPGRADE_ACTION_BACKUP; + rc = HpmfwupgInitiateUpgradeAction(intf, &initUpgActionCmd, pFwupgCtx); + } + } + pImagePtr+= sizeof(struct HpmfwupgActionRecord); + } + break; + case HPMFWUPG_ACTION_PREPARE_COMPONENTS: + { + if (!(option & COMPARE_MODE)) { + /* Send prepare components command */ + struct HpmfwupgInitiateUpgradeActionCtx initUpgActionCmd; + /* Affect only selected components */ + initUpgActionCmd.req.componentsMask.ComponentBits.byte = + pFwupgCtx->compUpdateMask.ComponentBits.byte & + pActionRecord->components.ComponentBits.byte; + if (initUpgActionCmd.req.componentsMask.ComponentBits.byte) { + /* Action is prepare components */ + initUpgActionCmd.req.upgradeAction = HPMFWUPG_UPGRADE_ACTION_PREPARE; + rc = HpmfwupgInitiateUpgradeAction(intf, &initUpgActionCmd, pFwupgCtx); + } + } + pImagePtr+= sizeof(struct HpmfwupgActionRecord); + } + break; + case HPMFWUPG_ACTION_UPLOAD_FIRMWARE: + /* Upload all firmware blocks */ + rc = HpmFwupgActionUploadFirmware(pActionRecord->components, + pFwupgCtx, + &pImagePtr, + intf, + option, + &flagColdReset); + break; + default: + lprintf(LOG_NOTICE, " Invalid Action type. Cannot continue"); + rc = HPMFWUPG_ERROR; + break; + } + } + HpmDisplayLine("-", 79); + fflush(stdout); + lprintf(LOG_NOTICE, "(*) Component requires Payload Cold Reset"); + return rc; +} + +int +HpmFwupgActionUploadFirmware(struct HpmfwupgComponentBitMask components, + struct HpmfwupgUpgradeCtx *pFwupgCtx, + unsigned char **pImagePtr, + struct ipmi_intf *intf, + int option, + int *pFlagColdReset) +{ + struct HpmfwupgFirmwareImage *pFwImage; + struct HpmfwupgInitiateUpgradeActionCtx initUpgActionCmd; + struct HpmfwupgUploadFirmwareBlockCtx uploadCmd; + struct HpmfwupgFinishFirmwareUploadCtx finishCmd; + VERSIONINFO *pVersionInfo; + time_t start,end; + + int rc = HPMFWUPG_SUCCESS; + int skip = TRUE; + unsigned char *pData, *pDataInitial; + unsigned short count; + unsigned int totalSent = 0; + unsigned short bufLength = 0; + unsigned short bufLengthIsSet = 0; + unsigned int firmwareLength = 0; + + unsigned int displayFWLength = 0; + unsigned char *pDataTemp; + unsigned int imageOffset = 0x00; + unsigned int blockLength = 0x00; + unsigned int lengthOfBlock = 0x00; + unsigned int numTxPkts = 0; + unsigned int numRxPkts = 0; + unsigned char mode = 0; + unsigned char componentId = 0x00; + unsigned char componentIdByte = 0x00; + uint16_t max_rq_size; + + /* Save component ID on which the upload is done */ + componentIdByte = components.ComponentBits.byte; + while ((componentIdByte>>= 1) != 0) { + componentId++; + } + pFwupgCtx->componentId = componentId; + pVersionInfo = (VERSIONINFO *)&gVersionInfo[componentId]; + pFwImage = (struct HpmfwupgFirmwareImage*)((*pImagePtr) + + sizeof(struct HpmfwupgActionRecord)); + pDataInitial = ((unsigned char *)pFwImage + + sizeof(struct HpmfwupgFirmwareImage)); + pData = pDataInitial; + + /* Find max buffer length according the connection parameters */ + max_rq_size = ipmi_intf_get_max_request_data_size(intf); + + /* validate lower bound of max request size */ + if (max_rq_size <= sizeof(struct HpmfwupgUploadFirmwareBlockReq)) { + lprintf(LOG_ERROR, "Maximum request size is too small to " + "send a upload request."); + return HPMFWUPG_ERROR; + } + + bufLength = max_rq_size - sizeof(struct HpmfwupgUploadFirmwareBlockReq); + + /* Get firmware length */ + firmwareLength = pFwImage->length[0]; + firmwareLength|= (pFwImage->length[1] << 8) & 0xff00; + firmwareLength|= (pFwImage->length[2] << 16) & 0xff0000; + firmwareLength|= (pFwImage->length[3] << 24) & 0xff000000; + mode = TARGET_VER | IMAGE_VER; + if (pVersionInfo->rollbackSupported) { + mode |= ROLLBACK_VER; + } + if ((option & DEBUG_MODE)) { + printf("\n\n Comp ID : %d [%-20s]\n", + pVersionInfo->componentId, + pFwImage->desc); + } else { + HpmDisplayVersion(mode, pVersionInfo, 0); + } + if ((1 << componentId) & pFwupgCtx->compUpdateMask.ComponentBits.byte) { + if (verbose) { + lprintf(LOG_NOTICE, "Do not skip %d", + componentId); + } + skip = FALSE; + } + if (!skip) { + HpmDisplayUpgrade(0,0,1,0); + /* Initialize parameters */ + uploadCmd.req = malloc(max_rq_size); + if (!uploadCmd.req) { + lprintf(LOG_ERR, "ipmitool: malloc failure"); + return HPMFWUPG_ERROR; + } + uploadCmd.req->blockNumber = 0; + /* Send Initiate Upgrade Action */ + initUpgActionCmd.req.componentsMask = components; + if (option & COMPARE_MODE) { + /* Action is compare */ + initUpgActionCmd.req.upgradeAction = HPMFWUPG_UPGRADE_ACTION_COMPARE; + } else { + /* Action is upgrade */ + initUpgActionCmd.req.upgradeAction = HPMFWUPG_UPGRADE_ACTION_UPGRADE; + } + rc = HpmfwupgInitiateUpgradeAction(intf, &initUpgActionCmd, pFwupgCtx); + if (rc != HPMFWUPG_SUCCESS) { + skip = TRUE; + } + if ((pVersionInfo->coldResetRequired) && (!skip)) { + *pFlagColdReset = TRUE; + } + /* pDataInitial is the starting pointer of the image data */ + /* pDataTemp is one which we will move across */ + pData = pDataInitial; + pDataTemp = pDataInitial; + lengthOfBlock = firmwareLength; + totalSent = 0x00; + displayFWLength= firmwareLength; + time(&start); + while ((pData < (pDataTemp+lengthOfBlock)) && (rc == HPMFWUPG_SUCCESS)) { + if ((pData+bufLength) <= (pDataTemp+lengthOfBlock)) { + count = bufLength; + } else { + count = (unsigned short)((pDataTemp+lengthOfBlock) - pData); + } + memcpy(&uploadCmd.req->data, pData, bufLength); + imageOffset = 0x00; + blockLength = 0x00; + numTxPkts++; + rc = HpmfwupgUploadFirmwareBlock(intf, &uploadCmd, + pFwupgCtx, count, &imageOffset,&blockLength); + numRxPkts++; + if (rc != HPMFWUPG_SUCCESS) { + if (rc == HPMFWUPG_UPLOAD_BLOCK_LENGTH && !bufLengthIsSet) { + rc = HPMFWUPG_SUCCESS; + /* Retry with a smaller buffer length */ + if (strstr(intf->name,"lan") != NULL && bufLength > 8) { + bufLength-= 8; + lprintf(LOG_INFO, + "Trying reduced buffer length: %d", + bufLength); + } else if (bufLength) { + bufLength-= 1; + lprintf(LOG_INFO, + "Trying reduced buffer length: %d", + bufLength); + } else { + rc = HPMFWUPG_ERROR; + } + } else if (rc == HPMFWUPG_UPLOAD_RETRY) { + rc = HPMFWUPG_SUCCESS; + } else { + fflush(stdout); + lprintf(LOG_NOTICE, + "\n Error in Upload FIRMWARE command [rc=%d]\n", + rc); + lprintf(LOG_NOTICE, + "\n TotalSent:0x%x ", + totalSent); + /* Exiting from the function */ + rc = HPMFWUPG_ERROR; + } + } else { + /* success, buf length is valid */ + bufLengthIsSet = 1; + if (blockLength > firmwareLength) { + /* + * blockLength is the remaining length of the firmware to upload so + * if its greater than the firmware length then its kind of error + */ + lprintf(LOG_NOTICE, + "\n Error in Upload FIRMWARE command [rc=%d]\n", + rc); + lprintf(LOG_NOTICE, + "\n TotalSent:0x%x Img offset:0x%x Blk length:0x%x Fwlen:0x%x\n", + totalSent,imageOffset,blockLength,firmwareLength); + rc = HPMFWUPG_ERROR; + } + totalSent += count; + if (imageOffset != 0x00) { + /* block Length is valid */ + lengthOfBlock = blockLength; + pDataTemp = pDataInitial + imageOffset; + pData = pDataTemp; + if (displayFWLength == firmwareLength) { + /* This is basically used only to make sure that we display uptil 100% */ + displayFWLength = blockLength + totalSent; + } + } else { + pData += count; + } + time(&end); + /* + * Just added debug mode in case we need to see exactly how many bytes have + * gone through - Its a hidden option used mainly should be used for debugging + */ + if (option & DEBUG_MODE) { + fflush(stdout); + printf(" Blk Num : %02x Bytes : %05x ", + uploadCmd.req->blockNumber,totalSent); + if (imageOffset || blockLength) { + printf("\n--> ImgOff : %x BlkLen : %x\n", + imageOffset,blockLength); + } + if (displayFWLength == totalSent) { + printf("\n Time Taken %02ld:%02ld", + (end-start)/60, (end-start)%60); + printf("\n\n"); + } + } else { + HpmDisplayUpgrade(0, totalSent, + displayFWLength, (end-start)); + } + uploadCmd.req->blockNumber++; + } + } + /* free buffer */ + free(uploadCmd.req); + uploadCmd.req = NULL; + } + if (skip) { + HpmDisplayUpgrade(1,0,0,0); + if ((option & COMPARE_MODE) + && !pFwupgCtx->genCompProp[pFwupgCtx->componentId].GeneralCompProperties.bitfield.comparisonSupport) { + printf("| |Comparison isn't supported for given compenent. |\n"); + } + *pImagePtr = pDataInitial + firmwareLength; + } + if (rc == HPMFWUPG_SUCCESS && !skip) { + /* Send finish component */ + /* Set image length */ + finishCmd.req.componentId = componentId; + /* We need to send the actual data that is sent + * not the comlete firmware image length + */ + finishCmd.req.imageLength[0] = totalSent & 0xFF; + finishCmd.req.imageLength[1] = (totalSent >> 8) & 0xFF; + finishCmd.req.imageLength[2] = (totalSent >> 16) & 0xFF; + finishCmd.req.imageLength[3] = (totalSent >> 24) & 0xFF; + rc = HpmfwupgFinishFirmwareUpload(intf, &finishCmd, + pFwupgCtx, option); + *pImagePtr = pDataInitial + firmwareLength; + } + return rc; +} + +/* HpmfwupgActivationStage - validate stage of a firmware upgrade procedure as + * defined in section 3.4 of the IPM Controller Firmware Upgrade Specification + * version 1.0 + */ +int +HpmfwupgActivationStage(struct ipmi_intf *intf, + struct HpmfwupgUpgradeCtx *pFwupgCtx) +{ + int rc = HPMFWUPG_SUCCESS; + struct HpmfwupgActivateFirmwareCtx activateCmd; + struct HpmfwupgImageHeader *pImageHeader = (struct HpmfwupgImageHeader*) + pFwupgCtx->pImageData; + /* Print out stuf...*/ + printf(" "); + fflush(stdout); + /* Activate new firmware */ + activateCmd.req.rollback_override = 0; + rc = HpmfwupgActivateFirmware(intf, &activateCmd, pFwupgCtx); + if (rc == HPMFWUPG_SUCCESS) { + /* Query self test result if supported by target and new image */ + if ((pFwupgCtx->targetCap.GlobalCapabilities.bitField.ipmcSelftestCap == 1) + || (pImageHeader->imageCapabilities.bitField.imageSelfTest == 1)) { + struct HpmfwupgQuerySelftestResultCtx selfTestCmd; + rc = HpmfwupgQuerySelftestResult(intf, &selfTestCmd, + pFwupgCtx); + if (rc == HPMFWUPG_SUCCESS) { + /* Get the self test result */ + if (selfTestCmd.resp.result1 != 0x55) { + /* Perform manual rollback if necessary */ + /* BACKUP/ MANUAL ROLLBACK not supported by this UA */ + lprintf(LOG_NOTICE, " Self test failed:"); + lprintf(LOG_NOTICE, " Result1 = %x", + selfTestCmd.resp.result1); + lprintf(LOG_NOTICE, " Result2 = %x", + selfTestCmd.resp.result2); + rc = HPMFWUPG_ERROR; + } + } else { + /* Perform manual rollback if necessary */ + /* BACKUP / MANUAL ROLLBACK not supported by this UA */ + lprintf(LOG_NOTICE," Self test failed."); + } + } + } + /* If activation / self test failed, query rollback + * status if automatic rollback supported + */ + if (rc == HPMFWUPG_ERROR) { + if ((pFwupgCtx->targetCap.GlobalCapabilities.bitField.autRollback == 1) + && (pFwupgCtx->genCompProp[pFwupgCtx->componentId].GeneralCompProperties.bitfield.rollbackBackup != 0x00)) { + struct HpmfwupgQueryRollbackStatusCtx rollCmd; + lprintf(LOG_NOTICE," Getting rollback status..."); + fflush(stdout); + rc = HpmfwupgQueryRollbackStatus(intf, + &rollCmd, pFwupgCtx); + } + } + return rc; +} + +int +HpmfwupgGetBufferFromFile(char *imageFilename, + struct HpmfwupgUpgradeCtx *pFwupgCtx) +{ + int rc = HPMFWUPG_SUCCESS; + int ret = 0; + FILE *pImageFile = fopen(imageFilename, "rb"); + if (pImageFile == NULL) { + lprintf(LOG_ERR, "Cannot open image file '%s'", + imageFilename); + return HPMFWUPG_ERROR; + } + /* Get the raw data in file */ + fseek(pImageFile, 0, SEEK_END); + pFwupgCtx->imageSize = ftell(pImageFile); + pFwupgCtx->pImageData = malloc(sizeof(unsigned char)*pFwupgCtx->imageSize); + if (pFwupgCtx->pImageData == NULL) { + lprintf(LOG_ERR, "ipmitool: malloc failure"); + fclose(pImageFile); + return HPMFWUPG_ERROR; + } + rewind(pImageFile); + ret = fread(pFwupgCtx->pImageData, + sizeof(unsigned char), + pFwupgCtx->imageSize, + pImageFile); + if (ret != pFwupgCtx->imageSize) { + lprintf(LOG_ERR, + "Failed to read file %s size %d", + imageFilename, + pFwupgCtx->imageSize); + rc = HPMFWUPG_ERROR; + } + fclose(pImageFile); + return rc; +} + +int +HpmfwupgGetDeviceId(struct ipmi_intf *intf, struct ipm_devid_rsp *pGetDevId) +{ + struct ipmi_rs *rsp; + struct ipmi_rq req; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_APP; + req.msg.cmd = BMC_GET_DEVICE_ID; + req.msg.data_len = 0; + rsp = HpmfwupgSendCmd(intf, req, NULL); + if (rsp == NULL) { + lprintf(LOG_ERR, "Error getting device ID."); + return HPMFWUPG_ERROR; + } + if (rsp->ccode != 0x00) { + lprintf(LOG_ERR, "Error getting device ID."); + lprintf(LOG_ERR, "compcode=0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + return HPMFWUPG_ERROR; + } + memcpy(pGetDevId, rsp->data, sizeof(struct ipm_devid_rsp)); + return HPMFWUPG_SUCCESS; +} + +int +HpmfwupgGetTargetUpgCapabilities(struct ipmi_intf *intf, + struct HpmfwupgGetTargetUpgCapabilitiesCtx *pCtx) +{ + struct ipmi_rs *rsp; + struct ipmi_rq req; + pCtx->req.picmgId = HPMFWUPG_PICMG_IDENTIFIER; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_GET_TARGET_UPG_CAPABILITIES; + req.msg.data = (unsigned char*)&pCtx->req; + req.msg.data_len = sizeof(struct HpmfwupgGetTargetUpgCapabilitiesReq); + rsp = HpmfwupgSendCmd(intf, req, NULL); + if (rsp == NULL) { + lprintf(LOG_ERR, + "Error getting target upgrade capabilities."); + return HPMFWUPG_ERROR; + } + if (rsp->ccode != 0x00) { + lprintf(LOG_ERR, + "Error getting target upgrade capabilities, ccode: 0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + return HPMFWUPG_ERROR; + } + memcpy(&pCtx->resp, rsp->data, + sizeof(struct HpmfwupgGetTargetUpgCapabilitiesResp)); + if (verbose) { + lprintf(LOG_NOTICE, "TARGET UPGRADE CAPABILITIES"); + lprintf(LOG_NOTICE, "-------------------------------"); + lprintf(LOG_NOTICE, "HPM.1 version............%d ", + pCtx->resp.hpmVersion); + lprintf(LOG_NOTICE, "Component 0 presence....[%c] ", + pCtx->resp.componentsPresent.ComponentBits.bitField.component0 ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Component 1 presence....[%c] ", + pCtx->resp.componentsPresent.ComponentBits.bitField.component1 ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Component 2 presence....[%c] ", + pCtx->resp.componentsPresent.ComponentBits.bitField.component2 ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Component 3 presence....[%c] ", + pCtx->resp.componentsPresent.ComponentBits.bitField.component3 ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Component 4 presence....[%c] ", + pCtx->resp.componentsPresent.ComponentBits.bitField.component4 ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Component 5 presence....[%c] ", + pCtx->resp.componentsPresent.ComponentBits.bitField.component5 ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Component 6 presence....[%c] ", + pCtx->resp.componentsPresent.ComponentBits.bitField.component6 ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Component 7 presence....[%c] ", + pCtx->resp.componentsPresent.ComponentBits.bitField.component7 ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Upgrade undesirable.....[%c] ", + pCtx->resp.GlobalCapabilities.bitField.fwUpgUndesirable ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Aut rollback override...[%c] ", + pCtx->resp.GlobalCapabilities.bitField.autRollbackOverride ? 'y' : 'n'); + lprintf(LOG_NOTICE, "IPMC degraded...........[%c] ", + pCtx->resp.GlobalCapabilities.bitField.ipmcDegradedDurinUpg ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Defered activation......[%c] ", + pCtx->resp.GlobalCapabilities.bitField.deferActivation ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Service affected........[%c] ", + pCtx->resp.GlobalCapabilities.bitField.servAffectDuringUpg ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Manual rollback.........[%c] ", + pCtx->resp.GlobalCapabilities.bitField.manualRollback ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Automatic rollback......[%c] ", + pCtx->resp.GlobalCapabilities.bitField.autRollback ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Self test...............[%c] ", + pCtx->resp.GlobalCapabilities.bitField.ipmcSelftestCap ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Upgrade timeout.........[%d sec] ", + pCtx->resp.upgradeTimeout*5); + lprintf(LOG_NOTICE, "Self test timeout.......[%d sec] ", + pCtx->resp.selftestTimeout*5); + lprintf(LOG_NOTICE, "Rollback timeout........[%d sec] ", + pCtx->resp.rollbackTimeout*5); + lprintf(LOG_NOTICE, "Inaccessibility timeout.[%d sec] \n", + pCtx->resp.inaccessTimeout*5); + } + return HPMFWUPG_SUCCESS; +} + +int +HpmfwupgGetComponentProperties(struct ipmi_intf *intf, + struct HpmfwupgGetComponentPropertiesCtx *pCtx) +{ + int rc = HPMFWUPG_SUCCESS; + struct ipmi_rs * rsp; + struct ipmi_rq req; + pCtx->req.picmgId = HPMFWUPG_PICMG_IDENTIFIER; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_GET_COMPONENT_PROPERTIES; + req.msg.data = (unsigned char*)&pCtx->req; + req.msg.data_len = sizeof(struct HpmfwupgGetComponentPropertiesReq); + rsp = HpmfwupgSendCmd(intf, req, NULL); + if (rsp == NULL) { + lprintf(LOG_NOTICE, + "Error getting component properties\n"); + return HPMFWUPG_ERROR; + } + if (rsp->ccode != 0x00) { + lprintf(LOG_NOTICE, + "Error getting component properties"); + lprintf(LOG_NOTICE, + "compcode=0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + return HPMFWUPG_ERROR; + } + switch (pCtx->req.selector) { + case HPMFWUPG_COMP_GEN_PROPERTIES: + memcpy(&pCtx->resp, rsp->data, sizeof(struct HpmfwupgGetGeneralPropResp)); + if (verbose) { + lprintf(LOG_NOTICE, "GENERAL PROPERTIES"); + lprintf(LOG_NOTICE, "-------------------------------"); + lprintf(LOG_NOTICE, "Payload cold reset req....[%c] ", + pCtx->resp.Response.generalPropResp.GeneralCompProperties.bitfield.payloadColdReset ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Def. activation supported.[%c] ", + pCtx->resp.Response.generalPropResp.GeneralCompProperties.bitfield.deferredActivation ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Comparison supported......[%c] ", + pCtx->resp.Response.generalPropResp.GeneralCompProperties.bitfield.comparisonSupport ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Preparation supported.....[%c] ", + pCtx->resp.Response.generalPropResp.GeneralCompProperties.bitfield.preparationSupport ? 'y' : 'n'); + lprintf(LOG_NOTICE, "Rollback supported........[%c] \n", + pCtx->resp.Response.generalPropResp.GeneralCompProperties.bitfield.rollbackBackup ? 'y' : 'n'); + } + break; + case HPMFWUPG_COMP_CURRENT_VERSION: + memcpy(&pCtx->resp, rsp->data, + sizeof(struct HpmfwupgGetCurrentVersionResp)); + if (verbose) { + lprintf(LOG_NOTICE, "Current Version: "); + lprintf(LOG_NOTICE, " Major: %d", + pCtx->resp.Response.currentVersionResp.currentVersion[0]); + lprintf(LOG_NOTICE, " Minor: %x", + pCtx->resp.Response.currentVersionResp.currentVersion[1]); + lprintf(LOG_NOTICE, " Aux : %03d %03d %03d %03d\n", + pCtx->resp.Response.currentVersionResp.currentVersion[2], + pCtx->resp.Response.currentVersionResp.currentVersion[3], + pCtx->resp.Response.currentVersionResp.currentVersion[4], + pCtx->resp.Response.currentVersionResp.currentVersion[5]); + } + break; + case HPMFWUPG_COMP_DESCRIPTION_STRING: + memcpy(&pCtx->resp, rsp->data, + sizeof(struct HpmfwupgGetDescStringResp)); + if (verbose) { + char descString[HPMFWUPG_DESC_STRING_LENGTH + 1]; + memcpy(descString, + pCtx->resp.Response.descStringResp.descString, + HPMFWUPG_DESC_STRING_LENGTH); + descString[HPMFWUPG_DESC_STRING_LENGTH] = '\0'; + lprintf(LOG_NOTICE, + "Description string: %s\n", + descString); + } + break; + case HPMFWUPG_COMP_ROLLBACK_FIRMWARE_VERSION: + memcpy(&pCtx->resp, rsp->data, sizeof(struct HpmfwupgGetRollbackFwVersionResp)); + if (verbose) { + lprintf(LOG_NOTICE, "Rollback FW Version: "); + lprintf(LOG_NOTICE, " Major: %d", + pCtx->resp.Response.rollbackFwVersionResp.rollbackFwVersion[0]); + lprintf(LOG_NOTICE, " Minor: %x", + pCtx->resp.Response.rollbackFwVersionResp.rollbackFwVersion[1]); + lprintf(LOG_NOTICE, " Aux : %03d %03d %03d %03d\n", + pCtx->resp.Response.rollbackFwVersionResp.rollbackFwVersion[2], + pCtx->resp.Response.rollbackFwVersionResp.rollbackFwVersion[3], + pCtx->resp.Response.rollbackFwVersionResp.rollbackFwVersion[4], + pCtx->resp.Response.rollbackFwVersionResp.rollbackFwVersion[5]); + } + break; + case HPMFWUPG_COMP_DEFERRED_FIRMWARE_VERSION: + memcpy(&pCtx->resp, rsp->data, sizeof(struct HpmfwupgGetDeferredFwVersionResp)); + if (verbose) { + lprintf(LOG_NOTICE, "Deferred FW Version: "); + lprintf(LOG_NOTICE, " Major: %d", + pCtx->resp.Response.deferredFwVersionResp.deferredFwVersion[0]); + lprintf(LOG_NOTICE, " Minor: %x", + pCtx->resp.Response.deferredFwVersionResp.deferredFwVersion[1]); + lprintf(LOG_NOTICE, " Aux : %03d %03d %03d %03d\n", + pCtx->resp.Response.deferredFwVersionResp.deferredFwVersion[2], + pCtx->resp.Response.deferredFwVersionResp.deferredFwVersion[3], + pCtx->resp.Response.deferredFwVersionResp.deferredFwVersion[4], + pCtx->resp.Response.deferredFwVersionResp.deferredFwVersion[5]); + } + break; + case HPMFWUPG_COMP_OEM_PROPERTIES: + /* OEM Properties command */ + memcpy(&pCtx->resp, rsp->data, sizeof(struct HpmfwupgGetOemProperties)); + if (verbose) { + unsigned char i = 0; + lprintf(LOG_NOTICE,"OEM Properties: "); + for (i=0; i < HPMFWUPG_OEM_LENGTH; i++) { + lprintf(LOG_NOTICE, " 0x%x ", + pCtx->resp.Response.oemProperties.oemRspData[i]); + } + } + break; + default: + lprintf(LOG_NOTICE,"Unsupported component selector"); + rc = HPMFWUPG_ERROR; + break; + } + return rc; +} + +int +HpmfwupgAbortUpgrade(struct ipmi_intf *intf, + struct HpmfwupgAbortUpgradeCtx *pCtx) +{ + int rc = HPMFWUPG_SUCCESS; + struct ipmi_rs *rsp; + struct ipmi_rq req; + pCtx->req.picmgId = HPMFWUPG_PICMG_IDENTIFIER; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_ABORT_UPGRADE; + req.msg.data = (unsigned char*)&pCtx->req; + req.msg.data_len = sizeof(struct HpmfwupgAbortUpgradeReq); + rsp = HpmfwupgSendCmd(intf, req, NULL); + if (rsp == NULL) { + lprintf(LOG_ERR, "Error - aborting upgrade."); + return HPMFWUPG_ERROR; + } + if (rsp->ccode != 0x00) { + lprintf(LOG_ERR, "Error aborting upgrade"); + lprintf(LOG_ERR, "compcode=0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + rc = HPMFWUPG_ERROR; + } + return rc; +} + +int +HpmfwupgInitiateUpgradeAction(struct ipmi_intf *intf, + struct HpmfwupgInitiateUpgradeActionCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx) +{ + int rc = HPMFWUPG_SUCCESS; + struct ipmi_rs *rsp; + struct ipmi_rq req; + pCtx->req.picmgId = HPMFWUPG_PICMG_IDENTIFIER; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_INITIATE_UPGRADE_ACTION; + req.msg.data = (unsigned char*)&pCtx->req; + req.msg.data_len = sizeof(struct HpmfwupgInitiateUpgradeActionReq); + rsp = HpmfwupgSendCmd(intf, req, pFwupgCtx); + if (rsp == NULL) { + lprintf(LOG_ERR, "Error initiating upgrade action."); + return HPMFWUPG_ERROR; + } + /* Long duration command handling */ + if (rsp->ccode == HPMFWUPG_COMMAND_IN_PROGRESS) { + rc = HpmfwupgWaitLongDurationCmd(intf, pFwupgCtx); + } else if (rsp->ccode != 0x00) { + lprintf(LOG_NOTICE,"Error initiating upgrade action"); + lprintf(LOG_NOTICE, "compcode=0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + rc = HPMFWUPG_ERROR; + } + return rc; +} + +int +HpmfwupgUploadFirmwareBlock(struct ipmi_intf *intf, + struct HpmfwupgUploadFirmwareBlockCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx, int count, + unsigned int *imageOffset, unsigned int *blockLength) +{ + int rc = HPMFWUPG_SUCCESS; + struct ipmi_rs *rsp; + struct ipmi_rq req; + pCtx->req->picmgId = HPMFWUPG_PICMG_IDENTIFIER; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_UPLOAD_FIRMWARE_BLOCK; + req.msg.data = (unsigned char *)pCtx->req; + /* 2 is the size of the upload struct - data */ + req.msg.data_len = 2 + count; + rsp = HpmfwupgSendCmd(intf, req, pFwupgCtx); + if (rsp == NULL) { + lprintf(LOG_NOTICE, "Error uploading firmware block."); + return HPMFWUPG_ERROR; + } + if (rsp->ccode == HPMFWUPG_COMMAND_IN_PROGRESS + || rsp->ccode == 0x00) { + /* + * We need to check if the response also contains the next upload firmware offset + * and the firmware length in its response - These are optional but very vital + */ + if (rsp->data_len > 1) { + /* + * If the response data length is greater than 1 it should contain both the + * the Section offset and section length. Because we cannot just have + * Section offset without section length so the length should be 9 + */ + if (rsp->data_len == 9) { + /* rsp->data[1] - LSB rsp->data[2] - rsp->data[3] = MSB */ + *imageOffset = (rsp->data[4] << 24) + (rsp->data[3] << 16) + (rsp->data[2] << 8) + rsp->data[1]; + *blockLength = (rsp->data[8] << 24) + (rsp->data[7] << 16) + (rsp->data[6] << 8) + rsp->data[5]; + } else { + /* + * The Spec does not say much for this kind of errors where the + * firmware returned only offset and length so currently returning it + * as 0x82 - Internal CheckSum Error + */ + lprintf(LOG_NOTICE, + "Error wrong rsp->datalen %d for Upload Firmware block command\n", + rsp->data_len); + rsp->ccode = HPMFWUPG_INT_CHECKSUM_ERROR; + } + } + } + /* Long duration command handling */ + if (rsp->ccode == HPMFWUPG_COMMAND_IN_PROGRESS) { + rc = HpmfwupgWaitLongDurationCmd(intf, pFwupgCtx); + } else if (rsp->ccode != 0x00) { + /* PATCH --> This validation is to handle retryables errors codes on IPMB bus. + * This will be fixed in the next release of open ipmi and this + * check will have to be removed. (Buggy version = 39) + */ + if (HPMFWUPG_IS_RETRYABLE(rsp->ccode)) { + lprintf(LOG_DEBUG, "HPM: [PATCH]Retryable error detected"); + rc = HPMFWUPG_UPLOAD_RETRY; + } else if (rsp->ccode == IPMI_CC_REQ_DATA_INV_LENGTH || + rsp->ccode == IPMI_CC_REQ_DATA_FIELD_EXCEED) { + /* If completion code = 0xc7(0xc8), we will retry with a reduced buffer length. + * Do not print error. + */ + rc = HPMFWUPG_UPLOAD_BLOCK_LENGTH; + } else { + lprintf(LOG_ERR, "Error uploading firmware block"); + lprintf(LOG_ERR, "compcode=0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, + completion_code_vals)); + rc = HPMFWUPG_ERROR; + } + } + return rc; +} + +int +HpmfwupgFinishFirmwareUpload(struct ipmi_intf *intf, + struct HpmfwupgFinishFirmwareUploadCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx, int option) +{ + int rc = HPMFWUPG_SUCCESS; + struct ipmi_rs *rsp; + struct ipmi_rq req; + pCtx->req.picmgId = HPMFWUPG_PICMG_IDENTIFIER; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_FINISH_FIRMWARE_UPLOAD; + req.msg.data = (unsigned char*)&pCtx->req; + req.msg.data_len = sizeof(struct HpmfwupgFinishFirmwareUploadReq); + rsp = HpmfwupgSendCmd(intf, req, pFwupgCtx); + if (rsp == NULL) { + lprintf(LOG_ERR, "Error fininshing firmware upload."); + return HPMFWUPG_ERROR; + } + /* Long duration command handling */ + if (rsp->ccode == HPMFWUPG_COMMAND_IN_PROGRESS) { + rc = HpmfwupgWaitLongDurationCmd(intf, pFwupgCtx); + } else if ((option & COMPARE_MODE) && rsp->ccode == 0x83) { + printf("| |Component's active copy doesn't match the upgrade image |\n"); + } else if ((option & COMPARE_MODE) && rsp->ccode == IPMI_CC_OK) { + printf("| |Comparison passed |\n"); + } else if ( rsp->ccode != IPMI_CC_OK ) { + lprintf(LOG_ERR, "Error finishing firmware upload"); + lprintf(LOG_ERR, "compcode=0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + rc = HPMFWUPG_ERROR; + } + return rc; +} + +int +HpmfwupgActivateFirmware(struct ipmi_intf *intf, + struct HpmfwupgActivateFirmwareCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx) +{ + int rc = HPMFWUPG_SUCCESS; + struct ipmi_rs *rsp; + struct ipmi_rq req; + pCtx->req.picmgId = HPMFWUPG_PICMG_IDENTIFIER; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_ACTIVATE_FIRMWARE; + req.msg.data = (unsigned char*)&pCtx->req; + req.msg.data_len = sizeof(struct HpmfwupgActivateFirmwareReq) + - (!pCtx->req.rollback_override ? 1 : 0); + rsp = HpmfwupgSendCmd(intf, req, pFwupgCtx); + if (rsp == NULL) { + lprintf(LOG_ERR, "Error activating firmware."); + return HPMFWUPG_ERROR; + } + /* Long duration command handling */ + if (rsp->ccode == HPMFWUPG_COMMAND_IN_PROGRESS) { + printf("Waiting firmware activation..."); + fflush(stdout); + rc = HpmfwupgWaitLongDurationCmd(intf, pFwupgCtx); + if (rc == HPMFWUPG_SUCCESS) { + lprintf(LOG_NOTICE, "OK"); + } else { + lprintf(LOG_NOTICE, "Failed"); + } + } else if (rsp->ccode != IPMI_CC_OK) { + lprintf(LOG_ERR, "Error activating firmware"); + lprintf(LOG_ERR, "compcode=0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + rc = HPMFWUPG_ERROR; + } + return rc; +} + +int +HpmfwupgGetUpgradeStatus(struct ipmi_intf *intf, + struct HpmfwupgGetUpgradeStatusCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx, + int silent) +{ + int rc = HPMFWUPG_SUCCESS; + struct ipmi_rs *rsp; + struct ipmi_rq req; + pCtx->req.picmgId = HPMFWUPG_PICMG_IDENTIFIER; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_GET_UPGRADE_STATUS; + req.msg.data = (unsigned char*)&pCtx->req; + req.msg.data_len = sizeof(struct HpmfwupgGetUpgradeStatusReq); + rsp = HpmfwupgSendCmd(intf, req, pFwupgCtx); + if (!rsp) { + lprintf(LOG_NOTICE, + "Error getting upgrade status. Failed to get response."); + return HPMFWUPG_ERROR; + } + if (rsp->ccode == 0x00) { + memcpy(&pCtx->resp, rsp->data, + sizeof(struct HpmfwupgGetUpgradeStatusResp)); + if (!silent) { + lprintf(LOG_NOTICE, "Upgrade status:"); + lprintf(LOG_NOTICE, + " Command in progress: %x", + pCtx->resp.cmdInProcess); + lprintf(LOG_NOTICE, + " Last command completion code: %x", + pCtx->resp.lastCmdCompCode); + } + } else if (HPMFWUPG_IS_RETRYABLE(rsp->ccode)) { + /* PATCH --> This validation is to handle retryable errors + * codes on the IPMB bus. + * This will be fixed in the next release of + * open ipmi and this check can be removed. + * (Buggy version = 39) + */ + if (!silent) { + lprintf(LOG_DEBUG, "HPM: Retryable error detected"); + } + pCtx->resp.lastCmdCompCode = HPMFWUPG_COMMAND_IN_PROGRESS; + } else { + lprintf(LOG_NOTICE, "Error getting upgrade status"); + lprintf(LOG_NOTICE, "compcode=0x%x: %s", rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + return HPMFWUPG_ERROR; + } + return HPMFWUPG_SUCCESS; +} + +int +HpmfwupgManualFirmwareRollback(struct ipmi_intf *intf, + struct HpmfwupgManualFirmwareRollbackCtx *pCtx) +{ + struct HpmfwupgUpgradeCtx fwupgCtx; + struct HpmfwupgGetTargetUpgCapabilitiesCtx targetCapCmd; + int rc = HPMFWUPG_SUCCESS; + struct ipmi_rs *rsp; + struct ipmi_rq req; + /* prepare fake upgrade context */ + memset(&fwupgCtx, 0, sizeof (fwupgCtx)); + verbose--; + rc = HpmfwupgGetTargetUpgCapabilities(intf, &targetCapCmd); + verbose++; + if (rc != HPMFWUPG_SUCCESS) { + return rc; + } + memcpy(&fwupgCtx.targetCap, &targetCapCmd.resp, sizeof(targetCapCmd.resp)); + pCtx->req.picmgId = HPMFWUPG_PICMG_IDENTIFIER; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_MANUAL_FIRMWARE_ROLLBACK; + req.msg.data = (unsigned char*)&pCtx->req; + req.msg.data_len = sizeof(struct HpmfwupgManualFirmwareRollbackReq); + rsp = HpmfwupgSendCmd(intf, req, &fwupgCtx); + if (rsp == NULL) { + lprintf(LOG_ERR, "Error sending manual rollback."); + return HPMFWUPG_ERROR; + } + /* Long duration command handling */ + if (rsp->ccode == IPMI_CC_OK + || rsp->ccode == HPMFWUPG_COMMAND_IN_PROGRESS) { + struct HpmfwupgQueryRollbackStatusCtx resCmd; + printf("Waiting firmware rollback..."); + fflush(stdout); + rc = HpmfwupgQueryRollbackStatus(intf, &resCmd, &fwupgCtx); + } else if ( rsp->ccode != 0x00 ) { + lprintf(LOG_ERR, "Error sending manual rollback"); + lprintf(LOG_ERR, "compcode=0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + rc = HPMFWUPG_ERROR; + } + return rc; +} + +int +HpmfwupgQueryRollbackStatus(struct ipmi_intf *intf, + struct HpmfwupgQueryRollbackStatusCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx) +{ + int rc = HPMFWUPG_SUCCESS; + struct ipmi_rs *rsp; + struct ipmi_rq req; + unsigned int rollbackTimeout = 0; + unsigned int timeoutSec1, timeoutSec2; + pCtx->req.picmgId = HPMFWUPG_PICMG_IDENTIFIER; + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_QUERY_ROLLBACK_STATUS; + req.msg.data = (unsigned char*)&pCtx->req; + req.msg.data_len = sizeof(struct HpmfwupgQueryRollbackStatusReq); + /* If we are not in upgrade context, we use default timeout values */ + if (pFwupgCtx != NULL) { + struct HpmfwupgImageHeader *pImageHeader; + if (pFwupgCtx->pImageData) { + pImageHeader = (struct HpmfwupgImageHeader*)pFwupgCtx->pImageData; + rollbackTimeout = pImageHeader->rollbackTimeout; + } else { + rollbackTimeout = 0; + } + /* Use the greater of the two timeouts (header and target caps) */ + rollbackTimeout = MAX(rollbackTimeout, + pFwupgCtx->targetCap.rollbackTimeout) * 5; + } else { + rollbackTimeout = HPMFWUPG_DEFAULT_UPGRADE_TIMEOUT; + } + /* Poll rollback status until completion or timeout */ + timeoutSec1 = time(NULL); + timeoutSec2 = time(NULL); + do { + /* Must wait at least 100 ms between status requests */ + usleep(100000); + rsp = HpmfwupgSendCmd(intf, req, pFwupgCtx); + /* PATCH --> This validation is to handle retryables errors codes on IPMB bus. + * This will be fixed in the next release of open ipmi and this + * check will have to be removed. (Buggy version = 39) + */ + if (rsp) { + if (HPMFWUPG_IS_RETRYABLE(rsp->ccode)) { + lprintf(LOG_DEBUG,"HPM: [PATCH]Retryable error detected"); + rsp->ccode = HPMFWUPG_COMMAND_IN_PROGRESS; + } + } + timeoutSec2 = time(NULL); + } while (rsp + && ((rsp->ccode == HPMFWUPG_COMMAND_IN_PROGRESS) + || (rsp->ccode == IPMI_CC_TIMEOUT)) + && (timeoutSec2 - timeoutSec1 < rollbackTimeout)); + if (rsp == NULL) { + lprintf(LOG_ERR, "Error getting upgrade status."); + return HPMFWUPG_ERROR; + } + if (rsp->ccode == 0x00) { + memcpy(&pCtx->resp, rsp->data, + sizeof(struct HpmfwupgQueryRollbackStatusResp)); + if (pCtx->resp.rollbackComp.ComponentBits.byte != 0) { + /* Rollback occured */ + lprintf(LOG_NOTICE, + "Rollback occured on component mask: 0x%02x", + pCtx->resp.rollbackComp.ComponentBits.byte); + } else { + lprintf(LOG_NOTICE, + "No Firmware rollback occured"); + } + } else if (rsp->ccode == 0x81) { + lprintf(LOG_ERR, + "Rollback failed on component mask: 0x%02x", + pCtx->resp.rollbackComp.ComponentBits.byte); + rc = HPMFWUPG_ERROR; + } else { + lprintf(LOG_ERR, + "Error getting rollback status"); + lprintf(LOG_ERR, + "compcode=0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + rc = HPMFWUPG_ERROR; + } + return rc; +} + +int +HpmfwupgQuerySelftestResult(struct ipmi_intf *intf, struct HpmfwupgQuerySelftestResultCtx *pCtx, + struct HpmfwupgUpgradeCtx *pFwupgCtx) +{ + int rc = HPMFWUPG_SUCCESS; + struct ipmi_rs *rsp; + struct ipmi_rq req; + unsigned char selfTestTimeout = 0; + unsigned int timeoutSec1, timeoutSec2; + pCtx->req.picmgId = HPMFWUPG_PICMG_IDENTIFIER; + /* If we are not in upgrade context, we use default timeout values */ + if (pFwupgCtx != NULL) { + /* Getting selftest timeout from new image */ + struct HpmfwupgImageHeader *pImageHeader = (struct HpmfwupgImageHeader*) + pFwupgCtx->pImageData; + selfTestTimeout = MAX(pImageHeader->selfTestTimeout, + pFwupgCtx->targetCap.selftestTimeout) * 5; + } else { + selfTestTimeout = HPMFWUPG_DEFAULT_UPGRADE_TIMEOUT; + } + memset(&req, 0, sizeof(req)); + req.msg.netfn = IPMI_NETFN_PICMG; + req.msg.cmd = HPMFWUPG_QUERY_SELFTEST_RESULT; + req.msg.data = (unsigned char*)&pCtx->req; + req.msg.data_len = sizeof(struct HpmfwupgQuerySelftestResultReq); + /* Poll rollback status until completion or timeout */ + timeoutSec1 = time(NULL); + timeoutSec2 = time(NULL); + do { + /* Must wait at least 100 ms between status requests */ + usleep(100000); + rsp = HpmfwupgSendCmd(intf, req, pFwupgCtx); + /* PATCH --> This validation is to handle retryables errors codes on IPMB bus. + * This will be fixed in the next release of open ipmi and this + * check will have to be removed. (Buggy version = 39) + */ + if (rsp) { + if (HPMFWUPG_IS_RETRYABLE(rsp->ccode)) { + lprintf(LOG_DEBUG, + "HPM: [PATCH]Retryable error detected"); + rsp->ccode = HPMFWUPG_COMMAND_IN_PROGRESS; + } + } + timeoutSec2 = time(NULL); + } while (rsp + && (rsp->ccode == HPMFWUPG_COMMAND_IN_PROGRESS) + && (timeoutSec2 - timeoutSec1 < selfTestTimeout)); + if (rsp == NULL) { + lprintf(LOG_NOTICE, "Error getting upgrade status\n"); + return HPMFWUPG_ERROR; + } + if (rsp->ccode == 0x00) { + memcpy(&pCtx->resp, rsp->data, + sizeof(struct HpmfwupgQuerySelftestResultResp)); + if (verbose) { + lprintf(LOG_NOTICE, "Self test results:"); + lprintf(LOG_NOTICE, "Result1 = %x", + pCtx->resp.result1); + lprintf(LOG_NOTICE, "Result2 = %x", + pCtx->resp.result2); + } + } else { + lprintf(LOG_NOTICE, "Error getting self test results"); + lprintf(LOG_NOTICE, "compcode=0x%x: %s", + rsp->ccode, + val2str(rsp->ccode, completion_code_vals)); + rc = HPMFWUPG_ERROR; + } + return rc; +} + +struct ipmi_rs * +HpmfwupgSendCmd(struct ipmi_intf *intf, struct ipmi_rq req, + struct HpmfwupgUpgradeCtx *pFwupgCtx) +{ + struct ipmi_rs *rsp; + unsigned int inaccessTimeout = 0, inaccessTimeoutCounter = 0; + unsigned int upgradeTimeout = 0, upgradeTimeoutCounter = 0; + unsigned int timeoutSec1, timeoutSec2; + unsigned char retry = 0; + /* If we are not in upgrade context, we use default timeout values */ + if (pFwupgCtx != NULL) { + inaccessTimeout = pFwupgCtx->targetCap.inaccessTimeout*5; + upgradeTimeout = pFwupgCtx->targetCap.upgradeTimeout*5; + } else { + /* keeping the inaccessTimeout to 60 seconds results in almost 2900 retries + * So if the target is not available it will be retrying the command for 2900 + * times which is not effecient -So reducing the Timout to 5 seconds which is + * almost 200 retries if it continuously recieves 0xC3 as completion code. + */ + inaccessTimeout = HPMFWUPG_DEFAULT_UPGRADE_TIMEOUT; + upgradeTimeout = HPMFWUPG_DEFAULT_UPGRADE_TIMEOUT; + } + timeoutSec1 = time(NULL); + do { + static unsigned char isValidSize = FALSE; + rsp = intf->sendrecv(intf, &req); + if (rsp == NULL) { + #define HPM_LAN_PACKET_RESIZE_LIMIT 6 + /* also covers lanplus */ + if (strstr(intf->name, "lan") != NULL) { + static int errorCount=0; + static struct ipmi_rs fakeRsp; + lprintf(LOG_DEBUG, + "HPM: no response available"); + lprintf(LOG_DEBUG, + "HPM: the command may be rejected for security reasons"); + if (req.msg.netfn == IPMI_NETFN_PICMG + && req.msg.cmd == HPMFWUPG_UPLOAD_FIRMWARE_BLOCK + && errorCount < HPM_LAN_PACKET_RESIZE_LIMIT + && (!isValidSize)) { + lprintf(LOG_DEBUG, + "HPM: upload firmware block API called"); + lprintf(LOG_DEBUG, + "HPM: returning length error to force resize"); + fakeRsp.ccode = IPMI_CC_REQ_DATA_INV_LENGTH; + rsp = &fakeRsp; + errorCount++; + } else if (req.msg.netfn == IPMI_NETFN_PICMG + && (req.msg.cmd == HPMFWUPG_ACTIVATE_FIRMWARE + || req.msg.cmd == HPMFWUPG_MANUAL_FIRMWARE_ROLLBACK)) { + /* + * rsp == NULL and command activate firmware or manual firmware + * rollback most likely occurs when we have sent a firmware activation + * request. Fake a command in progress response. + */ + lprintf(LOG_DEBUG, + "HPM: activate/rollback firmware API called"); + lprintf(LOG_DEBUG, + "HPM: returning in progress to handle IOL session lost"); + fakeRsp.ccode = HPMFWUPG_COMMAND_IN_PROGRESS; + rsp = &fakeRsp; + } else if (req.msg.netfn == IPMI_NETFN_PICMG + && (req.msg.cmd == HPMFWUPG_QUERY_ROLLBACK_STATUS + || req.msg.cmd == HPMFWUPG_GET_UPGRADE_STATUS + || req.msg.cmd == HPMFWUPG_QUERY_SELFTEST_RESULT) + && ( !intf->target_addr || intf->target_addr == intf->my_addr)) { + /* reopen session only if target IPMC is directly accessed */ + /* + * rsp == NULL and command get upgrade status or query rollback + * status most likely occurs when we are waiting for firmware + * activation. Try to re-open the IOL session (re-open will work + * once the IPMC recovers from firmware activation. + */ + lprintf(LOG_DEBUG, "HPM: upg/rollback status firmware API called"); + lprintf(LOG_DEBUG, "HPM: try to re-open IOL session"); + { + /* force session re-open */ + intf->opened = 0; + intf->session->authtype = IPMI_SESSION_AUTHTYPE_NONE; + intf->session->session_id = 0; + intf->session->in_seq = 0; + intf->session->out_seq = 0; + intf->session->active = 0; + intf->session->retry = 10; + while (intf->open(intf) == HPMFWUPG_ERROR + && inaccessTimeoutCounter < inaccessTimeout) { + inaccessTimeoutCounter += (time(NULL) - timeoutSec1); + timeoutSec1 = time(NULL); + } + /* Fake timeout to retry command */ + fakeRsp.ccode = 0xc3; + rsp = &fakeRsp; + } + } + } + } + /* Handle inaccessibility timeout (rsp = NULL if IOL) */ + if (rsp == NULL || rsp->ccode == 0xff || rsp->ccode == 0xc3 || rsp->ccode == 0xd3) { + if (inaccessTimeoutCounter < inaccessTimeout) { + timeoutSec2 = time(NULL); + if (timeoutSec2 > timeoutSec1) { + inaccessTimeoutCounter += timeoutSec2 - timeoutSec1; + timeoutSec1 = time(NULL); + } + usleep(100000); + retry = 1; + } else { + retry = 0; + } + } else if ( rsp->ccode == 0xc0 ) { + /* Handle node busy timeout */ + if (upgradeTimeoutCounter < upgradeTimeout) { + timeoutSec2 = time(NULL); + if (timeoutSec2 > timeoutSec1) { + timeoutSec1 = time(NULL); + upgradeTimeoutCounter += timeoutSec2 - timeoutSec1; + } + usleep(100000); + retry = 1; + } else { + retry = 0; + } + } else { +# ifdef ENABLE_OPENIPMI_V39_PATCH + if (rsp->ccode == IPMI_CC_OK) { + errorCount = 0 ; + } +# endif + retry = 0; + if (req.msg.netfn == IPMI_NETFN_PICMG + && req.msg.cmd == HPMFWUPG_UPLOAD_FIRMWARE_BLOCK + && (!isValidSize)) { + lprintf(LOG_INFO, + "Buffer length is now considered valid"); + isValidSize = TRUE; + } + } + } while (retry); + return rsp; +} + +int +HpmfwupgWaitLongDurationCmd(struct ipmi_intf *intf, + struct HpmfwupgUpgradeCtx *pFwupgCtx) +{ + int rc = HPMFWUPG_SUCCESS; + unsigned int upgradeTimeout = 0; + unsigned int timeoutSec1, timeoutSec2; + struct HpmfwupgGetUpgradeStatusCtx upgStatusCmd; + /* If we are not in upgrade context, we use default timeout values */ + if (pFwupgCtx != NULL) { + upgradeTimeout = (unsigned int)(pFwupgCtx->targetCap.upgradeTimeout*5); + if (verbose) { + printf("Use File Upgrade Capabilities: %i seconds\n", + upgradeTimeout); + } + } else { + /* Try to retreive from Caps */ + struct HpmfwupgGetTargetUpgCapabilitiesCtx targetCapCmd; + if(HpmfwupgGetTargetUpgCapabilities(intf, &targetCapCmd) != HPMFWUPG_SUCCESS) { + upgradeTimeout = HPMFWUPG_DEFAULT_UPGRADE_TIMEOUT; + if (verbose) { + printf("Use default timeout: %i seconds\n", + upgradeTimeout); + } + } else { + upgradeTimeout = (unsigned int)(targetCapCmd.resp.upgradeTimeout * 5); + if (verbose) { + printf("Use Command Upgrade Capabilities Timeout: %i seconds\n", + upgradeTimeout); + } + } + } + if (rc == HPMFWUPG_SUCCESS) { + /* Poll upgrade status until completion or timeout*/ + timeoutSec1 = time(NULL); + timeoutSec2 = time(NULL); + rc = HpmfwupgGetUpgradeStatus(intf, &upgStatusCmd, + pFwupgCtx, 1); + } + while ( + /* With KCS: Cover the case where we sometime + * receive d5 (on the first get status) from + * the ipmi driver. + */ + (upgStatusCmd.resp.lastCmdCompCode != 0x00 ) + && ((timeoutSec2 - timeoutSec1) < upgradeTimeout ) + && (rc == HPMFWUPG_SUCCESS)) { + /* Must wait at least 1000 ms between status requests */ + usleep(1000000); + timeoutSec2 = time(NULL); + rc = HpmfwupgGetUpgradeStatus(intf, &upgStatusCmd, pFwupgCtx, 1); +/* + * printf("Get Status: %x - %x = %x _ %x [%x]\n", + ( timeoutSec2, timeoutSec1, + * (timeoutSec2 - timeoutSec1), + * upgradeTimeout, rc); + */ + } + if (upgStatusCmd.resp.lastCmdCompCode != 0x00) { + if (verbose) { + lprintf(LOG_NOTICE, + "Error waiting for command %x, compcode = %x", + upgStatusCmd.resp.cmdInProcess, + upgStatusCmd.resp.lastCmdCompCode); + } + rc = HPMFWUPG_ERROR; + } + return rc; +} + +unsigned char +HpmfwupgCalculateChecksum(unsigned char *pData, unsigned int length) +{ + unsigned char checksum = 0; + int dataIdx = 0; + for (dataIdx = 0; dataIdx < length; dataIdx++) { + checksum += pData[dataIdx]; + } + return checksum; +} + +void +HpmfwupgPrintUsage(void) +{ + lprintf(LOG_NOTICE, +"help - This help menu."); + lprintf(LOG_NOTICE, +""); + lprintf(LOG_NOTICE, +"check - Check the target information."); + lprintf(LOG_NOTICE, +"check <file> - If the user is unsure of what update is going to be "); + lprintf(LOG_NOTICE, +" This will display the existing target version and"); + lprintf(LOG_NOTICE, +" image version on the screen"); + lprintf(LOG_NOTICE, +""); + lprintf(LOG_NOTICE, +"upgrade <file> [component x...] [force] [activate]"); + lprintf(LOG_NOTICE, +" - Copies components from a valid HPM.1 image to the target."); + lprintf(LOG_NOTICE, +" If one or more components specified by \"component\","); + lprintf(LOG_NOTICE, +" only the specified components are copied."); + lprintf(LOG_NOTICE, +" Otherwise, all the image components are copied."); + lprintf(LOG_NOTICE, +" Before copy, each image component undergoes a version check"); + lprintf(LOG_NOTICE, +" and can be skipped if the target component version"); + lprintf(LOG_NOTICE, +" is the same or more recent."); + lprintf(LOG_NOTICE, +" Use \"force\" to bypass the version check results."); + lprintf(LOG_NOTICE, +" Make sure to check the versions first using the"); + lprintf(LOG_NOTICE, +" \"check <file>\" command."); + lprintf(LOG_NOTICE, +" If \"activate\" is specified, the newly uploaded firmware"); + lprintf(LOG_NOTICE, +" is activated."); + lprintf(LOG_NOTICE, +"upgstatus - Returns the status of the last long duration command."); + lprintf(LOG_NOTICE, +""); + lprintf(LOG_NOTICE, +"compare <file> - Perform \"Comparison of the Active Copy\" action for all the"); + lprintf(LOG_NOTICE, +" components present in the file."); + lprintf(LOG_NOTICE, +"compare <file> component x - Compare only component <x> from the given <file>"); + lprintf(LOG_NOTICE, +"activate - Activate the newly uploaded firmware."); + lprintf(LOG_NOTICE, +"activate norollback - Activate the newly uploaded firmware but inform"); + lprintf(LOG_NOTICE, +" the target to not automatically rollback if "); + lprintf(LOG_NOTICE, +" the upgrade fails."); + lprintf(LOG_NOTICE, +""); + lprintf(LOG_NOTICE, +"targetcap - Get the target upgrade capabilities."); + lprintf(LOG_NOTICE, +""); + lprintf(LOG_NOTICE, +"compprop <id> <prop> - Get specified component properties from the target."); + lprintf(LOG_NOTICE, +" Valid component <id>: 0-7 "); + lprintf(LOG_NOTICE, +" Properties <prop> can be one of the following: "); + lprintf(LOG_NOTICE, +" 0- General properties"); + lprintf(LOG_NOTICE, +" 1- Current firmware version"); + lprintf(LOG_NOTICE, +" 2- Description string"); + lprintf(LOG_NOTICE, +" 3- Rollback firmware version"); + lprintf(LOG_NOTICE, +" 4- Deferred firmware version"); + lprintf(LOG_NOTICE, +""); + lprintf(LOG_NOTICE, +"abort - Abort the on-going firmware upgrade."); + lprintf(LOG_NOTICE, +""); + lprintf(LOG_NOTICE, +"rollback - Performs a manual rollback on the IPM Controller."); + lprintf(LOG_NOTICE, +" firmware"); + lprintf(LOG_NOTICE, +"rollbackstatus - Query the rollback status."); + lprintf(LOG_NOTICE, +""); + lprintf(LOG_NOTICE, +"selftestresult - Query the self test results.\n"); +} + +int +ipmi_hpmfwupg_main(struct ipmi_intf *intf, int argc, char **argv) +{ + int rc = HPMFWUPG_SUCCESS; + int activateFlag = 0x00; + int componentMask = 0; + int componentId = 0; + int option = 0; + + lprintf(LOG_DEBUG,"ipmi_hpmfwupg_main()"); + lprintf(LOG_NOTICE, "\nPICMG HPM.1 Upgrade Agent %d.%d.%d: \n", + HPMFWUPG_VERSION_MAJOR, HPMFWUPG_VERSION_MINOR, + HPMFWUPG_VERSION_SUBMINOR); + if (argc < 1) { + lprintf(LOG_ERR, "Not enough parameters given."); + HpmfwupgPrintUsage(); + return HPMFWUPG_ERROR; + } + if (strcmp(argv[0], "help") == 0) { + HpmfwupgPrintUsage(); + return HPMFWUPG_SUCCESS; + } else if ((strcmp(argv[0], "check") == 0)) { + /* hpm check */ + if (argv[1] == NULL) { + rc = HpmfwupgTargetCheck(intf,VIEW_MODE); + } else { + /* hpm check <filename> */ + rc = HpmfwupgTargetCheck(intf,0); + if (rc == HPMFWUPG_SUCCESS) { + rc = HpmfwupgUpgrade(intf, argv[1], 0, + 0, VIEW_MODE); + } + } + } else if (strcmp(argv[0], "upgrade") == 0) { + int i =0; + for (i=1; i< argc ; i++) { + if (strcmp(argv[i],"activate") == 0) { + activateFlag = 1; + } + /* hpm upgrade <filename> force */ + if (strcmp(argv[i],"force") == 0) { + option |= FORCE_MODE; + } + /* hpm upgrade <filename> component <comp Id> */ + if (strcmp(argv[i],"component") == 0) { + if (i+1 < argc) { + /* Error Checking */ + if (str2int(argv[i+1], &componentId) != 0 + || componentId < 0 + || componentId > HPMFWUPG_COMPONENT_ID_MAX) { + lprintf(LOG_ERR, + "Given Component ID '%s' is invalid.", + argv[i+1]); + lprintf(LOG_ERR, + "Valid Compoment ID is: <0..7>"); + return HPMFWUPG_ERROR; + } + if( verbose ) { + lprintf(LOG_NOTICE, + "Component Id %d provided", + componentId ); + } + componentMask |= 1 << componentId; + } else { + /* That indicates the user has + * given component on console but + * not given any ID + */ + lprintf(LOG_NOTICE, + "No component Id provided\n"); + return HPMFWUPG_ERROR; + } + } + if (strcmp(argv[i],"debug") == 0) { + option |= DEBUG_MODE; + } + } + rc = HpmfwupgTargetCheck(intf, 0); + if (rc == HPMFWUPG_SUCCESS) { + /* Call the Upgrade function to start the upgrade */ + rc = HpmfwupgUpgrade(intf, argv[1], activateFlag, + componentMask, option); + } + } else if (strcmp(argv[0], "compare") == 0) { + int i = 0; + for (i=1; i< argc; i++) { + /* hpm compare <file> [component x...] */ + if (strcmp(argv[i],"component") == 0) { + if (i+1 < argc) { + /* Error Checking */ + if (str2int(argv[i+1], &componentId) != 0 + || componentId < 0 + || componentId > HPMFWUPG_COMPONENT_ID_MAX) { + lprintf(LOG_ERR, + "Given Component ID '%s' is invalid.", + argv[i+1]); + lprintf(LOG_ERR, + "Valid Compoment ID is: <0..7>"); + return HPMFWUPG_ERROR; + } + if( verbose ) { + lprintf(LOG_NOTICE, + "Component Id %d provided", + componentId); + } + componentMask|= 1 << componentId; + } else { + /* That indicates the user + * has given component on + * console but not + * given any ID + */ + lprintf(LOG_NOTICE, + "No component Id provided\n"); + return HPMFWUPG_ERROR; + } + } else if (strcmp(argv[i],"debug") == 0) { + option|= DEBUG_MODE; + } + } + option|= (COMPARE_MODE); + rc = HpmfwupgTargetCheck(intf, 0); + if (rc == HPMFWUPG_SUCCESS) { + rc = HpmfwupgUpgrade(intf, argv[1], 0, + componentMask, option); + } + } else if ((argc >= 1) && (strcmp(argv[0], "activate") == 0)) { + struct HpmfwupgActivateFirmwareCtx cmdCtx; + if ((argc == 2) && (strcmp(argv[1], "norollback") == 0)) { + cmdCtx.req.rollback_override = 1; + } else { + cmdCtx.req.rollback_override = 0; + } + rc = HpmfwupgActivateFirmware(intf, &cmdCtx, NULL); + } else if ((argc == 1) && (strcmp(argv[0], "targetcap") == 0)) { + struct HpmfwupgGetTargetUpgCapabilitiesCtx cmdCtx; + verbose++; + rc = HpmfwupgGetTargetUpgCapabilities(intf, &cmdCtx); + } else if ((argc == 3) && (strcmp(argv[0], "compprop") == 0)) { + struct HpmfwupgGetComponentPropertiesCtx cmdCtx; + if (str2uchar(argv[1], &(cmdCtx.req.componentId)) != 0 + || cmdCtx.req.componentId > 7) { + lprintf(LOG_ERR, + "Given Component ID '%s' is invalid.", + argv[1]); + lprintf(LOG_ERR, + "Valid Compoment ID is: <0..7>"); + return (-1); + } + if (str2uchar(argv[2], &(cmdCtx.req.selector)) != 0 + || cmdCtx.req.selector > 4) { + lprintf(LOG_ERR, + "Given Properties selector '%s' is invalid.", + argv[2]); + lprintf(LOG_ERR, + "Valid Properties selector is: <0..4>"); + return (-1); + } + verbose++; + rc = HpmfwupgGetComponentProperties(intf, &cmdCtx); + } else if ((argc == 1) && (strcmp(argv[0], "abort") == 0)) { + struct HpmfwupgAbortUpgradeCtx cmdCtx; + verbose++; + rc = HpmfwupgAbortUpgrade(intf, &cmdCtx); + } else if ((argc == 1) && (strcmp(argv[0], "upgstatus") == 0)) { + struct HpmfwupgGetUpgradeStatusCtx cmdCtx; + verbose++; + rc = HpmfwupgGetUpgradeStatus(intf, &cmdCtx, NULL, 0); + } else if ((argc == 1) && (strcmp(argv[0], "rollback") == 0)) { + struct HpmfwupgManualFirmwareRollbackCtx cmdCtx; + verbose++; + rc = HpmfwupgManualFirmwareRollback(intf, &cmdCtx); + } else if ((argc == 1) && (strcmp(argv[0], "rollbackstatus") == 0)) { + struct HpmfwupgQueryRollbackStatusCtx cmdCtx; + verbose++; + rc = HpmfwupgQueryRollbackStatus(intf, &cmdCtx, NULL); + } else if ((argc == 1) && (strcmp(argv[0], "selftestresult") == 0)) { + struct HpmfwupgQuerySelftestResultCtx cmdCtx; + verbose++; + rc = HpmfwupgQuerySelftestResult(intf, &cmdCtx, NULL); + } else { + lprintf(LOG_ERR, "Invalid HPM command: %s", argv[0]); + HpmfwupgPrintUsage(); + rc = HPMFWUPG_ERROR; + } + return rc; +} + |