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// Copyright (c) .NET Foundation and contributors. All rights reserved. Licensed under the Microsoft Reciprocal License. See LICENSE.TXT file in the project root for full license information.
#include "precomp.h"
extern "C" HRESULT PseudoBundleInitialize(
__in DWORD64 qwEngineVersion,
__in BURN_PACKAGE* pPackage,
__in BOOL fPerMachine,
__in_z LPCWSTR wzId,
__in BOOTSTRAPPER_RELATION_TYPE relationType,
__in BOOTSTRAPPER_PACKAGE_STATE state,
__in BOOL fCached,
__in_z LPCWSTR wzFilePath,
__in_z LPCWSTR wzLocalSource,
__in_z_opt LPCWSTR wzDownloadSource,
__in DWORD64 qwSize,
__in BOOL fVital,
__in_z_opt LPCWSTR wzInstallArguments,
__in_z_opt LPCWSTR wzRepairArguments,
__in_z_opt LPCWSTR wzUninstallArguments,
__in_opt BURN_DEPENDENCY_PROVIDER* pDependencyProvider,
__in_opt const BYTE* pbHash,
__in const DWORD cbHash
)
{
HRESULT hr = S_OK;
LPWSTR sczRelationTypeCommandLineSwitch = NULL;
BURN_PAYLOAD* pPayload = NULL;
LPCWSTR wzRelationTypeCommandLine = CoreRelationTypeToCommandLineString(relationType);
if (wzRelationTypeCommandLine)
{
hr = StrAllocFormatted(&sczRelationTypeCommandLineSwitch, L" -%ls", wzRelationTypeCommandLine);
}
// Initialize the single payload, and fill out all the necessary fields
pPackage->payloads.rgItems = (BURN_PAYLOAD_GROUP_ITEM*)MemAlloc(sizeof(BURN_PAYLOAD_GROUP_ITEM), TRUE);
ExitOnNull(pPackage->payloads.rgItems, hr, E_OUTOFMEMORY, "Failed to allocate space for burn payload group inside of related bundle struct");
pPackage->payloads.cItems = 1;
pPayload = (BURN_PAYLOAD*)MemAlloc(sizeof(BURN_PAYLOAD), TRUE);
ExitOnNull(pPayload, hr, E_OUTOFMEMORY, "Failed to allocate space for burn payload inside of related bundle struct");
pPackage->payloads.rgItems[0].pPayload = pPayload;
pPayload->packaging = BURN_PAYLOAD_PACKAGING_EXTERNAL;
pPayload->qwFileSize = qwSize;
hr = StrAllocString(&pPayload->sczKey, wzId, 0);
ExitOnFailure(hr, "Failed to copy key for pseudo bundle payload.");
hr = StrAllocString(&pPayload->sczFilePath, wzFilePath, 0);
ExitOnFailure(hr, "Failed to copy filename for pseudo bundle.");
hr = StrAllocString(&pPayload->sczSourcePath, wzLocalSource, 0);
ExitOnFailure(hr, "Failed to copy local source path for pseudo bundle.");
if (wzDownloadSource && *wzDownloadSource)
{
hr = StrAllocString(&pPayload->downloadSource.sczUrl, wzDownloadSource, 0);
ExitOnFailure(hr, "Failed to copy download source for pseudo bundle.");
}
if (pbHash)
{
pPayload->pbHash = static_cast<BYTE*>(MemAlloc(cbHash, FALSE));
ExitOnNull(pPayload->pbHash, hr, E_OUTOFMEMORY, "Failed to allocate memory for pseudo bundle payload hash.");
pPayload->cbHash = cbHash;
memcpy_s(pPayload->pbHash, pPayload->cbHash, pbHash, cbHash);
}
if (BOOTSTRAPPER_RELATION_UPDATE == relationType)
{
pPayload->verification = BURN_PAYLOAD_VERIFICATION_UPDATE_BUNDLE;
}
pPackage->Exe.fPseudoBundle = TRUE;
pPackage->type = BURN_PACKAGE_TYPE_EXE;
pPackage->fPerMachine = fPerMachine;
pPackage->currentState = state;
pPackage->fCached = fCached;
pPackage->qwInstallSize = qwSize;
pPackage->qwSize = qwSize;
pPackage->fVital = fVital;
hr = StrAllocString(&pPackage->sczId, wzId, 0);
ExitOnFailure(hr, "Failed to copy key for pseudo bundle.");
hr = StrAllocString(&pPackage->sczCacheId, wzId, 0);
ExitOnFailure(hr, "Failed to copy cache id for pseudo bundle.");
// If we are a self updating bundle, we don't have to have Install arguments.
if (wzInstallArguments)
{
hr = StrAllocString(&pPackage->Exe.sczInstallArguments, wzInstallArguments, 0);
ExitOnFailure(hr, "Failed to copy install arguments for related bundle package");
}
if (sczRelationTypeCommandLineSwitch)
{
hr = StrAllocConcat(&pPackage->Exe.sczInstallArguments, sczRelationTypeCommandLineSwitch, 0);
ExitOnFailure(hr, "Failed to append relation type to install arguments for related bundle package");
}
if (wzRepairArguments)
{
hr = StrAllocString(&pPackage->Exe.sczRepairArguments, wzRepairArguments, 0);
ExitOnFailure(hr, "Failed to copy repair arguments for related bundle package");
if (sczRelationTypeCommandLineSwitch)
{
hr = StrAllocConcat(&pPackage->Exe.sczRepairArguments, sczRelationTypeCommandLineSwitch, 0);
ExitOnFailure(hr, "Failed to append relation type to repair arguments for related bundle package");
}
pPackage->Exe.fRepairable = TRUE;
}
if (wzUninstallArguments)
{
hr = StrAllocString(&pPackage->Exe.sczUninstallArguments, wzUninstallArguments, 0);
ExitOnFailure(hr, "Failed to copy uninstall arguments for related bundle package");
if (sczRelationTypeCommandLineSwitch)
{
hr = StrAllocConcat(&pPackage->Exe.sczUninstallArguments, sczRelationTypeCommandLineSwitch, 0);
ExitOnFailure(hr, "Failed to append relation type to uninstall arguments for related bundle package");
}
pPackage->fUninstallable = TRUE;
}
// Only support progress from engines that are compatible (aka: version greater than or equal to last protocol breaking change *and* versions that are older or the same as this engine).
pPackage->Exe.protocol = (FILEMAKEVERSION(3, 6, 2221, 0) <= qwEngineVersion && qwEngineVersion <= FILEMAKEVERSION(rmj, rmm, rup, rpr)) ? BURN_EXE_PROTOCOL_TYPE_BURN : BURN_EXE_PROTOCOL_TYPE_NONE;
// All versions of Burn past v3.9 RTM support suppressing ancestors.
pPackage->Exe.fSupportsAncestors = FILEMAKEVERSION(3, 9, 1006, 0) <= qwEngineVersion;
if (pDependencyProvider)
{
pPackage->rgDependencyProviders = (BURN_DEPENDENCY_PROVIDER*)MemAlloc(sizeof(BURN_DEPENDENCY_PROVIDER), TRUE);
ExitOnNull(pPackage->rgDependencyProviders, hr, E_OUTOFMEMORY, "Failed to allocate memory for dependency providers.");
pPackage->cDependencyProviders = 1;
pPackage->rgDependencyProviders[0].fImported = pDependencyProvider->fImported;
hr = StrAllocString(&pPackage->rgDependencyProviders[0].sczKey, pDependencyProvider->sczKey, 0);
ExitOnFailure(hr, "Failed to copy key for pseudo bundle.");
hr = StrAllocString(&pPackage->rgDependencyProviders[0].sczVersion, pDependencyProvider->sczVersion, 0);
ExitOnFailure(hr, "Failed to copy version for pseudo bundle.");
hr = StrAllocString(&pPackage->rgDependencyProviders[0].sczDisplayName, pDependencyProvider->sczDisplayName, 0);
ExitOnFailure(hr, "Failed to copy display name for pseudo bundle.");
}
LExit:
ReleaseStr(sczRelationTypeCommandLineSwitch);
return hr;
}
extern "C" HRESULT PseudoBundleInitializePassthrough(
__in BURN_PACKAGE* pPassthroughPackage,
__in BURN_ENGINE_COMMAND* pInternalCommand,
__in BOOTSTRAPPER_COMMAND* pCommand,
__in BURN_PACKAGE* pPackage
)
{
Assert(BURN_PACKAGE_TYPE_EXE == pPackage->type);
HRESULT hr = S_OK;
LPWSTR sczArguments = NULL;
// Initialize the payloads, and copy the necessary fields.
pPassthroughPackage->payloads.rgItems = (BURN_PAYLOAD_GROUP_ITEM*)MemAlloc(sizeof(BURN_PAYLOAD_GROUP_ITEM) * pPackage->payloads.cItems, TRUE);
ExitOnNull(pPassthroughPackage->payloads.rgItems, hr, E_OUTOFMEMORY, "Failed to allocate space for burn package payload inside of passthrough bundle.");
pPassthroughPackage->payloads.cItems = pPackage->payloads.cItems;
for (DWORD iPayload = 0; iPayload < pPackage->payloads.cItems; ++iPayload)
{
pPassthroughPackage->payloads.rgItems[iPayload].pPayload = pPackage->payloads.rgItems[iPayload].pPayload;
}
pPassthroughPackage->Exe.fPseudoBundle = TRUE;
pPassthroughPackage->fPerMachine = FALSE; // passthrough bundles are always launched per-user.
pPassthroughPackage->type = pPackage->type;
pPassthroughPackage->currentState = pPackage->currentState;
pPassthroughPackage->fCached = pPackage->fCached;
pPassthroughPackage->qwInstallSize = pPackage->qwInstallSize;
pPassthroughPackage->qwSize = pPackage->qwSize;
pPassthroughPackage->fVital = pPackage->fVital;
hr = StrAllocString(&pPassthroughPackage->sczId, pPackage->sczId, 0);
ExitOnFailure(hr, "Failed to copy key for passthrough pseudo bundle.");
hr = StrAllocString(&pPassthroughPackage->sczCacheId, pPackage->sczCacheId, 0);
ExitOnFailure(hr, "Failed to copy cache id for passthrough pseudo bundle.");
pPassthroughPackage->Exe.protocol = pPackage->Exe.protocol;
hr = CoreCreatePassthroughBundleCommandLine(&sczArguments, pInternalCommand, pCommand);
ExitOnFailure(hr, "Failed to create command-line arguments.");
hr = StrAllocString(&pPassthroughPackage->Exe.sczInstallArguments, sczArguments, 0);
ExitOnFailure(hr, "Failed to copy install arguments for passthrough bundle package");
hr = StrAllocString(&pPassthroughPackage->Exe.sczRepairArguments, sczArguments, 0);
ExitOnFailure(hr, "Failed to copy related arguments for passthrough bundle package");
pPassthroughPackage->Exe.fRepairable = TRUE;
hr = StrAllocString(&pPassthroughPackage->Exe.sczUninstallArguments, sczArguments, 0);
ExitOnFailure(hr, "Failed to copy uninstall arguments for passthrough bundle package");
pPassthroughPackage->fUninstallable = TRUE;
// TODO: consider bringing this back in the near future.
//if (pDependencyProvider)
//{
// pPassthroughPackage->rgDependencyProviders = (BURN_DEPENDENCY_PROVIDER*)MemAlloc(sizeof(BURN_DEPENDENCY_PROVIDER), TRUE);
// ExitOnNull(pPassthroughPackage->rgDependencyProviders, hr, E_OUTOFMEMORY, "Failed to allocate memory for dependency providers.");
// pPassthroughPackage->cDependencyProviders = 1;
// pPassthroughPackage->rgDependencyProviders[0].fImported = pDependencyProvider->fImported;
// hr = StrAllocString(&pPassthroughPackage->rgDependencyProviders[0].sczKey, pDependencyProvider->sczKey, 0);
// ExitOnFailure(hr, "Failed to copy key for pseudo bundle.");
// hr = StrAllocString(&pPassthroughPackage->rgDependencyProviders[0].sczVersion, pDependencyProvider->sczVersion, 0);
// ExitOnFailure(hr, "Failed to copy version for pseudo bundle.");
// hr = StrAllocString(&pPassthroughPackage->rgDependencyProviders[0].sczDisplayName, pDependencyProvider->sczDisplayName, 0);
// ExitOnFailure(hr, "Failed to copy display name for pseudo bundle.");
//}
LExit:
ReleaseStr(sczArguments);
return hr;
}
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