Security-58286.1.32.tar.gz

[apple/security.git] / OSX / libsecurity_codesigning / lib / diskrep.h

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 * This file contains Original Code and/or Modifications of Original Code
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 * http://www.opensource.apple.com/apsl/ and read it before using this
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//
// diskrep - disk representations of code
//
#ifndef _H_DISKREP
#define _H_DISKREP

#include "cs.h"
#include "codedirectory.h"
#include "cdbuilder.h"
#include "requirement.h"
#include "resources.h"
#include <security_utilities/macho++.h>         // for class Architecture
#include <security_utilities/refcount.h>
#include <security_utilities/superblob.h>
#include <CoreFoundation/CFData.h>

namespace Security {
namespace CodeSigning {

class ResourceBuilder;
class SecCodeSigner;


//
// DiskRep is an abstract interface to code somewhere located by
// a file system path. It presents the ability to read and write
// Code Signing-related information about such code without exposing
// the details of the storage locations or formats.
//
class DiskRep : public RefCount {
public:
        class SigningContext;
        
        typedef std::set<OSStatus> ToleratedErrors;
        
public:
        DiskRep();
        virtual ~DiskRep();
        virtual DiskRep *base();
        virtual CFDataRef component(CodeDirectory::SpecialSlot slot) = 0; // fetch component
        virtual CFDataRef identification() = 0;                                 // binary lookup identifier
        virtual std::string mainExecutablePath() = 0;                   // path to main executable
        virtual CFURLRef copyCanonicalPath() = 0;                                       // path to whole code
        virtual std::string resourcesRootPath();                                // resource directory if any [none]
        virtual void adjustResources(ResourceBuilder &builder); // adjust resource rule set [no change]
        virtual void prepareForSigning(SigningContext& context); // pre-adjust signing defaults before argument preparation [none]
        virtual Universal *mainExecutableImage();                               // Mach-O image if Mach-O based [null]
        virtual size_t signingBase();                                                   // start offset of signed area in main executable [zero]
        virtual size_t signingLimit() = 0;                                              // size of signed area in main executable

        // The executable segment, if present, denotes which part of the image can be mapped
        // into a virtual address space as executable. Not all platforms check this.
        virtual size_t execSegBase(const Architecture *arch);                   // start offset of executable segment in main executable [zero]
        virtual size_t execSegLimit(const Architecture *arch) = 0;              // size of executable segment in main executable

        virtual std::string format() = 0;                                               // human-readable type string
        virtual CFArrayRef modifiedFiles();                                             // list of files modified by signing [main execcutable only]
        virtual UnixPlusPlus::FileDesc &fd() = 0;                               // a cached file descriptor for main executable file
        virtual void flush();                                                                   // flush caches (refetch as needed)
    virtual CFDictionaryRef diskRepInformation();           // information from diskrep

        // default values for signing operations
        virtual std::string recommendedIdentifier(const SigningContext &ctx) = 0; // default identifier
        virtual CFDictionaryRef defaultResourceRules(const SigningContext &ctx); // default resource rules [none]
        virtual const Requirements *defaultRequirements(const Architecture *arch,
                const SigningContext &ctx);                                                     // default internal requirements [none]
        virtual size_t pageSize(const SigningContext &ctx);             // default main executable page size [infinite, i.e. no paging]

        virtual void strictValidate(const CodeDirectory* cd, const ToleratedErrors& tolerated, SecCSFlags flags); // perform strict validation
        virtual CFArrayRef allowedResourceOmissions();                  // allowed (default) resource omission rules

        bool mainExecutableIsMachO() { return mainExecutableImage() != NULL; }

        // shorthands
        CFDataRef signature()           { return component(cdSignatureSlot); }

public:
        class Writer;
        virtual Writer *writer();                                                               // Writer factory

public:
        // optional information that might be used to create a suitable DiskRep. All optional
        struct Context {
                Context() : arch(Architecture::none), version(NULL), offset(0), fileOnly(false), inMemory(NULL), size(0) { }
                Architecture arch;                      // explicit architecture (choose amongst universal variants)
                const char *version;            // bundle version (string)
                off_t offset;                           // explicit file offset
                bool fileOnly;                          // only consider single-file representations (no bundles etc.)
                const void *inMemory;           // consider using in-memory copy at this address
                size_t size;                            // size of this mach-o slice
        };

        static DiskRep *bestGuess(const char *path, const Context *ctx = NULL); // canonical heuristic, any path
        static DiskRep *bestFileGuess(const char *path, const Context *ctx = NULL); // ctx (if any) + fileOnly
        static DiskRep *bestGuess(const char *path, size_t archOffset); // Mach-O at given file offset only

        // versions using std::string paths (merely a convenience)
        static DiskRep *bestGuess(const std::string &path, const Context *ctx = NULL)
                { return bestGuess(path.c_str(), ctx); }
        static DiskRep *bestGuess(const std::string &path, size_t archOffset) { return bestGuess(path.c_str(), archOffset); }
        static DiskRep *bestFileGuess(const std::string &path, const Context *ctx = NULL) { return bestFileGuess(path.c_str(), ctx); }

public:
        // see DiskRep::Writer docs for why this is here
        class SigningContext {
        protected:
                SigningContext() { }

        public:
                virtual std::string sdkPath(const std::string &path) const = 0;
                virtual bool isAdhoc() const = 0;
                virtual SecCSFlags signingFlags() const = 0;

                virtual const CodeDirectory::HashAlgorithms &digestAlgorithms() const = 0;
                virtual void setDigestAlgorithms(CodeDirectory::HashAlgorithms types) = 0;
                
                void setDigestAlgorithm(CodeDirectory::HashAlgorithm type)
                {
                        CodeDirectory::HashAlgorithms types;
                        types.insert(type);
                        setDigestAlgorithms(types);
                }
        };

protected:
        // canonically derive a suggested signing identifier from some string
        static std::string canonicalIdentifier(const std::string &name);
        
public:
        static const size_t segmentedPageSize = 4096;   // default page size for system-paged signatures
        static const size_t monolithicPageSize = 0;             // default page size for non-Mach-O executables
};


//
// Write-access objects.
// At this layer they are quite abstract, carrying just the functionality needed
// for the signing machinery to place data wherever it should go. Each DiskRep subclass
// that supports writing signing data to a place inside the code needs to implement
// a subclass of Writer and return an instance in the DiskRep::writer() method when asked.
//
// The Writer class is subclassed interestingly by the Mach-O multi-architecture signing code,
// which is handled as a special case. This means that not all Writer subclass objects were made
// by DiskRep::writer, and it is unwise to assume so.
//
// Note that the methods that provide defaults for signing operations are in DiskRep rather
// than here. That's because writers abstract data *sending*, and are virtual on management
// of stored data, while DiskRep is virtual on the existing code object, which is where
// we get our defaults from.
//
class DiskRep::Writer : public RefCount {
public:
        Writer(uint32_t attrs = 0);
        virtual ~Writer();
        virtual void component(CodeDirectory::SpecialSlot slot, CFDataRef data) = 0;
        virtual uint32_t attributes() const;
        virtual void addDiscretionary(CodeDirectory::Builder &builder);
        virtual void remove();
        virtual void flush();

        bool attribute(uint32_t attr) const             { return mAttributes & attr; }
        
        void signature(CFDataRef data)                  { component(cdSignatureSlot, data); }
        void codeDirectory(const CodeDirectory *cd, CodeDirectory::SpecialSlot slot)
                { component(slot, CFTempData(cd->data(), cd->length())); }
        
private:
        Architecture mArch;
        uint32_t mAttributes;
};

//
// Writer attributes. Defaults should be off-bits.
//
enum {
        writerLastResort = 0x0001,                      // prefers not to store attributes itself
        writerNoGlobal = 0x0002,                        // has only per-architecture storage
};


//
// A prefix DiskRep that filters (only) signature-dependent behavior and passes
// all code-dependent behavior off to an underlying (different) DiskRep.
// FilterRep subclasses are typically "stacked" on top of their base DiskRep, and
// then used in their place.
//
class FilterRep : public DiskRep {
public:
        FilterRep(DiskRep *orig) : mOriginal(orig) { }
        
        DiskRep *base()                                                 { return mOriginal; }
        
        // things that look at signature components are filtered
        CFDataRef component(CodeDirectory::SpecialSlot slot) = 0;

        // the rest of the virtual behavior devolves on the original DiskRep
        CFDataRef identification()                              { return mOriginal->identification(); }
        std::string mainExecutablePath()                { return mOriginal->mainExecutablePath(); }
        CFURLRef copyCanonicalPath()                    { return mOriginal->copyCanonicalPath(); }
        std::string resourcesRootPath()                 { return mOriginal->resourcesRootPath(); }
        void adjustResources(ResourceBuilder &builder) { return mOriginal->adjustResources(builder); }
        Universal *mainExecutableImage()                { return mOriginal->mainExecutableImage(); }
        size_t signingBase()                                    { return mOriginal->signingBase(); }
        size_t signingLimit()                                   { return mOriginal->signingLimit(); }
        size_t execSegBase(const Architecture *arch)                                    { return mOriginal->execSegBase(arch); }
        size_t execSegLimit(const Architecture *arch)                                   { return mOriginal->execSegLimit(arch); }
        std::string format()                                    { return mOriginal->format(); }
        CFArrayRef modifiedFiles()                              { return mOriginal->modifiedFiles(); }
        UnixPlusPlus::FileDesc &fd()                    { return mOriginal->fd(); }
        void flush()                                                    { return mOriginal->flush(); }
        
        std::string recommendedIdentifier(const SigningContext &ctx)
                { return mOriginal->recommendedIdentifier(ctx); }
        CFDictionaryRef defaultResourceRules(const SigningContext &ctx)
                { return mOriginal->defaultResourceRules(ctx); }
        const Requirements *defaultRequirements(const Architecture *arch, const SigningContext &ctx)
                { return mOriginal->defaultRequirements(arch, ctx); }
        size_t pageSize(const SigningContext &ctx) { return mOriginal->pageSize(ctx); }

        void strictValidate(const CodeDirectory* cd, const ToleratedErrors& tolerated, SecCSFlags flags) { mOriginal->strictValidate(cd, tolerated, flags); }
        CFArrayRef allowedResourceOmissions() { return mOriginal->allowedResourceOmissions(); }

private:
        RefPointer<DiskRep> mOriginal;                  // underlying representation
};


} // end namespace CodeSigning
} // end namespace Security

#endif // !_H_DISKREP