Security-57031.20.26.tar.gz

[apple/security.git] / Security / libsecurity_codesigning / lib / StaticCode.h

/*
 * Copyright (c) 2006-2014 Apple Inc. All Rights Reserved.
 * 
 * @APPLE_LICENSE_HEADER_START@
 * 
 * This file contains Original Code and/or Modifications of Original Code
 * as defined in and that are subject to the Apple Public Source License
 * Version 2.0 (the 'License'). You may not use this file except in
 * compliance with the License. Please obtain a copy of the License at
 * http://www.opensource.apple.com/apsl/ and read it before using this
 * file.
 * 
 * The Original Code and all software distributed under the License are
 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
 * Please see the License for the specific language governing rights and
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 * 
 * @APPLE_LICENSE_HEADER_END@
 */

//
// StaticCode - SecStaticCode API objects
//
#ifndef _H_STATICCODE
#define _H_STATICCODE

#include "cs.h"
#include "csutilities.h"
#include "Requirements.h"
#include "requirement.h"
#include "diskrep.h"
#include "codedirectory.h"
#include <Security/SecTrust.h>
#include <CoreFoundation/CFData.h>
#include <security_utilities/dispatch.h>

namespace Security {
namespace CodeSigning {


class SecCode;


//
// A SecStaticCode object represents the file system version of some code.
// There's a lot of pieces to this, and we'll bring them all into
// memory here (lazily) and let you fondle them with ease.
//
// Note that concrete knowledge of where stuff is stored resides in the DiskRep
// object we hold. DiskReps allocate, retrieve, and return data to us. We are
// responsible for interpreting, caching, and validating them. (In other words,
// DiskReps know where stuff is and how it is stored, but we know what it means.)
//
// Data accessors (returning CFDataRef, CFDictionaryRef, various pointers, etc.)
// cache those values internally and return unretained(!) references ("Get" style)
// that are valid as long as the SecStaticCode object's lifetime, or until
// resetValidity() is called, whichever is sooner. If you need to keep them longer,
// retain or copy them as needed.
//
class SecStaticCode : public SecCFObject {
        NOCOPY(SecStaticCode)
        
protected:
        //
        // A context for resource validation operations, to tailor error response.
        // The base class throws an exception immediately and ignores detail data.
        // 
        class ValidationContext {
        public:
                ValidationContext(SecStaticCode &c) : code(c) { }
                virtual ~ValidationContext();
                virtual void reportProblem(OSStatus rc, CFStringRef type, CFTypeRef value);
                
                virtual OSStatus osStatus()     { return noErr; }
                virtual void throwMe()          { }
                
                SecStaticCode &code;
        };
        
        //
        // A CollectingContext collects all error details and throws an annotated final error.
        //
        class CollectingContext : public ValidationContext {
        public:
                CollectingContext(SecStaticCode &c) : ValidationContext(c), mStatus(errSecSuccess) { }
                void reportProblem(OSStatus rc, CFStringRef type, CFTypeRef value);
                
                OSStatus osStatus()             { return mStatus; }
                operator OSStatus () const              { return mStatus; }
                void throwMe() __attribute__((noreturn));

        private:
                CFRef<CFMutableDictionaryRef> mCollection;
                OSStatus mStatus;
                Mutex mLock;
        };

public:
        SECCFFUNCTIONS(SecStaticCode, SecStaticCodeRef,
                errSecCSInvalidObjectRef, gCFObjects().StaticCode)
        
        // implicitly convert SecCodeRefs to their SecStaticCodeRefs
        static SecStaticCode *requiredStatic(SecStaticCodeRef ref);     // convert SecCodeRef
        static SecCode *optionalDynamic(SecStaticCodeRef ref); // extract SecCodeRef or NULL if static

        SecStaticCode(DiskRep *rep);
    virtual ~SecStaticCode() throw();

    void initializeFromParent(const SecStaticCode& parent);

    bool equal(SecCFObject &other);
    CFHashCode hash();
        
        void detachedSignature(CFDataRef sig);          // attach an explicitly given detached signature
        void checkForSystemSignature();                         // check for and attach system-supplied detached signature

        const CodeDirectory *codeDirectory(bool check = true);
        CFDataRef cdHash();
        CFDataRef signature();
        CFAbsoluteTime signingTime();
        CFAbsoluteTime signingTimestamp();
        bool isSigned() { return codeDirectory(false) != NULL; }
        DiskRep *diskRep() { return mRep; }
        bool isDetached() const { return mRep->base() != mRep; }
        std::string mainExecutablePath() { return mRep->mainExecutablePath(); }
        CFURLRef copyCanonicalPath() const { return mRep->copyCanonicalPath(); }
        std::string identifier() { return codeDirectory()->identifier(); }
        const char *teamID() { return codeDirectory()->teamID(); }
        std::string format() const { return mRep->format(); }
        std::string signatureSource();
        virtual CFDataRef component(CodeDirectory::SpecialSlot slot, OSStatus fail = errSecCSSignatureFailed);
        virtual CFDictionaryRef infoDictionary();

        CFDictionaryRef entitlements();

        CFDictionaryRef resourceDictionary(bool check = true);
        CFURLRef resourceBase();
        CFDataRef resource(std::string path);
        CFDataRef resource(std::string path, ValidationContext &ctx);
        void validateResource(CFDictionaryRef files, std::string path, bool isSymlink, ValidationContext &ctx, SecCSFlags flags, uint32_t version);
        
        bool flag(uint32_t tested);

        SecCodeCallback monitor() const { return mMonitor; }
        void setMonitor(SecCodeCallback monitor) { mMonitor = monitor; }
        CFTypeRef reportEvent(CFStringRef stage, CFDictionaryRef info);
        void reportProgress(unsigned amount = 1);
        
        void setValidationFlags(SecCSFlags flags) { mValidationFlags = flags; }
        void setValidationModifiers(CFDictionaryRef modifiers);
        
        void resetValidity();                                           // clear validation caches (if something may have changed)
        
        bool validated() const  { return mValidated; }
        bool revocationChecked() const { return mRevocationChecked; }
        bool valid() const
                { assert(validated()); return mValidated && (mValidationResult == errSecSuccess); }
        bool validatedExecutable() const        { return mExecutableValidated; }
        bool validatedResources() const { return mResourcesValidated; }
        
        void prepareProgress(unsigned workload);
        void cancelValidation();

        void validateDirectory();
        virtual void validateComponent(CodeDirectory::SpecialSlot slot, OSStatus fail = errSecCSSignatureFailed);
        void validateNonResourceComponents();
        unsigned estimateResourceWorkload();
        void validateResources(SecCSFlags flags);
        void validateExecutable();
        void validateNestedCode(CFURLRef path, const ResourceSeal &seal, SecCSFlags flags, bool isFramework);
        
        const Requirements *internalRequirements();
        const Requirement *internalRequirement(SecRequirementType type);
        const Requirement *designatedRequirement();
        const Requirement *defaultDesignatedRequirement();              // newly allocated (caller owns)
        
        void validateRequirements(SecRequirementType type, SecStaticCode *target,
                OSStatus nullError = errSecSuccess);                                                                            // target against my [type], throws
        void validateRequirement(const Requirement *req, OSStatus failure);             // me against [req], throws
        bool satisfiesRequirement(const Requirement *req, OSStatus failure);    // me against [req], returns on clean miss
        
        // certificates are available after signature validation (they are stored in the CMS signature)
        SecCertificateRef cert(int ix);         // get a cert from the cert chain
        CFArrayRef certificates();                      // get the entire certificate chain
        
        CFDictionaryRef signingInformation(SecCSFlags flags); // omnibus information-gathering API (creates new dictionary)

        static bool isAppleDeveloperCert(CFArrayRef certs); // determines if this is an apple developer certificate for libraray validation

public:
        void staticValidate(SecCSFlags flags, const SecRequirement *req);
        void staticValidateCore(SecCSFlags flags, const SecRequirement *req);
        
protected:
        CFDictionaryRef getDictionary(CodeDirectory::SpecialSlot slot, bool check = true); // component value as a dictionary
        bool verifySignature();
        CFArrayRef verificationPolicies();

        static void checkOptionalResource(CFTypeRef key, CFTypeRef value, void *context);
        bool hasWeakResourceRules(CFDictionaryRef rulesDict, uint32_t version, CFArrayRef allowedOmissions);

        void handleOtherArchitectures(void (^handle)(SecStaticCode* other));

private:
        void validateOtherVersions(CFURLRef path, SecCSFlags flags, SecRequirementRef req, SecStaticCode *code);

private:
        RefPointer<DiskRep> mRep;                       // on-disk representation
        CFRef<CFDataRef> mDetachedSig;          // currently applied explicit detached signature
        
        // private validation modifiers (only used by Gatekeeper checkfixes)
        MacOSErrorSet mTolerateErrors;          // soft error conditions to ignore
        CFRef<CFArrayRef> mAllowOmissions;      // additionally allowed resource omissions
        
        // master validation state
        bool mValidated;                                        // core validation was attempted
        bool mRevocationChecked;                        // the signature was checked for revocation
        OSStatus mValidationResult;                     // outcome of core validation
        bool mValidationExpired;                        // outcome had expired certificates
        
        // static executable validation state (nested within mValidated/mValid)
        bool mExecutableValidated;                      // tried to validate executable file
        OSStatus mExecutableValidResult;                // outcome if mExecutableValidated

        // static resource validation state (nested within mValidated/mValid)
        bool mResourcesValidated;                       // tried to validate resources
        bool mResourcesDeep;                            // cached validation was deep
        OSStatus mResourcesValidResult;                 // outcome if mResourceValidated or...
        ValidationContext *mResourcesValidContext; // resource error reporting funnel
        
        // validation progress state (set when static validation starts)
        SecCSFlags mValidationFlags;            // API flags passed to static validation
        unsigned mTotalWork;                            // total expected work (arbitrary units)
        unsigned mCurrentWork;                          // currently completed work
        bool mCancelPending;                            // cancellation was requested
        Dispatch::Queue mProgressQueue;         // progress reporting queue

        // cached contents
        CFRef<CFDataRef> mDir;                          // code directory data
        CFRef<CFDataRef> mSignature;            // CMS signature data
        CFAbsoluteTime mSigningTime;            // (signed) signing time
        CFAbsoluteTime mSigningTimestamp;               // Timestamp time (from timestamping authority)
        CFRef<CFDataRef> mCache[cdSlotCount]; // NULL => not tried, kCFNull => absent, other => present
        
        // alternative cache forms (storage may depend on cached contents above)
        CFRef<CFDictionaryRef> mInfoDict;       // derived from mCache slot
        CFRef<CFDictionaryRef> mEntitlements; // derived from mCache slot
        CFRef<CFDictionaryRef> mResourceDict; // derived from mCache slot
        const Requirement *mDesignatedReq;      // cached designated req if we made one up
        CFRef<CFDataRef> mCDHash;                       // hash of CodeDirectory
        
        bool mGotResourceBase;                          // asked mRep for resourceBasePath
        CFRef<CFURLRef> mResourceBase;          // URL form of resource base directory

        SecCodeCallback mMonitor;                       // registered monitor callback

        LimitedAsync *mLimitedAsync;            // limited async workers for verification

        // signature verification outcome (mTrust == NULL => not done yet)
        CFRef<SecTrustRef> mTrust;                      // outcome of crypto validation (valid or not)
        CFRef<CFArrayRef> mCertChain;
        CSSM_TP_APPLE_EVIDENCE_INFO *mEvalDetails;
};


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

#endif // !_H_STATICCODE