Re-land: content: Enable native GpuMemoryBuffers by default on MacOSX.
[chromium-blink-merge.git] / courgette / courgette.h
blobbf6c925fedd9dac3d7dd2b91e89e9ed14dda2058
1 // Copyright (c) 2011 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef COURGETTE_COURGETTE_H_
6 #define COURGETTE_COURGETTE_H_
8 #include <stddef.h> // Required to define size_t on GCC
10 #include "base/files/file_path.h"
12 namespace courgette {
14 // Status codes for Courgette APIs.
16 // Client code should only rely on the distintion between C_OK and the other
17 // status codes.
19 enum Status {
20 C_OK = 1, // Successful operation.
22 C_GENERAL_ERROR = 2, // Error other than listed below.
24 C_READ_OPEN_ERROR = 3, // Could not open input file for reading.
25 C_READ_ERROR = 4, // Could not read from opened input file.
27 C_WRITE_OPEN_ERROR = 3, // Could not open output file for writing.
28 C_WRITE_ERROR = 4, // Could not write to opened output file.
30 C_BAD_ENSEMBLE_MAGIC = 5, // Ensemble patch has bad magic.
31 C_BAD_ENSEMBLE_VERSION = 6, // Ensemble patch has wrong version.
32 C_BAD_ENSEMBLE_HEADER = 7, // Ensemble patch has corrupt header.
33 C_BAD_ENSEMBLE_CRC = 8, // Ensemble patch has corrupt data.
35 C_BAD_TRANSFORM = 12, // Transform mis-specified.
36 C_BAD_BASE = 13, // Base for transform malformed.
38 C_BINARY_DIFF_CRC_ERROR = 14, // Internal diff input doesn't have expected
39 // CRC.
41 // Internal errors.
42 C_STREAM_ERROR = 20, // Unexpected error from streams.h.
43 C_STREAM_NOT_CONSUMED = 21, // Stream has extra data, is expected to be
44 // used up.
45 C_SERIALIZATION_FAILED = 22, //
46 C_DESERIALIZATION_FAILED = 23, //
47 C_INPUT_NOT_RECOGNIZED = 24, // Unrecognized input (not an executable).
48 C_DISASSEMBLY_FAILED = 25, //
49 C_ASSEMBLY_FAILED = 26, //
50 C_ADJUSTMENT_FAILED = 27, //
51 C_TRIM_FAILED = 28, // TrimLabels failed
54 // What type of executable is something
55 // This is part of the patch format. Never reuse an id number.
56 enum ExecutableType {
57 EXE_UNKNOWN = 0,
58 EXE_WIN_32_X86 = 1,
59 EXE_ELF_32_X86 = 2,
60 EXE_ELF_32_ARM = 3,
61 EXE_WIN_32_X64 = 4,
64 class SinkStream;
65 class SinkStreamSet;
66 class SourceStream;
67 class SourceStreamSet;
69 class AssemblyProgram;
70 class EncodedProgram;
72 // Applies the patch to the bytes in |old| and writes the transformed ensemble
73 // to |output|.
74 // Returns C_OK unless something went wrong.
75 Status ApplyEnsemblePatch(SourceStream* old, SourceStream* patch,
76 SinkStream* output);
78 // Applies the patch in |patch_file_name| to the bytes in |old_file_name| and
79 // writes the transformed ensemble to |new_file_name|.
80 // Returns C_OK unless something went wrong.
81 // This function first validates that the patch file has a proper header, so the
82 // function can be used to 'try' a patch.
83 Status ApplyEnsemblePatch(const base::FilePath::CharType* old_file_name,
84 const base::FilePath::CharType* patch_file_name,
85 const base::FilePath::CharType* new_file_name);
87 // Generates a patch that will transform the bytes in |old| into the bytes in
88 // |target|.
89 // Returns C_OK unless something when wrong (unexpected).
90 Status GenerateEnsemblePatch(SourceStream* old, SourceStream* target,
91 SinkStream* patch);
93 // Detects the type of an executable file, and it's length. The length
94 // may be slightly smaller than some executables (like ELF), but will include
95 // all bytes the courgette algorithm has special benefit for.
96 // On sucess:
97 // Fill in type and detected_length, and return C_OK.
98 // On failure:
99 // Fill in type with UNKNOWN, detected_length with 0, and
100 // return C_INPUT_NOT_RECOGNIZED
101 Status DetectExecutableType(const void* buffer, size_t length,
102 ExecutableType* type,
103 size_t* detected_length);
105 // Attempts to detect the type of executable, and parse it with the
106 // appropriate tools, storing the pointer to the AssemblyProgram in |*output|.
107 // Returns C_OK if successful, otherwise returns an error status and sets
108 // |*output| to NULL.
109 Status ParseDetectedExecutable(const void* buffer, size_t length,
110 AssemblyProgram** output);
112 // Trims labels used fewer than a given number of times from an
113 // assembly program in-place.
114 Status TrimLabels(AssemblyProgram* program);
116 // Converts |program| into encoded form, returning it as |*output|.
117 // Returns C_OK if succeeded, otherwise returns an error status and
118 // sets |*output| to NULL
119 Status Encode(AssemblyProgram* program, EncodedProgram** output);
121 // Serializes |encoded| into the stream set.
122 // Returns C_OK if succeeded, otherwise returns an error status.
123 Status WriteEncodedProgram(EncodedProgram* encoded, SinkStreamSet* sink);
125 // Assembles |encoded|, emitting the bytes into |buffer|.
126 // Returns C_OK if succeeded, otherwise returns an error status and leaves
127 // |buffer| in an undefined state.
128 Status Assemble(EncodedProgram* encoded, SinkStream* buffer);
130 // Deserializes program from the stream set.
131 // Returns C_OK if succeeded, otherwise returns an error status and
132 // sets |*output| to NULL
133 Status ReadEncodedProgram(SourceStreamSet* source, EncodedProgram** output);
135 // Used to free an AssemblyProgram returned by other APIs.
136 void DeleteAssemblyProgram(AssemblyProgram* program);
138 // Used to free an EncodedProgram returned by other APIs.
139 void DeleteEncodedProgram(EncodedProgram* encoded);
141 // Adjusts |program| to look more like |model|.
143 Status Adjust(const AssemblyProgram& model, AssemblyProgram *program);
145 } // namespace courgette
146 #endif // COURGETTE_COURGETTE_H_