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fix arguments for MarkInstall so packages are really marked as automatic
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1// -*- mode: cpp; mode: fold -*-
2/** Description \file edsp.h {{{
3 ######################################################################
4 Set of methods to help writing and reading everything needed for EDSP
5 with the noteable exception of reading a scenario for conversion into
6 a Cache as this is handled by edsp interface for listparser and friends
7 ##################################################################### */
8 /*}}}*/
9#ifndef PKGLIB_EDSP_H
10#define PKGLIB_EDSP_H
11
12#include <apt-pkg/depcache.h>
13#include <apt-pkg/cacheset.h>
14
15#include <string>
16
17class EDSP /*{{{*/
18{
19 // we could use pkgCache::DepType and ::Priority, but these would be localized stringsā€¦
20 static const char * const PrioMap[];
21 static const char * const DepMap[];
22
23 bool static ReadLine(int const input, std::string &line);
24 bool static StringToBool(char const *answer, bool const defValue);
25
26 void static WriteScenarioVersion(pkgDepCache &Cache, FILE* output,
27 pkgCache::PkgIterator const &Pkg,
28 pkgCache::VerIterator const &Ver);
29 void static WriteScenarioDependency(pkgDepCache &Cache, FILE* output,
30 pkgCache::PkgIterator const &Pkg,
31 pkgCache::VerIterator const &Ver);
32 void static WriteScenarioLimitedDependency(pkgDepCache &Cache, FILE* output,
33 pkgCache::PkgIterator const &Pkg,
34 pkgCache::VerIterator const &Ver,
35 APT::PackageSet const &pkgset);
36public:
37 /** \brief creates the EDSP request stanza
38 *
39 * In the EDSP protocol the first thing send to the resolver is a stanza
40 * encoding the request. This method will write this stanza by looking at
41 * the given Cache and requests the installation of all packages which were
42 * marked for installation in it (equally for remove).
43 *
44 * \param Cache in which the request is encoded
45 * \param output is written to this "file"
46 * \param upgrade is true if it is an request like apt-get upgrade
47 * \param distUpgrade is true if it is a request like apt-get dist-upgrade
48 * \param autoRemove is true if removal of unneeded packages should be performed
49 *
50 * \return true if request was composed successfully, otherwise false
51 */
52 bool static WriteRequest(pkgDepCache &Cache, FILE* output,
53 bool const upgrade = false,
54 bool const distUpgrade = false,
55 bool const autoRemove = false);
56
57 /** \brief creates the scenario representing the package universe
58 *
59 * After the request all known information about a package are send
60 * to the solver. The output looks similar to a Packages or status file
61 *
62 * All packages and version included in this Cache are send, even if
63 * it doesn't make sense from an APT resolver point of view like versions
64 * with a negative pin to enable the solver to propose even that as a
65 * solution or at least to be able to give a hint what can be done to
66 * statisfy a request.
67 *
68 * \param Cache is the known package universe
69 * \param output is written to this "file"
70 *
71 * \return true if universe was composed successfully, otherwise false
72 */
73 bool static WriteScenario(pkgDepCache &Cache, FILE* output);
74
75 /** \brief creates a limited scenario representing the package universe
76 *
77 * This method works similar to #WriteScenario as it works in the same
78 * way but doesn't send the complete universe to the solver but only
79 * packages included in the pkgset which will have only dependencies
80 * on packages which are in the given set. All other dependencies will
81 * be removed, so that this method can be used to create testcases
82 *
83 * \param Cache is the known package universe
84 * \param output is written to this "file"
85 * \param pkgset is a set of packages the universe should be limited to
86 *
87 * \return true if universe was composed successfully, otherwise false
88 */
89 bool static WriteLimitedScenario(pkgDepCache &Cache, FILE* output,
90 APT::PackageSet const &pkgset);
91
92 /** \brief waits and acts on the information returned from the solver
93 *
94 * This method takes care of interpreting whatever the solver sends
95 * through the standard output like a solution, progress or an error.
96 * The main thread should handle his control over to this method to
97 * wait for the solver to finish the given task
98 *
99 * \param input file descriptor with the response from the solver
100 * \param Cache the solution should be applied on if any
101 *
102 * \return true if a solution is found and applied correctly, otherwise false
103 */
104 bool static ReadResponse(int const input, pkgDepCache &Cache);
105
106 /** \brief search and read the request stanza for action later
107 *
108 * This method while ignore the input up to the point it finds the
109 * Request: line as an indicator for the Request stanza.
110 * The request is stored in the parameters install and remove then,
111 * as the cache isn't build yet as the scenario follows the request.
112 *
113 * \param input file descriptor with the edsp input for the solver
114 * \param[out] install is a list which gets populated with requested installs
115 * \param[out] remove is a list which gets populated with requested removals
116 * \param[out] upgrade is true if it is a request like apt-get upgrade
117 * \param[out] distUpgrade is true if it is a request like apt-get dist-upgrade
118 * \param[out] autoRemove is true if removal of uneeded packages should be performed
119 *
120 * \return true if the request could be found and worked on, otherwise false
121 */
122 bool static ReadRequest(int const input, std::list<std::string> &install,
123 std::list<std::string> &remove, bool &upgrade,
124 bool &distUpgrade, bool &autoRemove);
125
126 /** \brief takes the request lists and applies it on the cache
127 *
128 * The lists as created by #ReadRequest will be used to find the
129 * packages in question and mark them for install/remove.
130 * No solving is done and no auto-install/-remove.
131 *
132 * \param install is a list of packages to mark for installation
133 * \param remove is a list of packages to mark for removal
134 * \param Cache is there the markers should be set
135 *
136 * \return false if the request couldn't be applied, true otherwise
137 */
138 bool static ApplyRequest(std::list<std::string> const &install,
139 std::list<std::string> const &remove,
140 pkgDepCache &Cache);
141
142 /** \brief encodes the changes in the Cache as a EDSP solution
143 *
144 * The markers in the Cache are observed and send to given
145 * file. The solution isn't checked for consistency or alike,
146 * so even broken solutions can be written successfully,
147 * but the front-end revicing it will properly fail then.
148 *
149 * \param Cache which represents the solution
150 * \param output to write the stanzas forming the solution to
151 *
152 * \return true if solution could be written, otherwise false
153 */
154 bool static WriteSolution(pkgDepCache &Cache, FILE* output);
155
156 /** \brief sends a progress report
157 *
158 * \param percent of the solving completed
159 * \param message the solver wants the user to see
160 * \param output the front-end listens for progress report
161 */
162 bool static WriteProgress(unsigned short const percent, const char* const message, FILE* output);
163
164 /** \brief sends an error report
165 *
166 * Solvers are expected to execute successfully even if
167 * they were unable to calculate a solution for a given task.
168 * Obviously they can't send a solution through, so this
169 * methods deals with formatting an error message correctly
170 * so that the front-ends can recieve and display it.
171 *
172 * The first line of the message should be a short description
173 * of the error so it can be used for dialog titles or alike
174 */
175 bool static WriteError(std::string const &message, FILE* output);
176
177 /** \brief executes the given solver and returns the pipe ends
178 *
179 * The given solver is executed if it can be found in one of the
180 * configured directories and setup for it is performed.
181 *
182 * \param solver to execute
183 * \param[out] solver_in will be the stdin of the solver
184 * \param[out] solver_out will be the stdout of the solver
185 *
186 * \return true if the solver could be started and the pipes
187 * are set up correctly, otherwise false and the pipes are invalid
188 */
189 bool static ExecuteSolver(const char* const solver, int *solver_in, int *solver_out);
190
191 /** \brief call an external resolver to handle the request
192 *
193 * This method wraps all the methods above to call an external solver
194 *
195 * \param solver to execute
196 * \param Cache with the problem and as universe to work in
197 * \param upgrade is true if it is a request like apt-get upgrade
198 * \param distUpgrade is true if it is a request like apt-get dist-upgrade
199 * \param autoRemove is true if unneeded packages should be removed
200 *
201 * \return true if the solver has successfully solved the problem,
202 * otherwise false
203 */
204 bool static ResolveExternal(const char* const solver, pkgDepCache &Cache,
205 bool const upgrade, bool const distUpgrade,
206 bool const autoRemove);
207};
208 /*}}}*/
209#endif